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+This eBook, including all associated images, markup, improvements,
+metadata, and any other content or labor, has been confirmed to be
+in the PUBLIC DOMAIN IN THE UNITED STATES.
+
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+Project Gutenberg (https://www.gutenberg.org) public repository for
+eBook #66703 (https://www.gutenberg.org/ebooks/66703)
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-The Project Gutenberg eBook of The Story of a Boulder; or, Gleanings from
-the Note-book of a Field Geologist, by Sir Archibald Geikie
-
-This eBook is for the use of anyone anywhere in the United States and
-most other parts of the world at no cost and with almost no restrictions
-whatsoever. You may copy it, give it away or re-use it under the terms
-of the Project Gutenberg License included with this eBook or online at
-www.gutenberg.org. If you are not located in the United States, you
-will have to check the laws of the country where you are located before
-using this eBook.
-
-Title: The Story of a Boulder; or, Gleanings from the Note-book of a
-       Field Geologist
-
-Author: Sir Archibald Geikie
-
-Release Date: November 10, 2021 [eBook #66703]
-
-Language: English
-
-Character set encoding: UTF-8
-
-Produced by: Tom Cosmas from materials made available on The Internet
-             Archive and placed in the Public Domain.
-
-*** START OF THE PROJECT GUTENBERG EBOOK THE STORY OF A BOULDER; OR,
-GLEANINGS FROM THE NOTE-BOOK OF A FIELD GEOLOGIST ***
-
-
-
-
-                       THE STORY OF A BOULDER.
-
-
-
-
-                        THE STORY OF A BOULDER
-
-                                  OR
-
-           GLEANINGS FROM THE NOTE-BOOK OF A FIELD GEOLOGIST
-
-
-
-                                  BY
-
-                           ARCHIBALD GEIKIE
-
-              OF THE GEOLOGICAL SURVEY OF GREAT BRITAIN.
-
-
-                     Illustrated with Woodcuts.
-
-
- EDINBURGH: THOMAS CONSTABLE AND CO. HAMILTON, ADAMS, AND CO., LONDON.
-
-                              MDCCCLVIII.
-
-
-           EDINBURGH: T. CONSTABLE, PRINTER TO HER MAJESTY.
-
-
-                                  TO
-
-                     GEORGE WILSON, M.D., F.R.S.E.
-
-    REGIUS PROFESSOR OF TECHNOLOGY IN THE UNIVERSITY OF EDINBURGH,
-
-                              THESE PAGES
-
-                                  ARE
-
-                       AFFECTIONATELY INSCRIBED.
-
-
-
-
-PREFACE
-
-
-The present Volume has been written among the rocks which it seeks
-to describe, during the intervals of leisure of a field-geologist.
-Its composition has been carried on by snatches, often short and far
-apart, some of the descriptions having been jotted down on the spot
-by streamlet and hill-side, or in the quiet of old quarries; others,
-again, in railway-carriage or stage-coach. By much the larger portion,
-however, has been written by the village fireside, after the field-work
-of the day was over--a season not the most favourable to any mental
-exercise, for weariness of body is apt to beget lassitude of mind. In
-short, were I to say that these Chapters have been as often thrown
-aside and resumed again as they contain paragraphs, the statement would
-probably not exceed the truth. But the erratic life of an itinerant
-student of science is attended with yet greater disadvantages. It
-entails an absence from all libraries, more especially scientific
-ones, and the number of works of reference admissible into his _parva
-supellex_ must ever be few indeed. With these hindrances, can the
-writer venture to hope that what has thus been so disjointed and
-unconnected to him, will not seem equally so to his readers? Yet if his
-descriptions, written, as it were, face to face with Nature, are found
-to have caught some tinge of Nature's freshness, and please the reader
-well enough to set him in the way of becoming a geologist, he shall
-have accomplished all his design.
-
-It cannot be too widely known, or too often pressed on the attention,
-especially of the young, that a true acquaintance with science, so
-delightful to its possessors, is not to be acquired at second-hand.
-Text-books and manuals are valuable only so far as they supplement
-and direct our own observations. A man whose knowledge of Nature is
-derived solely from these sources, differs about as much from one who
-betakes himself to Nature herself, as a dusty, desiccated mummy does
-from a living man. You have the same bones and sinews in both; but
-in the one they are hard and dry, wholly incapable of action; in the
-other they are instinct with freshness and life. He who would know what
-physical science really is, must go out into the fields and learn it
-for himself: and whatever branch he may choose, he will not be long in
-discovering that a forenoon intelligently spent there must be deemed
-of far more worth than days and weeks passed among books. He sees the
-objects of his study with his own eyes, and not through "the spectacles
-of books;" facts come home to him with a vividness and reality they
-never can possess in the closet; the free buoyant air brightens his
-spirits and invigorates his mind, and he returns again to his desk or
-his workshop with a store of new health and pleasure and knowledge.
-Geology is peculiarly rich in these advantages, and lies in a manner
-open to all. No matter what may be the season of the year, it offers
-always some material for observation. In the depth of winter we have
-the effects of ice and frost to fall back upon, though the country
-should lie buried in snow; and then when the longer and brighter
-days of spring and summer come round, how easily may the hammer be
-buckled round the waist, and the student emerge from the dust of town
-into the joyous air of the country, for a few delightful hours among
-the rocks; or when autumn returns with its long anticipated holidays,
-and preparations are made for a scamper in some distant locality,
-hammer and note-book will not occupy much room in the portmanteau,
-and will certainly be found most entertaining company. The following
-pages--forming a digest of the Carboniferous rocks--may, perhaps, in
-some measure, guide the explorations of the observer, by indicating
-to him the scope of geological research, the principles on which the
-science rests, and the mode in which it is pursued. But I repeat, no
-book, no lecture-room, no museum, will make a geologist of him. He must
-away to the fields and study for himself, and the more he can learn
-there he will become the better geologist.
-
-He need not burden himself with accoutrements. A hammer, pretty stout
-in its dimensions, with a round blunt face and a flat sharp tail; a
-note-book and a good pocket-lens, are all he needs to begin with.
-Having these, let him seek to learn the general characters' of the
-more common rocks, aiding himself, where he can, by a comparison with
-the specimens of a museum, or, failing that, with the descriptions of
-a text-book. Let him then endeavour to become acquainted with some of
-the more characteristic fossils of the district in which he resides,
-so as to be able to recognise them wherever they occur. Private
-collections and local museums are now becoming comparatively common,
-and these, where accessible, will aid him vastly in his studies. Having
-at length mastered the more abundant rocks and organic remains of his
-neighbourhood, let him try to trace out the connexion of the different
-strata across the country, so as to understand its structure. For
-this purpose it will be necessary to examine every ravine and natural
-exposure of the rocks, along with quarries, ditches, railway-cuttings,
-and, in short, the whole surface of the district. A general notion
-of the geology of the place will, not perhaps be of very difficult
-attainment; and this done, the observer should attempt to put down
-the connexion of the rocks on paper, for till this is accomplished he
-will have at the best but an imperfect, and perhaps incorrect notion
-of the subject. The best map of the district should be obtained, also
-a clinometer, or instrument for ascertaining the angle at which rocks
-_dip_ with the horizon, and a pocket-compass with which to mark the
-direction of the _dip_ and _strike_ of strata, that is, the _outcrop_,
-or line which they form when they come to the surface. Thus armed, he
-may commence a geological survey of his neighbourhood. Wherever he
-sees a bed of rock exposed, it should be marked down on his map with
-an arrow pointing to the direction in which the stratum is dipping,
-the angle of dip, ascertained by the clinometer, being put alongside.
-The nature of the rock, whether sandstone, shale, limestone, or
-greenstone, must be set down at the same place, and, to save room,
-a system of marks for the different rocks may be conveniently used.
-When a sufficient area of ground has been thus traversed, the student
-may find, say a row of arrows on his map all pointing due west, and
-indicating a set of quarries about a quarter of a mile distant from one
-another, the rock in each of them dipping to the west. If there be at
-the one end a limestone containing certain fossils, and at the other
-end a stratum exactly similar, containing the same fossils, while the
-quarries between display the same rock, he will infer, of course, that
-the whole is one limestone, and will accordingly draw a line from the
-last quarry on the north to the last on the south, connecting them all
-together. If the bed dips steeply down, the line will be narrower,--if
-but slightly inclined, it will be broader; the breadth of such a line
-(which may be coloured to taste) always varying with the thickness
-of the stratum and the angle which it makes with the horizon. In a
-district where faults and curvatures along with trap-rocks abound, the
-mapping becomes more complex, but the principle remains the same--a
-curved stratum on the ground making a similarly curved band on the map,
-and a fault or dislocation of a set of beds producing, in the same way,
-a corresponding break in the lines traced. In short, a geological map
-should be as far as possible a transcript of the surface rocks of a
-country. The beginner should avoid, however, attempting too much; it
-will be enough for him at first to have mastered the leading features
-of the geology of his district; the details cannot be shown save on
-a map of a large scale, and are better transferred to his note-book.
-The use of such mapping is to enable us to gain a correct knowledge of
-the geological structure of a country, and of the relation of rocks to
-each other as regards age, origin, &c. Bacon tells us that "writing
-makes an exact man;" we may say with equal truth that mapping makes
-an exact geologist. It is sometimes easy enough to obtain a notion of
-the general character of a district by taking a few rambles across it;
-but we can never know it thoroughly until we have mapped it. And this
-is done not as mere dry routine, or by a series of hard uninteresting
-rules. In reading off the geological structure of a country, we
-ascertain its history during many thousand ages long prior to that
-of man. We become, as it were, interpreters of hieroglyphics, and
-historians of long-perished dynasties.
-
-Those who have had experience of field-geology, know how vain it is
-to attempt to compress into a page or two the results of years, and
-that a few vague general directions are about the utmost that can be
-attempted. The practice of the science cannot be taught in books, far
-less in prefaces, neither can it be learned from them. And so I once
-more repeat the advice: Get away to the fields. Seek to decipher the
-geological records for yourself, and look with your own eyes into the
-long series of ages whose annals lie inscribed among the rocks. If you
-can secure the co-operation of a few companions, so much the better.
-Half-a-dozen hammers zealously at work in a richly fossiliferous
-stratum will soon pile up a tolerable collection of its treasures. But
-whether singly or in company, use your eyes and your hammer, and even
-though in the end you should never become a geologist, you will in the
-meantime gain health and vigour, and a clearness of observation, that
-will stand you in good stead through life.
-
-
-
-
-CONTENTS.
-
-
-CHAPTER I.
-
-PAGE
-
-  Scene near Colinton in midsummer--A grey travelled Boulder--Its
-       aspect and contents--Its story of the past,
-
-                                                                      1
-
-
-CHAPTER II.
-
-  Exterior of the boulder--Travelled stones a difficult problem--Once
-       referred to the Deluge--Other theories--Novelty of the true
-       solution--Icebergs formed in three ways--Progress and scenery
-       of an iceberg--Its effects--Size of icebergs--Boulder clay
-       had a glacial origin--This explanation confirmed by fossil
-       shells--Laws of the distribution of life--Deductions,
-
-                                                                      6
-
-
-CHAPTER III.
-
-  How the boulder came to be one--"Crag and tail"--Scenery of
-       central Scotland: Edinburgh--"Crag and tail" formerly
-       associated in its origin with the boulder-clay--This
-       explanation erroneous--Denudation an old process--Its
-       results--Illustration from the Mid-Lothian coal-field--The
-       three Ross-shire hills--The Hebrides relics of an
-       ancient land--Scenery of the western coast--Effects of
-       the breakers--Denudation of the Secondary strata of the
-       Hebrides--Preservative influence of trap-rocks--Lost
-       species of the Hebrides--Illustration--Origin of the
-       general denudation of the country--Illustrative action
-       of streams--Denudation a very slow process--Many old
-       land-surfaces may have been effaced--Varied aspect of the
-       British Islands during a period of submergence--Illustration,
-
-                                                                     18
-
-
-CHAPTER IV.
-
-  Interior of the boulder--Wide intervals of
-       Geology--Illustration--Long interval between the
-       formation of the boulder as part of a sand-bed,
-       and its striation by glacial action--Sketch of the
-       intervening ages--The boulder a Lower Carboniferous
-       rock--Cycles of the astronomer and the geologist
-       contrasted--Illustration--Plants shown by the boulder once
-       grew green on land--Traces of that ancient land Its seas,
-       shores, forests, and lakes, all productive of material
-       aids to our comfort and power--Plants of the Carboniferous
-       era--Ferns--Tree-ferns--Calamites--Asterophyllites--
-       Lepidodendron--Lepidostrobus--Stigmaria--Scene in a ruined
-       palace--Sigillaria--Coniferæ, Cycadeæ--Antholites, the oldest
-       known flower--Grade of the Carboniferous flora--Its resemblance
-       to that of New Zealand,
-
-                                                                     30
-
-
-CHAPTER V.
-
-  Scenery of the carboniferous forests--Contrast in the
-       appearance of coal districts at the present day--Abundance
-       of animal life in the Carboniferous era--Advantages
-       of palæontology over fossil-botany--Carboniferous
-       fauna--Actiniæ--Cup-corals--Architecture of the present
-       day might be improved by study of the architecture of the
-       Carboniferous period--Mode of propagation of corals--A
-       forenoon on the beach--Various stages in the decomposition of
-       shells--Sea-mat--Bryozoa--Fenestella--Retepora--Stone-lilies--
-       Popular superstitions--Structure of the stone-lilies--Aspect
-       of the sea-bottom on which the stone-lilies
-       flourished--Sea-urchins--Crustacea, their high
-       antiquity--Cyprides--Architecture of the Crustacea and
-       mollusca contrasted--King-crabs,
-
-                                                                     59
-
-
-CHAPTER VI.
-
-  Carboniferous fauna continued--George Herbert's ode on
-       "Man"--His idea of creation--What nature teaches on
-       this subject--Molluscous animals--Range of species in
-       time proportionate to their distribution in space--Two
-       principles of renovation and decay exhibited alike in the
-       physical world and the world of life--Their effects--The
-       mollusca--Abundantly represented in the carboniferous
-       rocks--Pteropods--Brachiopods--Productus--Its alliance with
-       Spirifer--Spirifer--Terebratula--Lamellibranchs--Gastropods--
-       Land-snail of Nova Scotia--Cephalopods--Structure of
-       orthoceras--Habits of living nautilus,
-
-                                                                     86
-
-
-CHAPTER VII.
-
-  Classification of the naturalist not always correspondent with
-       the order of nature--Incongruous grouping of animals
-       in the invertebrate division--Rudimentary skeleton
-       of the cephalopods--Introduction of the vertebrate
-       type into creation--Ichthyolites of the carboniferous
-       rocks--Their state of keeping--Classification of fossil
-       fishes--Placoids--Ichthyodorulites--Ganoids--Their structure
-       exemplified in the megalichthys and holoptychius--Cranium of
-       megalichthys--Its armature of scales--Microscopic structure of
-       a scale--Skeleton of megalichthys--History of the discovery
-       of the holoptychius--Confounded with megalichthys--External
-       ornament of holoptychius--Its jaws and teeth--Microscopic
-       structure of the teeth--Paucity of terrestrial fauna in coal
-       measures--Insect remains--Relics of reptiles--Concluding
-       summary of the characters of the Carboniferous fauna--Results,
-
-                                                                   110
-
-
-CHAPTER VIII.
-
-  Sand and gravel of the boulder--What they suggested--Their
-       consideration leads us among the more mechanical operations
-       of Nature--An endless succession of mutations in the
-       economy of the universe--Exhibited in plants In animals--In
-       the action of winds and oceanic currents--Beautifully
-       shown by the ceaseless passage of water from land to
-       sea, and sea to land--This interchange not an isolated
-       phenomenon--How aided in its effects by a universal process
-       of decay going on wherever a land surface is exposed to
-       the air--Complex mode of Nature's operations--Interlacing
-       of different causes in the production of an apparently
-       single and simple effect--Decay of rocks--Chemical
-       changes--Underground and surface decomposition--Carbonated
-       springs--The Spar Cave--Action of rain-water--Decay of
-       granite--Scene in Skye--Trap-dykes--Weathered cliffs of
-       sandstone--Of conglomerate--Of shale--Of limestone--Caverns
-       of Raasay--Incident--Causes of this waste of calcareous
-       rocks--Tombstones,
-
-                                                                    138
-
-
-CHAPTER IX.
-
-  Mechanical forces at work in the disintegration of
-       rocks--Rains--Landslips--Effects of frosts--Glaciers and
-       icebergs--Abrading power of rivers--Suggested volume on the
-       geology of rivers--Some of its probable contents--Scene
-       in a woody ravine--First idea of the origin of the ravine
-       one of primeval cataclysms--Proved to be incorrect--Love
-       of the marvellous long the bane of geology--More careful
-       examination shows the operations of Nature to be singularly
-       uniform and gradual--The doctrine of slow and gradual change
-       not less poetic than that of sudden paroxysms--The origin
-       of the ravine may be sought among some of the quieter
-       processes of Nature--Features of the ravine Lessons of the
-       waterfall--Course of the stream through level ground--True
-       history of the ravine--Waves and currents--What becomes of the
-       waste of the land--The Rhone and the Leman Lake--Deltas on the
-       sea-margin--Reproductive effects of currents and waves--Usual
-       belief in the stability of the land and the mutability of the
-       ocean--The reverse true--Continual interchange of land and
-       sea part of the economy of Nature--The continuance of such a
-       condition of things in future ages rendered probable by its
-       continuance during the past,
-
-                                                                    157
-
-
-CHAPTER X.
-
-  The structure of the stratified part of the earth's
-       crust conveniently studied by the examination of a
-       single formation--A coal-field selected for this
-       purpose--Illustration of the principles necessary to such
-       an investigation--The antiquities of a country of value in
-       compiling its pre-historic annals--Geological antiquities
-       equally valuable and more satisfactorily arranged--Order
-       of superposition of stratified formations--Each formation
-       contains its own suite of organic remains--The age of
-       the boulder defined by this test from fossils--Each
-       formation as a rule shades into the adjacent ones--Mineral
-       substances chiefly composing the stratified rocks few
-       in number--Not of much value in themselves as a test of
-       age--The Mid-Lothian coal-basin--Its subdivisions--The
-       limestone of Burdiehouse--Its fossil remains--Its probable
-       origin--Carboniferous limestone series of Mid-Lothian--Its
-       relation to that of England--Its organic remains totally
-       different from those of Burdiehouse--Structure and
-       scenery of Roman Camp Hill--Its quarries of the mountain
-       limestone--Fossils of these quarries indicative of an ancient
-       ocean-bed--Origin of the limestones--Similar formations still
-       in progress--Coral-reefs and their calcareous silt--Sunset
-       among the old quarries of Roman Camp Hill,
-
-                                                                    178
-
-
-CHAPTER XI.
-
-  Intercalation of coal seams among mountain limestone beds of
-       Mid-Lothian--North Greens seam--Most of our coal seams
-       indicate former land-surfaces--Origin of coal a debated
-       question--Erect fossil trees in coal-measures--Deductions to
-       be drawn therefrom--Difference between the mountain limestone
-       of Scotland and that of England--Coal-bearing character of the
-       northern series--Divisions of the Mid-Lothian coal-field--The
-       Edge coals--Their origin illustrated by the growth of modern
-       deltas--Delta of the Nile--Of the Mississippi--Of the
-       Ganges--Progress of formation of the Edge coals--Scenery
-       of the period like that of modern deltas--Calculations of
-       the time required for the growth of a coal-field--Why of
-       doubtful value--Roslyn Sandstone group--Affords proofs of
-       a general and more rapid subsidence beneath the sea--Its
-       great continuity--Probable origin--Flat coals--Similar
-       in origin to the Edge coals below--Their series not now
-       complete--Recapitulation of the general changes indicated by
-       the Mid-Lothian coal-field,
-
-                                                                    204
-
-
-CHAPTER XII.
-
-  Trap-pebbles of the boulder--Thickness of the earth's crust
-       unknown--Not of much consequence to the practical
-       geologist--Interior of the earth in a highly heated
-       condition--Proofs of this--Granite and hypogene
-       rocks--Trap-rocks: their identity with lavas and
-       ashes--Scenery of a trappean country--Subdivisions of
-       the trap-rocks--Intrusive traps--Trap-dykes--Intrusive
-       sheets--Salisbury Crags--Traps of the neighbourhood of
-       Edinburgh--Amorphous masses--Contemporaneous trap-rocks of
-       two kinds--Contemporaneous melted rocks--Tests for their age
-       and origin--Examples from neighbourhood of Edinburgh--Tufas
-       or volcanic ashes--Their structure and origin--Example
-       of contemporaneous trap-rocks--Mode of interpreting
-       them--Volcanoes of Carboniferous times--Conclusion,
-
-                                                                    235
-
-
-
-
-THE STORY OF A BOULDER.
-
-
-
-
-CHAPTER I.
-
-
-  Scene near Colinton in midsummer--A grey travelled Boulder--Its
-       aspect and contents--Its story of the past.
-
-Three miles to the south-west of Edinburgh, and not many hundred yards
-from the sequestered village of Colinton, there is a ravine, overshaded
-by a thick growth of beech and elm, and traversed beneath by a stream,
-which, rising far away among the southern hills, winds through the
-rich champaign country of Mid-Lothian. It is, at all seasons of the
-year, one of the most picturesque nooks in the county. I have seen it
-in the depth of winter--the leafless boughs doddered and dripping, the
-rocks dank and bare save where half-hidden by the rotting herbage, and
-the stream, red and swollen, roaring angrily down the glen, while the
-families, located along its banks, fleeing in terror to the higher
-grounds, had left their cottages to the mercy of the torrent. The last
-time I visited the place was in the heart of June, and surely never did
-woodland scene appear more exquisitely beautiful. The beech trees were
-in full leaf, and shot their silvery boughs in slender arches athwart
-the dell, intertwining with the broader foliage and deeper green of
-the elm, and the still darker spray of the stately fir. The rocks on
-either side were tapestried with verdure; festoons of ivy, with here
-and there a thread of honey-suckle interwoven, hung gracefully from the
-cliffs overhead; each projecting ledge had its tuft of harebells, or
-speedwell, or dog-violets, with their blue flowers peeping out of the
-moss and lichens; the herb-robert trailed its red blossoms over crag
-and stone; the wood-sorrel nestled its bright leaves and pale flowerets
-among the gnarled roots of beech and elm; while high over all, alike on
-the rocks above and among the ferns below, towered the gently drooping
-stalks of the fox-glove. The stream, almost gone, scarcely broke the
-stillness with a low drowsy murmur, as it sauntered on among the
-_lapides adesos_ of its pebbly channel. Horace's beautiful lines found
-again their realization:--
-
-    "Qua pinus ingens, albaque populus
-    Umbram hospitalem consociare amant
-        Ramis, et obliquo laborat
-            Lympha fugax trepidare rivo." [1]
-
-[Footnote 1:
-
-    Where the tall pine and poplar pale
-    Delight to cast athwart the vale
-        A pleasing shade.
-    While the clear stream low murmuring bells.
-    And o'er its winding channel toils
-        Adown the glade.--A. G.
-]
-
-It was noon, and the sun shone more brightly and with greater heat
-than had been felt for years. The air, heavy and warm, induced a
-feeling of listlessness and languor, and the day seemed one for which
-the only appropriate employment would have been to read once again
-the "Castle of Indolence." But failing that, I found it pleasant to
-watch the flickering light shot in fitful gleams through the thick
-canopy of leaves, and thus, in the coolness of the shade, to mark
-these rays--sole messengers from the sweltering world around--as they
-danced from rock to stream, now lighting up the ripples that curled
-dreamily on, now chequering some huge boulder that lay smooth and
-polished in mid-channel, anon glancing playfully among the thickets
-of briar or honeysuckle and vanishing in the shade. Sometimes a
-wagtail would alight at hand, or a bee drone lazily past, while even
-an occasional butterfly would venture down into this shady covert.
-But, with these exceptions, the animal creation seemed to have gone to
-sleep, an example which it was somewhat difficult to avoid following.
-While thus idly engaged, my eye rested on a large boulder on the
-opposite side. It lay partly imbedded in a stiff clay, and partly
-protruding from the surface of the bank some way above the stream.
-A thick arbour of leafage overhung it, through which not even the
-faintest ray of sunshine could force its way. The spot seemed cooler
-and more picturesque than that which I occupied, and so, crossing the
-well-nigh empty channel, I climbed the bank and was soon seated on the
-boulder. A stout hammer is a constant companion in my rambles, and was
-soon employed on this occasion in chipping almost unconsciously the
-newly-acquired seat. The action was, perhaps, deserving of the satire
-of Wordsworth's Solitary:--
-
-          "You may trace him oft
-    By scars, which his activity has left
-    Beside our roads and pathways, though, thank Heaven!
-    This covert nook reports not of his hand.
-    He, who with pocket-hammer smites the edge
-    Of luckless rock or prominent stone, disguised
-    In weather-stains, or crusted o'er by Nature
-    With her first growths, detaching by the stroke
-    A chip or splinter to resolve his doubts;
-    And, with that ready answer satisfied,
-    The substance classes by some barbarous name,
-    And hurries on; or from the fragments picks
-    His specimen; if but imply interveined
-    With sparkling mineral, or should crystal cube
-    Lurk in its cells and thinks himself enriched.
-    Wealthier, and doubtless wiser, than before!"
-
-There was nothing in the distant aspect of the boulder to attract
-attention. It was just such a mass as dozens of others all round. Nor,
-on closer inspection, might anything peculiar have been observed. It
-had an irregularly oblong form, about two or three feet long, and half
-as high. Ferns and herbage were grouped around it, the wood-sorrel
-clustered up its sides, and little patches of moss and lichen nestled
-in its crevices. And yet, withal, there was something about it that,
-ere long, riveted my attention. I examined it minutely from one end to
-the other, and from top to bottom. The more I looked the more did I see
-to interest me; and when, after a little labour, some portions of its
-upper surface were detached, my curiosity was abundantly gratified.
-That grey lichened stone, half hid among foliage, and unheeded by any
-human being, afforded me material for a pleasant forenoon's thought.
-Will my reader accept an expanded narrative of my reverie?
-
-I can almost anticipate a smile. "What can there be remarkable in such
-a grey stone, hidden in a wood, and of which nobody knows anything?
-It never formed part of any ancient building; it marks the site of
-no event in the olden time; it is linked with nothing in the history
-of our country. What of interest, then, can it have for us?" Nay, I
-reply, you are therein mistaken. It is, assuredly, linked with the
-history of our country--it does mark the passing of many a historical
-event long ere human history began; and, though no tool ever came upon
-it, it did once form part of a building that rose under the finger of
-the Almighty during the long ages of a bygone eternity. To change the
-figure, this boulder seemed like a curious volume, regularly paged,
-with a few extracts from older works. Bacon tells us that "some books
-are to be tasted, others to be swallowed, and some few to be chewed and
-digested." Of the last honour I think the boulder fully worthy, and if
-the reader will accompany me, I shall endeavour to show him how the
-process was attempted by me.
-
-The rock consisted of a hard grey sandstone finely laminated above,
-and getting pebbly and conglomeritic below. The included pebbles were
-well worn, and belonged to various kinds of rock. The upper part of
-the block was all rounded, smoothed, and deeply grooved, and, when
-split open, displayed numerous stems and leaflets of plants converted
-into a black coaly substance. These plants were easily recognisable
-as well-known organisms of the carboniferous strata, and it became
-accordingly evident that the boulder was a block of carboniferous
-sandstone. The pebbles below, however, must have been derived from
-more ancient rocks, and they were thus seen to represent some older
-geological formation. In this grey rock, therefore, there could at
-once be detected well-marked traces of at least two widely-separated
-ages. The evidence for each was indubitable, and the chronology of
-the whole mass could not be mistaken. The surface striation bore
-undoubted evidence of the glacial period, the embedded plants as
-plainly indicated the far more ancient era of the coal-measures, while
-the pebbles of the base pointed, though dimly, to some still more
-primeval age. I had here, as it were, a quaint, old, black-letter
-volume of the middle ages, giving an account of events that were
-taking place at the time it was written, and containing on its earlier
-pages numerous quotations from authors of antiquity. The scratched
-surface, to complete the simile, may be compared to this old work
-done up in a modern binding. Let us, then, first of all, look for a
-little at the exterior of the volume, and inquire into the origin of
-that strangely-striated surface, and of the clay in which the boulder
-rested.
-
-
-
-
-CHAPTER II.
-
-
-  Exterior of the boulder--Travelled stones a difficult problem--Once
-       referred to the Deluge--Other theories--Novelty of the true
-       solution--Icebergs formed in three ways--Progress and scenery
-       of an iceberg--Its effects--Size of icebergs--Boulder-clay
-       had a glacial origin--This explanation confirmed by fossil
-       shells--Laws of the distribution of life--Deductions.
-
-Has the reader, when wandering up the course of a stream, rod in hand
-perhaps, ever paused at some huge rounded block of gneiss or granite
-damming up the channel, and puzzled himself for a moment to conjecture
-how it could get there? Or when rolling along in a railway carriage,
-through some deep cutting of sand, clay, and gravel, did the question
-ever obtrude itself how such masses of water-worn material came into
-existence? Did he ever wonder at the odd position of some huge grey
-boulder, far away among the hills, arrested as it were on the steep
-slope of a deep glen, or perched on the edge of a precipitous cliff, as
-though a push with the hand would hurl it down into the ravine below?
-Or did he ever watch the operations of the quarryman, and mark, as each
-spadeful of soil was removed, how the surface of the rock below was all
-smoothed, and striated, and grooved?
-
-These questions, seemingly simple enough, involve what was wont to
-be one of the greatest problems of geology, and not many years have
-elapsed since it was solved. The whole surface of the country was
-observed to be thickly covered with a series of clays, gravels, and
-sands, often abounding in rounded masses of rock of all sizes up to
-several yards in diameter. These deposits were seen to cover all
-the harder rocks, and to occur in a very irregular manner, sometimes
-heaped up into great mounds, and sometimes entirely wanting. They were
-evidently the results of no agency visible now, either on the land
-or around our coasts. They had an appearance rather of tumultuous
-and violent action, and so it was wisely concluded that they must be
-traces of the great deluge. The decision had at least this much in its
-favour, it was thoroughly orthodox, and accordingly received marked
-approbation, more especially from those who wished well to the young
-science of geology, but were not altogether sure of its tendencies.
-But, alas! this promising symptom very soon vanished. As observers
-multiplied, and investigations were carried on in different countries,
-the truth came out that these clays and gravels were peculiarly a
-northern formation; that they did not appear to exist in the south of
-France, Italy, Asia Minor, Syria, and the contiguous countries. If,
-then, they originated from the rushing of the diluvian waters, these
-southern lands must have escaped the catastrophe, and the site of the
-plains of Eden would have to be sought somewhere between the Alps
-and the North Pole. This, of course, shocked all previous ideas of
-topography; it was accordingly agreed, at least among more thoughtful
-men, that with these clays and sands the deluge could have had nothing
-to do.
-
-Other theories speedily sprang up, endeavouring to account for the
-phenomena by supposing great bodies of water rushing with terrific
-force across whole continents, sweeping away the tops of hills,
-tearing up and dispersing entire geological formations, and strewing
-the ocean-bottom with scattered debris. But this explanation had the
-disadvantage of being woefully unphilosophical and not very clearly
-orthodox. Such debacles did not appear to have ever taken place in
-any previous geologic era, and experience was against them. Besides,
-they did not account for some of the most evident characteristics of
-the phenomena, such as the northern character of the formation, the
-long parallel striations of the rock surfaces, and the perching of
-huge boulders on lofty hills, often hundreds of miles distant from the
-parent rock. Geologists were completely at fault, and the boulder-clay
-remained a mystery for years.
-
-When we consider the physical aspects of the countries where the
-question was studied, we cannot much wonder that the truth was so hard
-to find. In the midst of corn-fields and meadows, one cannot readily
-realize the fact that the spot where they stand has been the site of
-a wide-spread sea; and that where now villages and green lanes meet
-the eye, there once swam the porpoise and the whale, or monsters of
-a still earlier creation, unwieldy in bulk and uncouth in form. Such
-changes, however, must have been, for their traces meet us on every
-hand. We have the sea dashing against our shores, and there seems
-nothing at all improbable in the assertion that once it dashed against
-our hill-tops. No one, therefore, has any difficulty in giving such
-statements his implicit belief. But who could have dreamed that these
-fields, so warm and sunny, were once sealed in ice, and sunk beneath
-a sea that was cumbered with many a wandering iceberg? Who could have
-imagined, that down these glens, now carpeted with heath and harebell,
-the glacier worked its slow way amid the stillness of perpetual snow?
-And yet strange as it may seem, such is the true solution of the
-problem. The boulder-clay was formed during the slow submergence of our
-country beneath an icy sea, and the rock-surfaces owe their polished
-and striated appearance to the grating across them of sand and stones
-frozen into the bottom of vast icebergs, that drifted drearily from the
-north. That we may the better see how these results have been effected,
-let us glance for a little at the phenomena observable in northern
-latitudes at the present day.
-
-Icebergs are formed in three principal ways:--1st, By glaciers
-descending to the shore, and being borne seawards by land-winds; 2d,
-By river-ice packed during spring, when the upper reaches of the rivers
-begin to thaw; 3d, By coast-ice.
-
-I. There is an upper stratum of the atmosphere characterized by intense
-cold, and called the region of perpetual snow. It covers the earth
-like a great arch, the two ends resting, one on the arctic, the other
-on the antarctic zone, while the centre, being about 16,000 feet above
-the sea,[2] rises directly over the tropics. Wherever a mountain is
-sufficiently lofty to pierce this upper stratum, its summit is covered
-with snow, and, as the snow never melts, it is plain that, from the
-accumulations of fresh snow-drifts, the mountain-tops, by gradually
-increasing in height and width, would become the supporting columns
-of vast hills of ice, which, breaking up at last from their weight
-and width, would roll down the mountain-sides and cover vast areas
-of country with a ruin and desolation more terrible than that of any
-avalanche. Olympus would really be superposed upon Ossa. By a beautiful
-arrangement this undue growth is prevented, so that the hill-tops
-never vary much in height above the sea. The cone of ice and snow
-which covers the higher part of the mountain, sends down into each of
-the diverging valleys a long sluggish stream of ice, with a motion so
-slow as to be almost imperceptible. These streams are called glaciers.
-As they creep down the ravines and gorges, blocks of rock detached
-by the frosts from the cliffs above, fall on the surface of the ice,
-and are slowly carried along with it. The bottom also of the glaciers
-is charged with sand, gravel, and mud, produced by the slow-crushing
-movement; large rocky masses become eventually worn down into
-fragments, and the whole surface of the hard rock below is traversed
-by long parallel grooves and striæ in the direction of the glacier's
-course. Among the Alps, the lowest point to which the glacier descends
-is about 8500 feet. There the temperature gets too high to allow of its
-further progress, and so it slowly melts away, choking up the valleys
-with piles of rocky fragments called moraines, and 'giving rise to
-numerous muddy streams that traverse the valleys, uniting at length
-into great rivers such as the Rhone, which enters the Lake of Geneva
-turbid and discoloured with glacial mud.
-
-[Footnote 2: The average height of the snow-line within the tropics
-is 15,207 feet, but it varies according to the amount of land and sea
-adjacent, and other causes. Thus, among the Bolivian Andes, owing to
-the extensive radiation, and the ascending currents of air from the
-neighbouring plains and valleys, the line stands at a level of 18,000
-feet, while, on mountains near Quito, that is, immediately on the
-equatorial line, the lowest level is 15,795.--See Mrs. Somerville's
-_Physical Geography_, 4th edit. p. 314.]
-
-In higher latitudes, where the lower limit of the snow-line descends to
-the level of the sea, the glaciers are often seen protruding from the
-shore, still laden with blocks that have been carried down from valleys
-far in the interior. The action of storms and tides is sufficient to
-detach large masses of the ice, which then floats off, and is often
-wafted for hundreds of miles into temperate regions, where it gradually
-melts away. Such floating islands are known as icebergs.
-
-II. In climates such as that of Canada, where the winters are very
-severe, the rivers become solidly frozen over, and, if the frost be
-intense enough, a cake of ice forms at the bottom. In this way sand,
-mud, and rocky fragments strewing the banks or the channel of the
-stream, are firmly enclosed. When spring sets in, and the upper parts
-of the rivers begin to thaw, the swollen waters burst their wintry
-integuments, and the ice is then said to _pack_. Layer is pushed
-over layer, and mass heaped upon mass, until great floes are formed.
-These have often the most fantastic shapes, and are borne down by the
-current, dropping, as they go, the mud and boulders, with which they
-are charged, until they are stranded along some coast line, or melt
-away in mid-ocean.
-
-III. But icebergs are also produced by the freezing of the water of
-the ocean. In high latitudes, this takes place when the temperature
-falls to 28·5° of Fahrenheit. The surface of the sea then parts with its
-saline ingredients, and takes the form of a sheet of ice, which, by
-the addition of successive layers, augmented sometimes by snow-drifts,
-often reaches a height of from thirty to forty feet. On the approach of
-summer these ice-fields break up, crashing into fragments with a noise
-like the thundering of cannon. The disparted portions are then carried
-towards the equator by currents, and may be encountered by hundreds
-floating in open sea. Their first form is flat, but, as they travel on,
-they assume every variety of shape and size.
-
-On the shores of brackish seas, such as the Baltic, or along a coast
-where the salt water is freshened by streams or snow-drifts from the
-land, sheets of ice also frequently form during severe frosts. Sand and
-boulders are thus frozen in, especially where a layer of ice has formed
-upon the sea-bottom.[3] The action of gales or of tides is sufficient
-to break up these masses, which are then either driven ashore and
-frozen in a fresh cake of ice, or blown away to sea. The bergs formed
-in this way have originally a low flat outline, and many extend as
-ice-fields over an area of many miles, while, at a later time, they may
-be seen towering precipitously as great hills, some 200 or 300 feet
-high.
-
-[Footnote 3: I was informed by the late Mr. Hugh Miller, that a seam
-of shale abounding in liassic fossils, had been found intercalated
-among the boulder-clay beds in the vicinity of Eathie. He explained its
-occurrence there by supposing that it had formed a reef along a shore
-where ground-ice was forming; and so having been firmly frozen in, it
-was torn up on the breaking of the ice, and deposited at a distance
-among the mud at the sea-bottom.]
-
-Few sights in nature are more imposing than that of the huge,
-solitary iceberg, as, regardless alike of wind and tide, it steers
-its course across the face of the deep far away from land. Like one
-of the "Hrim-thursar," or Frost-giants of Scandinavian mythology,[4]
-it issues from the portals of the north armed with great blocks of
-stone. Proudly it sails on. The waves that dash in foam against its
-sides shake not the strength of its crystal walls, nor tarnish the
-sheen of its emerald caves. Sleet and snow, storm and tempest, are its
-congenial elements. Night falls around, and the stars are reflected
-tremulously from a thousand peaks, and from the green depths of
-"caverns measureless to man." Dawn again arises, and the slant rays of
-the rising sun gleam brightly on every projecting crag and pinnacle,
-as the berg still floats steadily on; yet, as it gains more southern
-latitudes, what could not be accomplished by the united fury of the
-waves, is slowly effected by the mildness of the climate. The floating
-island becomes gradually shrouded in mist and spume, streamlets
-everywhere trickle down its sides, and great crags ever and anon fall
-with a sullen plunge into the deep. The mass becoming top-heavy,
-reels over, exposing to light rocky fragments still firmly imbedded.
-These, as the ice around them gives way, are dropped one by one into
-the ocean, until at last the iceberg itself melts away, the mists are
-dispelled, and sunshine once more rests upon the dimpled face of the
-deep.[5] If, however, before this final dissipation, the wandering
-island should be stranded on some coast, desolation and gloom are
-spread over the country for leagues. The sun is obscured, and the air
-chilled; the crops will not ripen; and, to avoid the horrors of famine,
-the inhabitants are fain to seek some more genial locality until the
-ice shall have melted away; and months may elapse before they can
-return again to their villages.
-
-[Footnote 4: The account of the origin of these giants, as given in
-the prose _Edda_, is very graphic, and may be not inaptly quoted
-here:--"When the rivers that are called Elivagar had flowed far from
-their sources," replied Har, "the venom which they rolled along;
-hardened, as does dross that runs from a furnace, and became ice.
-When the rivers flowed no longer, and the ice stood still, the vapour
-arising from the venom gathered over it and froze to rime; and in this
-manner were formed in Ginnungagap many layers of congealed vapour,
-piled one over the other."--"That part of Ginnungagap," added Jafnhar,
-"that lies towards the north, was thus filled with heavy masses of
-gelid vapour and ice, whilst everywhere within were whirlwinds and
-fleeting mists. But the southern part of Ginnungagap was lighted by
-the sparks and flakes that flew into it from Muspellheim.... When the
-heated blast met the gelid vapour, it melted into drops, and, by the
-might of him who sent the heat, these drops quickened into life, and
-took a human semblance. The being thus formed was named Ymir, from whom
-descend the race of the Frost-giants (Hrim-thursar), as it is said in
-the Völuspá, 'From Vidolph came all witches; from Vilmeith all wizards;
-from Svarthöfdi all poison-seekers; and all giants from Ymir.'"--See
-Mallet's _Northern Antiquities_, edit. Bohn, p. 402.]
-
-[Footnote 5: That beautiful expression of Æschylus occurs to me, so
-impossible adequately to clothe in English: ἁνηριθμον γελασμα κυματων.
-Who that has spent a calm summer day upon the sea, has not realized its
-force and delicate beauty?]
-
-The iceberg melts away, but not without leaving well-marked traces of
-its existence. If it disappear in mid-ocean, the mud and boulders, with
-which it was charged, are scattered athwart the sea-bottom. Blocks
-of stone may thus be carried across profound abysses, and deposited
-hundreds of miles from the parent hill; and it should be noticed, that
-this is the only way, so far as we know, in which such a thing could
-be effected. Great currents could sweep masses of rock down into deep
-gulfs, but could not sweep them up again, far less repeat this process
-for hundreds of miles. Such blocks could only be transported by being
-lifted up at the one place and set down at the other; and the only
-agent we know of, capable of carrying such a freight, is the iceberg.
-In this way, the bed of the sea in northern latitudes must be covered
-with a thick stratum of mud and sand, plentifully interspersed with
-boulders of all sizes, and its valleys must gradually be filled up as
-year by year the deposit goes on.
-
-But this is not all. The visible portion of an iceberg is only about
-one-ninth part of the real bulk of the whole mass, so that if one be
-seen 100 feet high, its lowest peak may perhaps be away down 800 feet
-below the waves. Now it is easy to see that such a moving island will
-often grate across the summit and along the sides of submarine hills;
-and when the lower part of the berg is roughened over with earth and
-stones, the surface of the rock over which it passes will be torn up
-and dispersed, or smoothed and striated, while the boulders imbedded in
-the ice will be striated in turn.
-
-But some icebergs have been seen rising 300 feet over the sea; and
-these, if their submarine portions sank to the maximum depth,
-must have reached the enormous total height of 2700 feet--that is,
-rather higher than the Cheviot Hills.[6] By such a mass, any rock or
-mountain-top existing 2400 feet below the surface of the ocean would be
-polished and grooved, and succeeding bergs depositing mud and boulders
-upon it, this smoothed surface might be covered up and suffer no change
-until the ocean-bed should be slowly upheaved to the light of day.
-In this way, submarine rock surfaces at all depths, from the coast
-line down to 2000 or 3000 feet, may be scratched and polished, and
-eventually entombed in mud.
-
-[Footnote 6: In the _American Journal of Science_ for 1843, p.
-155, mention is made of an iceberg aground on the Great Bank of
-Newfoundland. The average depth of the water was about 500 feet, and
-the visible portion of the berg from 50 to 70 feet high, so that its
-total height must have been little short of 600 feet, of which only a
-_tenth_ part remained above water.]
-
-[Illustration: Fig. 1. Iceberg grating along the sea-bottom and
-depositing mud and boulders.]
-
-And such has been the origin of the deep clay, which, with its included
-and accompanying boulders, covers so large a part of our country. When
-this arctic condition of things began, the land must have been slowly
-sinking beneath the sea; and so, as years rolled past, higher and yet
-higher zones of land were brought down to the sea-level, where floating
-ice, coming from the north-west, stranded upon the rocks, and scored
-them all over as it grated along. This period of submergence may have
-continued until even the highest peak of the Grampians disappeared,
-and, after suffering from the grinding action of ice-freighted rocks,
-eventually lay buried in mud far down beneath a wide expanse of sea,
-over which there voyaged whole argosies of bergs. When the process of
-elevation began, the action of waves and currents would tend greatly to
-modify the surface of the glacial deposit of mud and boulders, as the
-ocean-bed slowly rose to the level of the coast line. In some places
-the muddy envelope was removed, and the subjacent rock laid bare,
-all polished and grooved. In other localities, currents brought in a
-continual supply of sand, or washed off the boulder mud and sand, and
-then re-deposited them in irregular beds; hence resulted those local
-deposits of stratified sand and gravel so frequently to be seen resting
-over the boulder clay. At length, by degrees, the land emerged from the
-sea, yet glaciers still capped its hills and choked its valleys; but
-eventually a warmer and more genial climate arose, plants and animals,
-such as those at present amongst us, and some, such as the wolf, no
-longer extant, were ere long introduced; and eventually, as lord of the
-whole, man took his place upon the scene.[7]
-
-[Footnote 7: The reader who wishes to enter more fully into the
-geological effects of icebergs, should consult the suggestive section
-on that subject in De la Beche's _Geological Observer_; also the
-_Principles_ and _Visit to the United Stales_ of Sir Charles Lyell,
-with the various authorities referred to by these writers.]
-
-It is pleasant to mark, when once the true solution of a difficulty is
-obtained, how all the discordant elements fall one by one into order,
-and how every new fact elicited tends to corroborate the conclusion. In
-some parts of the glacial beds, there occur regular deposits of shells
-which must have lived and died in the places where we find them. From
-ten to fifteen per cent, of them belong to species which are extinct,
-that is to say, have not been detected living in any sea. Some of them
-are still inhabitants of the waters around our coasts, but the large
-majority occur in the northern seas. They are emphatically northern
-shells, and get smaller in size and fewer in number as they proceed
-southward, till they disappear altogether. In like manner, the palm,
-on the other hand, is characteristically a tropical plant. It attains
-its fullest development in intertropical countries, getting stunted
-in its progress towards either pole, and ceasing to grow in the open
-air beyond the thirty-eighth parallel of latitude in the southern
-hemisphere, and the forty-fifth in the northern. So, too, the ivy,
-which in our country hangs out its glossy festoons in every woodland,
-and around the crumbling walls of abbey, and castle, and tower, is
-nursed in the drawing-rooms of St. Petersburg as a delicate and
-favourite exotic. In short, the laws which regulate the habitat of a
-plant or an animal are about as constant as those which determine its
-form. There are, indeed, exceptions to both. We may sometimes find a
-stray vulture from the shores of the Mediterranean gorging itself on
-sheep or lambs among the wolds of England,[8] just as we often see
-
-            "A double cherry seeming parted,
-    But yet an union in partition;"
-
-or as we hear of a sheep with five legs, and a kid with two heads.
-But these exceptions, from their comparative rarity, only make the
-laws more evident. When, therefore, we find, in various parts of our
-country, beds of shells in such a state of preservation as to lead
-us to believe that the animals must have lived and died where their
-remains are now to be seen, we justly infer that the districts where
-they occur must at one period have been submerged. If the shells
-belong to fresh-water species, it is plain that they occur on the site
-of an old lake. If they are marine, we conclude that the localities
-where they are found no matter how high above the sea must formerly
-have stood greatly lower, so as to form the ocean bed. To proceed one
-step further. If the shells are of a southern type, that is, if they
-belong to species[9] which are known to exist only in wanner seas than
-our own, we pronounce that at a former period the latitudes of Great
-Britain must have enjoyed a more temperate and genial climate, so as
-to allow southern shells to have a wider range northwards. If, on the
-other hand, they are of an arctic or boreal type, we in the same way
-infer that our latitudes were once marked by a severer temperature than
-they now possess, so as to permit northern shells to range farther
-southwards. This reasoning is strictly correct, and the truth involved
-forms the basis of all inquiries into the former condition of the earth
-and its inhabitants.
-
-[Footnote 8: Two of these birds (_Neopron pecnopterus_) are stated to
-have been seen near Kilve, in Somersetshire, in October 1825. One was
-shot, the other escaped.]
-
-[Footnote 9: There is not a little difficulty in reasoning
-satisfactorily as to climatal conditions, from the distribution of
-kindred forms. Even in a single genus there may be a wide range of
-geographical distribution, so that mere generic identity is not always
-a safe guide. Thus, the elephant now flourishes in tropical countries,
-but in the glacial period a long-haired species was abundant in the
-frozen north. I have above restricted myself entirely to _species_
-whose habits and geographical distribution are already sufficiently
-known.]
-
-The evidence furnished by the northern shells in the boulder-clay
-series is, accordingly, of the most unmistakable kind. These organisms
-tell us that at the time they lived our country lay sunk beneath a sea,
-such as that of Iceland and the North Cape, over which many an iceberg
-must have journeyed, and thus they corroborate our conclusions, derived
-independently from the deep clay and boulder beds and the striated
-rock-surfaces, as to the glacial origin of the boulder-clay.
-
-
-
-
-CHAPTER III.
-
-
-  How the boulder came to be one "Crag and tail"--Scenery of
-       central Scotland: Edinburgh--"Crag and tail" formerly
-       associated in its origin with the boulder-clay--This
-       explanation erroneous--Denudation an old process--Its
-       results--Illustration from, the Mid-Lothian coal-field--The
-       three Ross-shire hills--The Hebrides relics of an
-       ancient land--Scenery of the western coast--Effects of
-       the breakers--Denudation of the Secondary strata of the
-       Hebrides--Preservative influence of trap-rocks--Lost
-       species of the Hebrides--Illustration--Origin of the
-       general denudation of the country--Illustrative action
-       of streams--Denudation a very slow process--Many old
-       land-surfaces may have been effaced--Varied aspect of the
-       British Islands during a period of submergence--Illustration.
-
-The scratched and grooved surface of the boulder was produced when
-it was fast frozen in some iceberg, and driven gratingly across some
-submarine summit, or stranded on some rocky coast-line. But, from its
-rounded form, the stone had evidently undergone a long process of wear
-and tear previous to its glacial journey. Probably it had hitherto lain
-along a surf-beaten beach, where in the course of ages it had gradually
-been worn into its present rounded shape. But how came it there? It
-must originally have formed part of a flat sandstone bed, with many
-other beds piled above it. By what agency, then, was this great pile
-reduced to fragments?
-
-The answer to these questions must be a somewhat lengthened one, for
-the subject relates not to a few beds of rock hastily broken up and
-dispersed, but to the physical changes of an entire country, carried on
-during a vast succession of geological periods.
-
-A phenomenon, known familiarly as "crag and tail," has long been
-connected in its origin with the drift or boulder beds. Has my reader
-ever travelled through central Scotland? If so, he must often have
-noticed the abrupt isolated form of many of the hills, presenting a
-mural front to the west, and a long sloping declivity to the east.
-From the great number of isolated hard trap-rocks in this region, the
-phenomenon is much better seen than in most other parts of the kingdom.
-There is, for instance, the castle rock of Stirling, with its beetling
-crag and castellated summit, which present so imposing a front to the
-west. Many other examples are seen along the line of the Edinburgh and
-Glasgow Railway. The range of hills south of Linlithgow, the singularly
-abrupt basalt of Binny Craig, the long rounded ridge of Ratho,
-the double-peaked crag of Dalmahoy, the broad undulation of woody
-Corstorphine, are all examples more or less marked. Edinburgh itself
-is an excellent illustration. The Calton Hill shows a steep front to
-the town, while its eastern side slopes away down to the sea. Arthur's
-Seat, in like manner, has a precipitous western face, and a gentle
-declivity eastward. The Castle rock, too, shoots up perpendicularly
-from the valley that girdles it on the north, west, and south, sinking
-away to the east in a long slope--
-
-    "Whose ridgy back heaves to the sky,
-    Piled deep and massy, close and high."
-
-East-Lothian presents several well-marked instances; in particular,
-North Berwick Law and Traprain. A phenomenon so general must have had
-some general origin, and it was accordingly attributed to the same
-agency which produced the drift-clays and the striated rock-surfaces,
-when these were believed to be the results of great diluvial action.
-It would seem, however, that the phenomenon of crag and tail should
-not be associated with the boulder-clay. The latter is undoubtedly a
-newer Tertiary formation,[10] but the denudation[11] which produced
-crag and tail must have been going on long ere the Tertiary ages had
-begun. There is satisfactory evidence that large areas of our country
-were planed down at a greatly more ancient period than that of even the
-oldest of the Tertiary series. Thus, the whole area of the county of
-Sussex suffered a very extensive denudation during the later Secondary
-ages. The Hebrides had undergone a similar process previous to the
-deposition of the Lias and Oolite, and the Greywacke hills of south
-Scotland, previous to the formation of the Old Red Sandstone. There
-seems thus to have been a general and continuous process of degradation
-at work during a long succession of geological ages.
-
-[Footnote 10: The reader is referred to the table of the geological
-formations at the end of the volume for the relative position of the
-beds described.]
-
-[Footnote 11: _Denudation_ is a geological term used to denote the
-removal of rock by the wasting action of water, whereby the underlying
-mineral masses are _denuded_ or laid bare.]
-
-The results of this long-continued action are of the most startling
-kind. I have referred to the phenomenon of crag and tail as perhaps the
-most readily observable. We must not fail to remember that the crag
-which now stands up so prominently above the level of the surrounding
-country, at one period lay buried beneath an accumulation of sandstone,
-shale, or other strata, all of which have been carried away, so as
-to leave the harder rock in bold relief, with a portion of the less
-coherent strata sloping as a long tail from its eastern side. The crag,
-too, is often breached in many places, worn down at one end, rounded
-on the summit, and sometimes well-nigh ground away altogether, whilst
-in front there is invariably a deep hollow scooped out by the current
-when arrested by the abrupt cliff. In Fig. 2, _a_ represents a crag of
-greenstone worn away and bared of the shales which once covered it;
-_b_, the sloping "tail" of softer strata, protected from abrasion by
-the resistance of the trap-rock, and covered by a deep layer of drift,
-_d_; _c_ marks the hollow on the west side of the crag.
-
-[Illustration: Fig. 2 "Crag and tail."]
-
-But when we come to measure the actual amount of material that has been
-carried away, we are lost in conjecture as to the vastness of the time
-which such a process must have occupied. For instance, the coal-bearing
-strata of Mid-Lothian must at one period have been connected with those
-of Linlithgow and Stirling. At a subsequent date, the western area
-subsided to form the Stirlingshire coal-basin, and the eastern area, in
-like manner, sank down to form the coal-basin of Mid-Lothian, while the
-intermediate portion stretched from east to west as a great arch, or,
-as it is termed geologically, an _anticlinal axis_. Now, the whole of
-this arch has been worn away, not a vestige of it remains, and yet its
-upper or coal-bearing part was fully 3000 feet thick.[12]
-
-[Footnote 12: This remarkable example of denudation was first described
-by Mr. M'Laren, in his _Sketch of the Geology of Fife and the
-Lothians_, a work in which the author showed himself to be in advance
-of the science of his time.]
-
-Let us take a small portion of this district, and endeavour to
-calculate the amount of matter thus removed. The Pentland hills
-form a chain stretching from near Edinburgh for some fourteen miles
-southward, and having an average breadth of about two miles and a
-half. They are formed chiefly of felspathic trap-rocks, resting upon
-and interstratified with conglomerate apparently of Old Red age, which
-in turn lies upon vertical Silurian slates. Before the Carboniferous
-strata were thrown down by successive _faults_, they must have covered
-these hills completely to a depth of not less than 6000 feet.[13]
-From this small area, therefore, stratified sandstones, shales,
-limestones, and coal, must have been removed to the enormous extent of
-one billion, eight hundred and fifty-four thousand, four hundred and
-sixty-four millions of cubic feet.
-
-[Footnote 13: The actual depth of the Mid-Lothian coal-field, to the
-base of the carboniferous limestone, is rather more than 3000 feet. It
-is, perhaps, rather under than over the truth to allow 3000 feet for
-the total thickness of beds from the limestone to the conglomerate of
-Liberton, though, owing to the curved and contorted position of the
-strata from Edinburgh to Stirlingshire, it is impossible to obtain a
-measurement of their real thickness. I have attributed the isolation
-of the Falkirk and Mid-Lothian coal-fields to the effect of faults
-and general depressions of their areas. This was assuredly the case
-in the latter coal-field, and probably in the former also. The trap
-which occurs between them, though in great abundance, has certainly
-not acted as an elevating agent. It occurs in beds among the strata,
-and, judging from the number of associated tufas, appears to have been
-to a considerable extent erupted while the lower carboniferous series
-was forming. Mr. M'Laren, in his excellent work, p. 100, states his
-opinion that the traps may have materially contributed to push up the
-coal strata. A careful and extended examination of the district has
-convinced me that this view is incorrect.]
-
-But, perhaps, the most striking instances of denudation in the British
-Islands are the three famous Ross-shire hills--Suil Veinn, Coul Mor,
-and Coul Bheig. They are formed of piles of sandstone beds like tiers
-of regular masonry, and reach a height of 3000 feet over the sea. The
-sandstone of which they are composed must once have formed a bed or
-set of beds fully 2000 feet thick, that covered the whole district for
-many miles around. Yet of this extensive deposit there now exist only
-a few isolated fragments. I have watched the sunshine and shadow of an
-autumn sky resting alternately on these strange pyramidal hills, as
-they towered in their giant proportions like the last remnants of a
-mighty rampart that had stood the brunt of a long siege, and, breached
-at last in many places, had been all but levelled to the ground. How
-long-continued and how potent must that agency have been which could
-cut down and disperse the massive barrier that flanked the western
-coast of Ross-shire to a height of 2000 feet!
-
-The Hebrides are but the shattered relics of an old land that had its
-mountain-peaks and its glens, its streams and lakes, and may have
-nursed in its solitude the red-deer and the eagle, but was never
-trodden by the foot of man. A glance at the map is enough to convince
-us of this. We there see islands, and peninsulas, and promontories,
-and deep bays, and long-retiring inlets, as though the country had
-been submerged and only its higher points remained above water. The
-conviction is impressed more strongly upon us by a visit to these
-shores. We sail through the windings of one of the "sounds," and can
-scarcely believe that we are on the bosom of the salt sea. Hills rise
-on all sides, and the water, smooth as a polished mirror, shows so
-pure and limpid that in the sunshine we can see the white pebbles that
-strew its bed many fathoms down. The eastern shore is often abruptly
-interrupted by long-receding lochs edged round with lofty mountains,
-and thus, where we had looked to see a deep heathy glen, with,
-perchance, a white tree-shaded mansion in the far distance, and a few
-dun smoking cottages in front, we are surprised to catch a glimpse of
-the white sails of a yacht, or the darker canvas of the herring-boats.
-We sail on, and soon a sudden turn brings us abruptly to the mouth of
-the sound. A bold headland, studded around with rocky islets, rises
-perpendicularly from the sea, bleak and bare, without a bush or tree,
-or the faintest trace of the proximity of man. The broad swell of the
-Atlantic comes rolling in among these rocks, and breaks in foam against
-the grey cliffs overhead. In tempests, such a scene must be of the most
-terrific kind. Wo to the hapless vessel that is sucked into the vortex
-of these breakers, whose roar is sometimes heard at the distance of
-miles! Even in the calmest weather the white surf comes surging in,
-and a low sullen boom is ever reverberating along the shore. We see
-the harder rocks protruding far into the sea, and often pierced with
-long twilight caves, while the softer ones are worn into deep clefts,
-or hollowed out into open bays strewed over with shingle. The sunken
-rocks and islets, scarcely showing their tops above water, were all
-evidently at one time connected, for, as we recede from the shore, we
-can mark how the process of demolition goes on. There is first the
-projecting ness or promontory, well-nigh severed from the mainland, but
-still connected by a rude arch, through which the swell ever gurgles
-to and fro. Then, a little farther from the shore, a huge isolated
-crag, washed on all sides by the surge, raises its grey lichen-clothed
-summit. A short way beyond, there is the well-worn islet whose surface
-shelters neither lichen nor sea-weed, but is ever wet with the dash of
-the waves. Further to the sea, the white gleam of the breakers marks
-the site of the sunken rock. Thus, in the space of a hundred yards, we
-may sometimes behold the progress of change from land to sea, and see
-before us a specimen of that action which slowly but yet steadily has
-narrowed and breached the outline of our western shores.[14]
-
-[Footnote 14: I have endeavoured to illustrate the process of
-denudation by a reference to breaker-action on the existing coast-line
-of the Hebrides; but a strong current must have materially increased
-the force of the ancient waves, and produced abrasion to some depth
-below them.]
-
-If we attempt to trace the connexions of strata among the Hebrides,
-we shall be more fully impressed with the magnitude of the changes
-which have been effected. Thus the Lias and Oolite occur in patches
-along the shores of Mull, Morven, Ardnamurchan, Eigg, Skye, Raasay,
-and Applecross. But though now only in patches, these formations must
-once have extended over a considerable area, for they seem to form the
-under-rock of the whole of the northern part of Skye, and are seen in
-almost every lone island from Ardnamurchan Point to the Shiant Isles.
-These scattered portions, often many miles distant from each other,
-are the remnants of a great sheet of liassic and oolitic strata, now
-almost entirely swept away, and are extant from having been covered
-over with hard trap-rocks. But for these it may be doubted whether we
-should ever have known that corals once gleamed white along the shores
-of Skye, that the many-chambered ammonite swam over the site of the
-Coolin Hills, that the huge reptilian monsters of these ancient times,
-icthyosaurs and plesiosaurs, careered through the waters that laved
-the grey hills of Sleat, and that forests of zamia and cycas, and many
-other plants indicative of a warm climate, bloomed green and luxuriant
-along the site of that strange mist-clad cliff-line, that shoots up
-into the pinnacles of the Storr and Quiraing. It is curious to reflect,
-that the records of these peaceful scenes have been preserved to us by
-the devastating eruptions of volcanic forces; that the old lava-streams
-which spread death through the waters along whose bed they travelled,
-have yet been the means of protecting the districts which they wasted,
-while those parts where they did not reach have been long since swept
-away. It is allowable to believe, that in the portions of liassic
-strata which have been destroyed there existed the remains of not a
-few species, perhaps some genera, to be found nowhere else, and of
-whose former existence there is now, by consequence, no trace. In the
-small island of Pabba--a relic of the Scottish Lias--I found thirty-one
-species, of which Dr. Wright has pronounced four to be new.[15] A
-subsequent visit to the adjacent island of Raasay has increased the
-list. In short, every patch of these Secondary rocks, if thoroughly
-explored, might be found to yield its peculiar organisms. And in the
-far larger area that has been carried away there existed, doubtless,
-many more. We are accustomed to see individuals perish and their
-remains crumble away, but the species still holds on. In the stratified
-portion of the earth's crust, however, we mark how not merely
-individuals have perished, but whole genera and species; but of these
-the remains are still before us in the rocks; we can study their forms,
-and, from a comparison with recent species and genera, can arrive at
-some idea of their nature and functions. In this way, we are able to
-picture the various conditions of the earth when these organisms lived
-in succession upon its surface. Yet, we may readily conjecture, that
-in ancient eras many tribes and genera of plants and animals lived
-for ages, and then passed away without leaving any record of their
-existence. Many circumstances might concur to prevent the preservation
-of their remains. The species of the Hebrides were preserved in the
-usual manner, but the cemetery in which their remains were entombed has
-been washed away, and they can be seen nowhere else. It is as if on
-some isolated country there had lived a race of men, tall Patagonians,
-or swarthy Hottentots, or diminutive Laplanders, with a civilisation of
-their own; owing to some change of climate the race gradually dwindled
-down until it died out; eventually, too, the land settled down beneath
-the sea with all its ruined cities and villages, which, as they reached
-in succession the level of the waves, were torn up and dispersed, and
-other races at last voyaged over the site of that old land, dreaming
-not, that in bygone years fellow-mortals of an extinct type had
-pastured their herds where now there rolled a widespread sea.
-
-[Footnote 15: _Quart. Jour. Geol. Soc._, vol. xiv. p. 26.]
-
-But to return. We have seen that the long-continued action of the sea
-has been sufficient to breach and waste away the existing coast-line
-of western Scotland. When, therefore, such results are produced by so
-ordinary a cause, need we go to seek the agency of great debacles to
-explain the denudation of other parts of the country? It is known that
-at great depths currents have little effect upon the rocks which they
-traverse, and that their action is greater as it nears the surface. To
-account for the phenomena of crag and tail, and the general denudation
-of the country, we may suppose the land to have been often submerged
-and re-elevated. As hill after hill rose towards or sank below the
-sea-level, it would be assailed by a strong current that flowed
-from the west and north-west, until, in its slow upward or downward
-progress, it got beyond the reach of the denuding agencies. In this way
-the general contour of the land would be greatly though very gradually
-changed. Hills of sandstone, or other material of feeble resistance,
-would be swept away, the harder trap-rocks would stand up bared of the
-strata which once covered them, deep hollows would be excavated in
-front of all the more prominent eminences, and long declivities would
-be left behind them.--(See Fig. 2.)
-
-If my reader has ever visited the channel of a mountain-torrent--
-
-                "Imbres
-    Quern super notas aluere ripas"--
-
-he must have noticed an exact counterpart to these appearances. When
-the waters have subsided, the overflowed parts are seen to be covered
-in many places with sand. Wherever a pebble occurs along the surface
-of this sand, it has invariably a hollow before it on the side facing
-the direction whence the stream is flowing, and a long tail of sand
-pointing down the channel. If we watch the motion of the water along
-its bed, the denuding agency may be seen actively at work. Every pebble
-that protrudes above the shallow streamlet arrests the course of the
-current, which is then diverted in three directions. One part turns
-off to the right hand of the pebble, and cuts away the sand from its
-flank; another part strikes off to the left, and removes the sand from
-that side; while a middle part descends in front of the pebble, and,
-by a kind of circular or gyratory movement, scoops out a hollow in the
-sand in front. Behind the pebble the water is pretty still, so that the
-sand remains undisturbed, and is further increased by the accumulation
-above it of sediment swept round by the lateral currents. Now, in place
-of the supposed stream, let us substitute the ocean with its westerly
-current--for the pebble, a great trap-hill--for the sand, easily
-friable shales and sandstones, and we have exactly the condition of
-things which produced crag and tail.
-
-This process of destruction must have been in progress during many
-geological ages. We may suppose, that in that time the land often
-changed level, sometimes rising far above the sea, and sometimes
-sinking deep below it. We can well believe that the surface would
-often be covered with vegetation; that plants, widely differing from
-those which are now indigenous, clothed its hill-sides and shaded
-its valleys; and that animals of long extinct forms roamed over its
-plains or prowled amid its forests. When the country, in the lapse of
-centuries, sank beneath the sea-level, all trace of these scenes would
-eventually be effaced. The westerly currents would soon recommence the
-process of degradation, uprooting the forests, devastating the plains,
-wearing down the hills, and scooping out the valleys; and so, when the
-ocean-bed, in the course of ages, became again dry land, it would arise
-"another and yet the same." The little valley, where once, perchance,
-the mastodon used to rest his massive bulk amid a rich growth of ferns,
-shaded by the thick umbrage of coniferous trees, would emerge a deep
-glen with bare and barren rocks on either side; the site of the hill
-whereon herds of the gazelle-like anoplothere were wont to browse,
-might reappear a level plain; the low-browed rock, under whose shadow
-the ungraceful palæothere used of old to rest from the heat of the
-noon-tide sun, might emerge a beetling crag shooting up several hundred
-feet over the valley. It is by this repeated elevation and submergence,
-carried on for many ages, that our country has acquired its present
-configuration.
-
-We can easily picture to ourselves the appearance which the British
-Islands would thus at different periods present. At one time, nearly
-the whole of England would be under water, with, however, a few islands
-representing the higher peaks of Cornwall; others scattered over the
-site of the West Riding of Yorkshire; and a hilly tract of land over
-what is now Wales. Scotland must have existed in a sorely mutilated
-state. A thick-set archipelago would represent the Cheviot Hills, and
-the country south of the Forth and the Clyde; north of which there
-would intervene a broad strait, with a comparatively large area of
-undulating land beyond, stretching across what is now the area of
-the Grampian Hills. A narrow fiord would run along the site of the
-Caledonian Canal, cutting the country into two parts, and running
-far into it on either side as deep lochs and bays. I have had such a
-condition of things vividly recalled when on the summit of a lofty hill
-in early morning, while the mists were still floating over the lower
-grounds, and only the higher hill-tops, like so many islands, rose
-above the sea of cloud. It was not a little interesting to cast the eye
-athwart this changing scene, and mark how each well-known peak and
-eminence looked when deprived of its broad sweep of base. What before
-had always seemed an abrupt precipitous summit, now took the form of a
-lonely rock or deep-sea stack, that might have served as a haunt for
-the gull and the gannet. The long swelling hill rose above the mist as
-a low undulating island, treeless and barren. It was easy to think of
-that wide expanse of mist as the veritable domain of ocean, to picture
-the time when these were veritable islands lashed by the surge, and
-to conjure up visions of ice-floes drifting through the narrows, or
-stranding on the rocks, amid a scene of wide-spread nakedness and
-desolation.
-
-
-
-
-CHAPTER IV.
-
-
-  Interior of the boulder Wide intervals of
-       Geology--Illustration--Long interval between the
-       formation of the boulder as part of a sand-bed,
-       and its striation by glacial action--Sketch of the
-       intervening ages--The boulder a Lower Carboniferous
-       rock--Cycles of the astronomer and the geologist
-       contrasted--Illustration--Plants shown by the boulder once
-       grew green on land--Traces of that ancient land--Its seas,
-       shores, forests, and lakes, all productive of material
-       aids to our comfort and power--Plants of the Carboniferous
-       era--Ferns--Tree-ferns--Calamites--Asterophyllites--
-       Lepidodendron--Lepidostrobus--Stigmaria--Scene in a ruined
-       palace--Sigillaria--Coniferæ, Cycadeæ--Antholites, the oldest
-       known flower--Grade of the Carboniferous flora--Its resemblance
-       to that of New Zealand.
-
-I have likened the boulder to an old volume of the middle ages encased
-in a modern binding. We have looked a little into the mechanism and
-history of the boards; in other words, we have gone over the history of
-the scratched surface of the boulder, of the clays and sands around it,
-and of that still earlier cycle of denudation whereof the rock itself
-is probably a relic. Before proceeding to open the volume itself, it
-will be well that we clearly mark the wide interval in time between
-the ages represented by the surface-striation and those indicated by
-the interior of the boulder. When we proceed from the groovings on the
-outside to the plants within, we pass, to be sure, over scarcely an
-inch of space, but we make a leap over untold millenniums in point of
-time. It is as if we had laid our hands on a volume of history which
-had by some misfortune found its way into the nursery. The first page
-that catches our eye relates the battle of the Reform Bill, and, on
-turning the previous leaf, we find ourselves with Boadicea and her
-woad-coloured soldiery. Now, if one utterly ignorant of the chronology
-of the country were to be told that the volume related solely to one
-people, he would at once see from the manners and customs delineated,
-that the two pages referred to very different states of civilisation,
-and consequently to widely-separated periods. But he could give no
-account of how long an interval might have elapsed between the time
-when London had its inhabitants massacred by Boadicea, and the time
-when another generation of them was excited by the tardiness of King
-William iv. He could form no conjecture as to what events might have
-happened in the meanwhile. The interval might be a century or twenty
-centuries, wherein the city might have been burnt down fifty times.
-Clearly, if he wished to make himself acquainted with the intervening
-history, he would have to betake himself to an unmutilated volume.
-
-And just so is it with our boulder. We can easily believe, merely from
-looking at it as it lies on its clayey bed, that a long time must have
-elapsed between the time of its formation as part of a sandstone bed,
-and the period of its transportation and striation by an iceberg. The
-sand of which it is formed must have been washed down by currents, and
-other sediment would settle down over it. It would take some time to
-acquire its present hardness and solidity, while, in long subsequent
-times, after being broken up and well-rounded by breaker or current
-action, it may have lain on some old coast-line for centuries before it
-was finally frozen into an ice-floe, and so freighted to a distance.
-But the stone, with all its stories of the olden time, can tell us
-nothing of this intervening period. It leads us from a dreary frozen
-sea at once into a land of tropical luxuriance, and so, if we desire to
-know anything of the missing portion of the chronology, we must seek it
-elsewhere.
-
-The Boulder-clay is one of the latest of geologic periods.[16] Beyond
-it we get into Tertiary times, and learn from the caves of Yorkshire
-how elephants, hyenas, rhinoceroses, hippopotami, bears, and wolves,
-prowled over the rich valleys; while, from the quarries of the Isle of
-Wight, we see how at an earlier time herds of uncouth palæotheres and
-slimly-built anoplotheres browsed the plains of Old England. Beyond
-the Tertiary ages come those of the Chalk, with its ocean that swarmed
-with sea-urchins, terebratulæ, pectens, sponges, and many other forms.
-Then arises the era of the Wealden, with its bosky land haunted by the
-unwieldy iguanodon; the Oolite, with its land rich in a coniferous
-flora, and tenanted by a race of small marsupial animals, and its seas
-abounding in corals, encrinites of many a form, cidares, cuttle-fishes,
-and ammonites. Further back still, come the times of the Lias, that
-strange era in the history of our country, when reptiles huger than
-those of the Nile swam the seas, and sped on wings through the air.
-Then come the times of the Trias, when a vegetation still further
-removed from existing types clothed the land, and frogs large as oxen
-waddled along the shores. Then the times of the Permian, with its deep
-sea tenanted by a meagre list of corals and shells, and by a type of
-fishes that was slowly passing away. We arrive at last at the Coal or
-Carboniferous period, to the older ages of which our boulder belongs.
-
-[Footnote 16: For the names and succession of the rocks of which the
-known part of the earth's crust is composed, see the Table at the end
-of the volume.]
-
-These eras may have been some longer, some shorter, but each had a
-duration which, when tried by human standards, must be regarded as
-immensely protracted. The cycles of astronomy are very vast, yet
-I have often thought that the cycles of geology, though probably
-of much less duration, impress us more forcibly with the antiquity
-of our planet. The astronomer tells us of light that has taken two
-millions of years to reach our earth, and of nebulæ that are millions
-upon millions of miles distant, but these numbers are so vast that
-we cannot bring ourselves to realize them. We _know_ that there is a
-great difference between two millions and ten millions, but we cannot
-fully _appreciate_ it, and so the periods of the astronomer, beyond a
-certain point, cease adequately to impress us. So long as they can be
-easily contrasted with our own standards of comparison, they have their
-full force; but after that, every additional million, or ten millions,
-or ten hundred millions, produces only a confused and bewildered sense
-of immensity, and the comparative amount of each addition fails to be
-realized. Will my reader forgive a homely illustration:--Some years
-ago, I stood at the pier-head of one of our smaller sea-port towns, and
-watched the sun as it sullenly sank behind the outline of the opposite
-hills. The breadth of the channel, in the direction of sunset, was
-several miles, but in the flush of evening one fancied he could almost
-have thrown a stone across. The water lay unruffled by a ripple, and
-reflected all the thousand varying tints that lighted up the sky. The
-harbour, that had been a busy scene all evening, began to grow less
-noisy, as one by one the herring-boats pushed out to sea. I found it
-not a little interesting to mark, as the boats gained the open firth,
-how the opposite coast-line gradually seemed to recede. The farther the
-dark sails withdrew, the more remote did the adjacent shores appear,
-until, as the last tinge of glory faded from the clouds, and a cold
-grey tint settled down over the landscape, the hills lay deep in shade
-and stretched away in the twilight as a dark and distant land from
-whose valleys there rose troops of stars. The coast-line, as seen in
-early evening, reminded me of the periods of the astronomer; as seen in
-early night, it reminded me of the periods of the geologist. We fail to
-appreciate the real duration of astronomical cycles, because they are
-presented to us each as one vast period. They are not subdivided into
-intervals, and contain no succession of events, by means of which, as
-by milestones, we might estimate their extent; and so their unvaried
-continuity tends to diminish the impression of their vastness, just
-as the firth, without any islet or vessel on its surface, seemed
-greatly narrower than it really was. For it is with time as it is with
-space--the eye cannot abstractly estimate distance, nor can the mind
-estimate duration. In either case, the process must be conducted by a
-comparison with known standards. The geological periods exemplify the
-same rule. They may not be greater, perhaps not so great, as those
-revealed by astronomy, yet their vastness impresses us more, because we
-can trace out their history, and see how step by step they progressed.
-Thus, that the interval between the boulder-clay and the coal-measurer
-was immense, we learn from the records of many successive ages that
-intervened, in the same way that one began to perceive the real breadth
-of the firth, by resting his eye on the succession of intervening
-herring-boats. In the former case, the mind has ever and anon a sure
-footing on which to pause in gauging bygone eternity; in the latter,
-the eye had likewise a succession of points on which to rest in
-measuring distance. Or, to return to a former illustration: Boadicea
-lived eighteen hundred years ago, but who does not feel that the last
-nine hundred years look a great deal longer than the first? The one
-set has few marked incidents to fix the thoughts; the other is replete
-with those of the most momentous kind. In the one, we have M meagre
-list of conquerors and kings, from Julius Cæsar down to Athelstan; in
-the other, events crowd upon us from the waning of the Saxon power down
-through the rising glory of our country to the present plenitude of
-its power and greatness. The early centuries, like the cycles of the
-astronomer, pass through our mind rather as one continuous period; the
-later centuries, like the cycles of the geologist, arrest our thoughts
-by a succession of minor periods, and hence the idea of duration is
-more vividly suggested by the diversified events of the one series,
-than by the comparatively unbroken continuity of the other.
-
-Let us now open the volume and try to decipher the strange legends
-which it contains. On removing some of the upper layers of the boulder,
-I found, as I have said, well-preserved remains of several kinds of
-plants. One of them was ribbed longitudinally, with transverse notches
-every three or four inches, us though a number of slender threads
-had been stretched along a rod, and tied tightly to it at regular
-intervals. Another, sorely mutilated, was pitted all over somewhat
-after the fashion in which the confectioner punctures his biscuits. A
-third had a more regular pattern, being prettily fretted with small
-lozenge-shaped prominences that wound spirally round the stalk. Other
-plants seemed to be present, but in a very bad state of preservation.
-They were all jumbled together and converted into a black coaly
-substance, in which no structure could be discerned.
-
-These plants assuredly once grew green upon the land; but where now is
-that land on which they flourished? Had it hills and valleys, rivers
-and lakes, such as diversify our country? Was it tenanted by sentient
-beings, and, if so, what were their forms? Did insects hum their way
-through the air, and cattle browse on the plains, and fish gambol in
-the rivers? Was the land shaded with forests, dark and rugged like
-those of Norway, or fragrant as the orange-groves of Spain? What, in
-fine, were its peculiar features, and how far did its scenery resemble
-that of any country of the present day?
-
-That old land has not entirely disappeared. Traces of it are found
-pretty extensively in South Wales, in Staffordshire, around Newcastle,
-and through central Scotland. Strange as it may seem, its forests
-are still standing in many places. The fishes that disported in its
-lakes, the insects that fluttered amid its woods, and the lizards that
-crawled among its herbage, are still in part preserved to us. Nay,
-more; we may sometimes see the sea-beaches of that ancient land pitted
-with rain-drops, and roughened with ripple-marks, as freshly as if the
-shower had fallen and the tide had flowed only yesterday. The peasants
-along the Bay of Naples gathered grapes from the flanks of Vesuvius
-for well-nigh seventeen centuries, before it was ascertained that they
-daily walked over the site of buried cities, with temples, theatres,
-and private houses still erect. It was many more centuries ere the
-people of Great Britain discovered that not a few of their villages and
-towns stood on the site of buried forests, and lakes, and seas. We have
-now, however, become aware of the fact, and are making good use of it.
-We dig into the earth and exhume these old forests to supply us with
-light and fuel; we quarry into the ripple-marked shores which fringed
-that old land, and build our houses with the hardened sand; we calcine
-the ferruginous mud that gathered in its swampy hollows, and extract
-therefrom our most faithful ally both in peace and war--metallic iron;
-we burn the delicate corals and shells and lily-like zoophytes which
-lived in the sea of that far-distant era, to enable us to smelt our
-iron, to build our houses, and manure our fields; in short, every year
-we are discovering some new and valuable material in the productions
-of that period, or finding out some new use which can be made of the
-substances already known. A more than ordinary interest, therefore,
-attaches to the history of the land and sea which have furnished us
-with so many aids to comfort as well as power; and we shall find, as we
-go on, that that history is a very curious one.
-
-I shall describe some of the more common plants and animals of the
-period, that we may be able, in some measure, to look back through the
-ages of the past, and see how these plants would appear when they cast
-their broad shadow over river and lake, and how these animals would
-have seemed to human eye in the twilight of the forest, in the sluggish
-flow of the river, and in the stagnant waters of the lagoon.
-
-The _Flora_, or vegetation of the Carboniferous era, differed
-widely from any that now exists. With the exception of the highest
-or exogenous class, it possessed representatives of all the existing
-classes of the botanic scale, but in very strange proportions. The
-number of species of carboniferous plants already found in Great
-Britain amounts to about three hundred, amongst which the ferns are
-especially abundant. Some of them seem to have been low-growing
-plants, like the bracken of our hillsides, but others must have shot
-up to the height of forest trees. We can recognise a few coniferous
-and cycadaceous plants, a good many stems resembling the "horse-tail"
-of our marshy grounds, and some of large size akin to the creeping
-club-moss of our heaths; but there are still many to which there exist
-no living analogues.
-
-When we examine the roof of a coal-pit, or split open plates of shale
-in a quarry of the coal-measures, we are struck with the similarity
-which the ferns in the stone bear to those among our woods and hills.
-One of the most common, and, at the same time, most elegant forms,
-is the _Sphenopteris_ or wedge-leaved fern, of which a large list
-of species is known. One of them (_S. crenata_) had a strong stem,
-from which there sprung straight tapering branches richly dight with
-leaflets. The leaflets--somewhat like minute oak-leaves--were ranged
-like those of our modern ferns, along two sides of the stalk, in
-alternate order, and tapered gently away to its outer extremity. The
-effect of the whole is singularly rich, and one can well believe that a
-garland of this ancient fern would have wreathed as gracefully around a
-victor's brow as the parsley of Nemea or the laurel-leaves of Delphi.
-
-Another plant of the same genus (_S. affinis_, Fig. 3) has leaflets
-like the petals of the meadow-daisy, arranged in clusters along its
-slim diverging stalks. From a collection and comparison of many
-specimens, the late lamented Hugh Miller was enabled to make a drawing
-of this fern as it must have appeared when it waved green along the
-old carboniferous hill-sides. I enjoyed the privilege of going over
-these specimens with him, and marked how, under a master-hand, piece
-by piece fell into its proper place, and yielded up its evidence. His
-restoration, which forms the frontispiece to his last work, is a very
-beautiful one, and it is as true as it is beautiful.
-
-[Illustration: Fig. 3. Sphenopteris affinis.]
-
-[Illustration: Fig. 4. Pecopteris.]
-
-[Illustration: Fig. 5. Cyclopteris.]
-
-[Illustration: Fig. 6. Neuropteris.]
-
-The _Pecopteris_ (Fig. 4, _P. heterophylla_) or comb-fern, is so called
-from its stiff thick leaflets being in some species arranged along the
-stalk like the teeth along the centre of a comb. Of all the plants
-of the coal-measures this is the one that approaches most closely to
-living nature. It appears to be almost identical with the _pteris_,
-of which one species is well known as the bracken of our hill-sides.
-Dr. Hooker figures together a frond of a New Zealand species (_P.
-esculenta_) and a fossil frond from the Newcastle pits. They are
-so similar as to be easily mistaken at first sight for drawings of
-the same plant.[17] The _Neuropteris_ (as _N. gigantea_, Fig. 6) or
-nerve-leaved fern, is remarkable for its strongly-defined venation. It
-is scarcely, perhaps, so elegant in its outline as the _sphenopteris_,
-or some of the other ferns. Its leaflets are large and thick, with an
-oblong or rounded form, and arranged either singly along the frond
-stem, or along secondary foot-stalks, which diverge from the main stem.
-Of the latter kind, some of the species have a good deal of resemblance
-to our _Osmunda regalis_ or royal fern. A species of the former class
-(_N. cordata_) might readily enough be mistaken for the young leaves
-of the _Scolopendrium_ or hart's-tongue, which hangs out its glossy
-green amid the gloom of dank and dripping rocks. There are, besides,
-several other genera of ferns in the Carboniferous strata, such as the
-_Cyclopteris_ (_C. dilatata_, Fig. 5) or round-leaved fern, and the
-_Odontopteris_ or tooth-fern. Most of these seem to have been lowly
-plants, like the ferns of our own country. But there was another class
-to which no analogue can be shown in Europe. They rose high over their
-humbler congeners as lofty trees, and must be studied by a reference to
-the existing tree-ferns of intertropical countries.
-
-[Footnote 17: Hooker, _Mem. Geol. Surv._ vol. ii. part ii. p. 400.]
-
-[Illustration: Fig. 7. Living Tree-fern.]
-
-Tree-ferns flourish in warm climates, and are met with in Brazil, the
-East and West Indies, New Zealand, &c. They rise sometimes to the
-height of fifty or sixty feet, with a long tapering stem surmounted
-by a dense crown of graceful fronds, and might easily be mistaken at
-a little distance for palms. All the known species belong to the same
-division (_Polypodiaceæ_) with the common polypodium of our road-sides.
-In some genera, as the _alsophila_ of the East Indies, the trunk is
-ribbed by long creeping branches, or rather rootlets, which descend to
-the soil, giving the tree somewhat of the appearance so often seen in
-old woods, where venerable fir-trees have been firmly encased by the
-bearded stems of the ivy. Another genus, the _Cyathea_, has its stem
-covered with oblong scars where leaves were attached, and a circle of
-rich outspread fronds surmounts its summit. One of the coal-measure
-tree-ferns seems to have resembled this recent type. It is named
-the _Caulopteris_ or stalk-fern, and had a thick stem picturesquely
-roughened by irregular oblong leaf-scars, that wound spirally from its
-base to its point. No specimen has hitherto been found showing the
-fronds in connexion with the stem, so that we are still ignorant of
-the kind of foliage exhibited by this ancient tree. There can be no
-doubt, however, that it was crowned with a large tuft of boughs that
-cast their shadow over the sward below, and we may, perhaps, believe
-that some of the numerous detached ferns found in the shales of the
-coal-series, once formed part of this lofty coronal.
-
-An important section of the carboniferous plants is embraced under
-the generic name of _Calamites_. They had smooth jointed stems, like
-reeds, and terminated beneath in an obtuse curved point (Fig. 8),
-from which there sprang broad leaflets or rather rootlets. After many
-years of research our knowledge of these plants is still very scanty.
-Some of them have exhibited a highly-organized internal structure,
-from which it appears that they consisted--first, of a soft central
-cellular pith; second, of a thick layer of woody tissue; and third, an
-external cylinder of strong bark, ribbed longitudinally, and furrowed
-transversely. They have been ranked with the common horse-tail of our
-ponds, but they would rather appear to belong to a higher family. The
-breadth of the stem is very various, some specimens being a foot or
-more in diameter, others scarcely half an inch. From the discoveries of
-Professor Williamson and Mr. Binny of Manchester, it seems not unlikely
-that what we call calamites may be really the inner core of a plant not
-yet named, just as a set of fossils were long called _sternbergiæ_,
-before they were discovered to be really the pith of coniferous trees.
-With regard to the branches of the calamites, Brongniart's conjecture
-may be true, that they exist among the group of plants called
-_asterophyllites_. It is not unlikely that many dissimilar plants have
-been grouped together as calamites, and, on the other hand, that plants
-allied to the typical species have been thrown into separate genera.
-For it requires but a slight acquaintance with the vegetable kingdom to
-know how many forms analogous parts of the same plant may assume, and
-how impossible it would often be to guess the real relationship of such
-varieties if they were not found growing together on one plant.
-
-[Illustration: Fig. 8. Terminal portion of a calamite stem.]
-
-[Illustration: Fig. 9.[18]]
-
-[Footnote 18: The fossil given in Fig. 9 is named by Lindley (_Foss.
-Flo._ t. 15, 16), _Calamites nodosus_. He admits, however, that it was
-not found in actual contact with a calamite stem. It has exactly the
-contour of an asterophyllite, and might, perhaps, be referred to that
-genus. It is inserted here that the reader may see the general form of
-the asterophyllites, and the close relationship that subsists between
-these plants and the calamites.]
-
-A remarkably graceful class of the coal-plants are known as
-_asterophyllites_. They had slim fluted and jointed stalks, apparently
-of humble growth. From each of the joints there sprang two thin
-opposite branches with stellate clusters of leaflets arranged round
-them at equal distances. If the reader will take a young rush-stalk,
-and string along it a number of the flowers of the little star-wort,
-keeping them a little distance apart, he may form some idea of the
-appearance of a single branch of the star-bearing _asterophyllite_.
-Some of the plants embraced under this genus are conjectured to have
-been aquatic, spreading out their clusters of leaflets in the green
-sluggish water of stagnant pools; but many of them are evidently
-related to the calamites, and may possibly have formed part of these
-plants.
-
-Whoever has rambled much in a coal-country, scrambling through briars
-and brambles in old quarries, or threading his way among the rocks
-of river-courses, must often have noticed, on the exposed surface of
-sandstone blocks, dark ribbon-like bands fretted over with little
-diamond-shaped knobs. They are so common in some districts, that you
-can scarcely light upon a piece of sandstone which does not show one
-or more. They belong to a carboniferous plant known as _lepidodendron_
-(Fig. 10) or scaly tree, from the peculiar style of ornamentation which
-adorned its bark. Its structure and affinities have puzzled botanists
-not a little. A well-preserved specimen reminds one of the appearance
-presented by a twig of the Scotch fir, when stripped of its green
-spiky leaflets. The scars thus left at the base of the leaflets are
-of a wedge-like form, and run spirally up the branch in a manner very
-like those on the branches of lepidodendron; and it was accordingly
-supposed at one time that the latter plant belonged, or at least was
-allied, to the conifers. But the branches of lepidodendron possessed a
-peculiarity that is shared in by none of our present coniferous trees.
-They were what botanists call _dichotomous_,--that is, they subdivided
-into two equal branches, these again into other two, and so on. Their
-internal texture,[19] too, differed from that of any known conifer.
-The only tribe of existing plants with which the lepidodendron seems
-to bear comparison, are the _Lycopodiaceæ_, or club-mosses, of which
-we have several species in the moor-lands of our own country. They
-are low trailing plants, with moss-like scaly branches, bearing at
-their ends shaggy little tufts, whence the popular name of the genus.
-In warmer climates, they are both more numerous and attain a larger
-size, sometimes standing erect to about the height of an ordinary
-gooseberry-bush. But though the lepidodendron appears to have been
-allied to these plants in structure, it greatly differed from them in
-dimensions. The club-mosses of the coal-measures shot up as goodly
-trees, measuring fifty feet and upwards in height, and sometimes
-nearly five in diameter. Their general effect must have been eminently
-picturesque. A shaggy covering of green spiky leaflets bristled over
-their multitudinous pendant boughs; and where on the older stems these
-leaflets had decayed and dropped off, the outer bark was laid bare,
-fretted over with rows of diamond-shaped or oval scars, separated
-by waving lines of ridge or furrow, that wound spirally round the
-stem. From not a few of the branches there sprang oblong hirsute
-cones called _lepidostrobi_ (Fig. 11), which bore the sporangia, or
-seed-cases. These cones are of frequent occurrence in the shales of
-the coal-measures, and may be readily recognised. They had a central
-axis round which the oblong sporangia were built, the whole being
-protected externally by a thick covering of pointed scales, imbricated
-like the cone of the Scotch fir. The leaflets of lepidodendron, called
-_lepidophylla_, were broader than those of the Scotch fir, and had a
-stout mid-rib, which must have given them a rigidity like that of the
-araucarian pine a plant they may also have resembled in the dark glossy
-green of its leaves.
-
-[Footnote 19: See Hooker, _Mem. Geol. Surv._ vol. ii. part ii. p. 436.]
-
-[Illustration: Fig 10. Lepidodendron Sternbergii.]
-
-[Illustration: Fig. 11. Lepidostrobus.]
-
-Of all the common coal-measure plants, there is perhaps none so
-abundant as that known by the name of _stigmaria_, or punctured-stem.
-It is found spreading out its rootlets for several yards in beds of
-shale and under-clay, and sometimes even limestone,[20] while, in
-many sandstones, fragments of its blackened stems lie as thickly
-strewn as twigs among the woods in autumn. I have said that several
-of the plants above described have greatly puzzled botanists. None
-of them, perhaps, has given rise to so much conjecture and variety
-of opinion as the stigmaria. The history of the discussion regarding
-its nature and affinities, would be not a little interesting as an
-illustration of the slow hindered progress often attendant on the
-researches of science, and an instance of how a few simple facts are
-sometimes enough to overturn the most plausible theories and probable
-conjectures. Many thousands of specimens had been examined ere one was
-found that revealed the true nature of the stigmaria. It was by some
-imagined to be a soft succulent marshy plant, consisting of a number
-of long branches radiating from a sort of soft disk, like spokes from
-the centre of a wheel. Analogies were suggested with dicotyledonous
-tribes, as the _cacti_ and _euphorbiæ_, though it was at the same time
-admitted that the ancient plant presented appearances which seemed very
-anomalous.
-
-[Footnote 20: The fresh-water limestone of Mid-Calder abounds in
-long trailing stems and rootlets of stigmaria, mingled with other
-terrestrial plants, and shells of _cyprides_.]
-
-[Illustration: Fig. 12 Stigmaria rootlets springing from Sigillaria
-stem.]
-
-In the course of an extensive survey of the coal-field of South
-Wales, Mr. (now Sir William) Logan ascertained the important fact,
-that each coal-seam is underlaid by a bed of clay, in which the stems
-of stigmaria, branching freely in all directions, may be traced to
-the distance of many feet or even yards. They were recognised as
-undoubtedly occupying the site on which they grew, and consequently
-each coal-seam was held to rest upon an ancient soil. Some years
-afterwards, in making a cutting for the Lancaster and Bolton Railway,
-several upright massive stems belonging to a plant called _sigillaria_,
-were found to pass downwards into true stigmaria stems (Fig. 12).
-There could be no doubt that they were different parts of one and the
-same plant. This fact has since been abundantly demonstrated from the
-Nova Scotia coal-field. Many sigillariæ have been found there passing
-down into the fire-clay below, where they branch out horizontally as
-true stigmatiæ. It is evident, therefore, that the stigmaria was the
-under-ground portion of a plant, which, judging from the nature of the
-soil, and the free mode in which the tender rootlets branched off,
-appears to have lived in aquatic or marshy stations.
-
-[Illustration: Fig. 13. Stigmaria.]
-
-The stigmaria is too well marked to be readily confounded with any
-other coal-measure plant. It had a rounded stem, seldom more than
-four or five inches across, which was marked by a series of circular
-tubercules with a puncture in the centre, arranged in spiral lines
-round the stem. Each of these tubercules is surrounded, in ordinary
-specimens, by a circular depression,[21] and the whole plant (if
-one may use the comparison) looks as if it had been smitten with
-small-pox. From the hollow in the centre of each protuberance, there
-shot out a long round rootlet, formerly thought to be a leaf, and
-since the tubercules are pretty thickly set, the stigmaria must have
-had a somewhat hirsute appearance as it crept through the mud. It
-would resemble a thick bearded stem of ivy, save that the fibres,
-instead of running up two sides, were clustered all round it. Along
-the centre of the root, there ran a woody pith of a harder and more
-enduring texture than the surrounding part of the plant. The space
-between the outer tuberculed rind and the inner pith, seems to have
-been of a soft cellular nature, and to have decayed first, for the pith
-is sometimes hollow, and may not unfrequently be seen at a distance
-from the centre, and almost at the outer bark--a circumstance that
-seems only explicable on the supposition, that while the surrounding
-portions were decaying, the firmer pith altered its position in the
-hollow stem, sinking to the lower side, if the plant lay prostrate, and
-that it did not itself begin to decay until the interior of the stem
-had been at least partially filled up with sand or mud, or fossilized
-by the infiltration of lime. From the root of the sigillaria, which
-has a curious cross-shaped mark on its base, the stems of stigmaria
-strike out horizontally, first as four great roots which subdivide as
-they proceed. Their subdivisions are dichotomous, each root splitting
-equally into two, and thus they want that intricate interlacing of
-rootlet which is so familiar to us. The whole disposition of these
-under-ground stems is singularly straight and regular, leading us to
-believe that they shot out freely through a soft muddy soil.
-
-[Footnote 21: Such is the usual aspect of the plant. But as the stems
-have been, for the most part, greatly flattened by the pressure of
-the superincumbent rocks, the sharpness of the pattern has been much
-effaced. In some specimens described by Dr. Hooker, as having been
-found in an upright position, the external ornamentation presents an
-appearance somewhat different. What in the common specimens stand out
-as tubercules, are there seen to be deep circular cavities, in which
-the shrunk flagon-shaped bases of the rootlets are still observable.
-(See above, Fig. 13 _b_, which is taken from one of Dr. Hooker's
-plates. For a detailed description of the structure of stigmaria, see
-the paper above referred to in the _Geological Survey Memoirs_.) A
-very ornate species is mentioned by the late Hugh Miller, in which
-each tubercule formed the centre of a sculptured star, and the whole
-stem seemed covered over with flowers of the composite order. And what
-is, perhaps, still more curious, the stem was seen to end off 7 in an
-obtuse point, tuberculed like the rest of the plant.--_Testimony of the
-Rocks_, p. 461.]
-
-Some time ago I chanced to visit the remains of what had once been
-a royal residence, and still looked majestic even in decay. It gave
-a saddened pleasure to thread its winding stairs, and pass dreamily
-from chamber to hall, and chapel to closet; to stand in its gloomy
-kitchens, with their huge fire-places, whose blackened sides told of
-many a roaring fagot that had ruddied merry faces in days long gone
-by; to creep stealthily into the sombre dungeons, so dank, earthy, and
-cold, and then winding cautiously back, to emerge into the light of the
-summer sun. The silent quadrangle had its encircling walls pierced with
-many a window, some of which had once been richly carved; but their
-mullions were now sorely wasted, while others, with broken lintels and
-shattered walls above, seemed only waiting for another storm to hurl
-them among the roofless chambers below. In the centre of the court-yard
-stood a ruined fountain. It had been grotesquely ornamented with heads
-of lions and griffins, and was said to have once run red with wine. But
-it was silent enough now; the hand of time, and a still surer enemy,
-the hand of man, had done their worst upon it; its groined arches
-and foliaged buttresses were broken and gone, and now its shattered
-beauty stood in meet harmony with the desolation that reigned around.
-I employed myself for a while in looking over the fragments, marking
-now the head of some fierce hippogryph, anon the limbs of some mimic
-knight clad in armour of proof, and ere long I stumbled on a delicately
-sculptured _fleur-de-lis_, that might have surmounted the toilet-window
-of some fair one of old. Turning it over, I found its unhewn side
-exhibited a still more delicately sculptured stigmaria. The incident
-was certainly simple enough, perhaps even trifling. And yet, occurring
-in a spot that seemed consecrated to reverie, it awoke a train of
-pleasant reflection. How wide the interval of time which was bridged
-across in that sculptured stone! Its one side carried the mind back
-but a few generations, the other hurried the fancy away over ages and
-cycles far into the dim shadows of a past eternity. The one told of a
-land of flowers, musical with the hum of the bee and the chantings of
-birds, and gladdened by the presence of man; the other told of a land
-luxuriant, indeed, in strange forms of vegetation--huge club-mosses,
-tall calamites, and waving ferns--yet buried in a silence that was only
-broken fitfully by the breeze as it shook the spiky catkins or the
-giant fronds of the forest. The _fleur-de-lis_ recalled memories of
-France--the sunny land of France--which stood out so brightly in the
-dreams of our school-days; the stigmaria conjured up visions of a land
-that was never gazed on by human eye, but rolled its rich champaign
-during the long ages of the Carboniferous era, and sometimes rises up
-dimly in the dreams of our maturer years. Between these two epochs
-how many centuries, how many cycles must have slowly rolled away! The
-_fleur-de-lis_ was carved but yesterday; the stigmaria flourished when
-the earth was young, and had seen scarcely a third part of its known
-history.
-
-I have said that the stem of the stigmaria is called sigillaria.
-The name may be translated _signet-stem_,[22] and has reference to
-one of the distinguishing peculiarities of the plant. About twenty
-British species are enumerated, some of them very dissimilar, yet
-they all agree in having long fluted stems with parallel rows of
-prominent seal-like tubercules. The sigillaria differed so widely in
-its whole contour and ornamentation from every living plant, that it
-is impossible to convey an idea of its form by reference to existing
-vegetation. Some of the species, as _S. organum_ (Fig. 14), had their
-trunks traversed longitudinally by broad ridges separated by narrow
-furrows. Along the summit of each ridge there ran a line of tubercules,
-set regularly at distances varying from a third or a quarter of an inch
-to close contact. One may sometimes see no unfair representation of
-the bark of this ancient tree, when looking at a newly ploughed field
-in spring-time, having each of its broad ridges dotted with a row of
-potato sacks. Other species, while exhibiting the same plan, differed
-not a little in the details. In some the tubercules are round, in
-others angular, and in a third set double or kidney-shaped. In some
-they are far apart, in others they are strung together like a chain of
-beads. Sometimes they exist as mere specks, while occasionally they
-broaden out so as to equal in width the ridge that supports them.
-One species (_S. reniformis_), instead of the broad ridge and narrow
-furrow, exhibits an arrangement exactly the reverse. It looks not
-unlike a cast of the species first described, save that its broad flat
-furrows support rows of much larger tubercules. The breast of a lady's
-chemisette, with a thick-set row of buttons down each plait, would
-be somewhat like this species of sigillaria, with this difference,
-however, that the buttons on the plant were of a form that does not
-appear as yet to have come into fashion among the fair sex. Yet they
-had no little elegance, and like many other objects in the geological
-storehouse, might be a useful model for our students of design. They
-were neither round nor quite oval, but rather of a kidney-shape, or
-like a double cherry.
-
-[Footnote 22: The word sigillaria is really plural, and was used by the
-Romans to denote the little images which friends were wont to present
-to each other at the end of the Saturnalia. They answered pretty nearly
-to christmas-boxes and new year's gifts among ourselves. It is not
-uninteresting thus to find among the hard dry names of science, one
-that two thousand years ago was synonymous with all the kindliness of
-friendship.]
-
-[Illustration: Fig. 14. Sigillaria, with black carbonized bark
-partially removed.]
-
-There can be no doubt that these tubercules must once have supported
-leaflets. They are true leaf-scars, like those on the Scotch fir, and
-the lozenge-shaped knobs on the bark of lepidodendron. But of the form
-of these leaves we are still in ignorance, for no part of the plant,
-save the stem and roots, has yet been found. The sigillaria must have
-been a tree that could not long withstand maceration, for not only are
-its leaves gone, but, in many cases, the outer bark has partially or
-wholly decayed, leaving a scarcely distinguishable mass of carbonized
-matter.[23] When this outer rind is peeled off, the inner surface of
-the stem is seen to be ridged, furrowed, and tuberculed in the same
-way, but the markings are much less distinct than on the outside. The
-bark sometimes attains the thickness of an inch, and is always found
-as a layer of pure coal enveloping the stem where it stands erect, or
-lying as a flat cake without any central cylinder where the stem is
-prostrate. (See Fig. 14.)
-
-[Footnote 23: Another proof of the looseness of the texture of this
-ancient vegetable may be gathered from the almost invariable truncation
-of even the largest erect stems; they are snapped across at the height
-of a few feet from their base. The famous "Torbanehill Mineral"
-contains many such fragmentary stems, often of considerable thickness.
-Their interior consists of the same material as the surrounding bed,
-and displays many dissevered plants that may have been washed into
-the decaying trunks. For the internal structure of sigillaria see Dr
-Hooker's _Memoir_, and the authorities therein cited.]
-
-Another remarkable feature in this carboniferous plant is that it
-appears to have had no branches along its stem. Trunks have been found
-four and five feet in diameter, and have been traced to a distance of
-fifty, sixty, and even seventy feet, without any marks of branches
-being detected. Brongniart examined the portion of one stem, which,
-at its thicker end, had been broken across, but still measured a
-foot in breadth. It ran for forty feet along the gallery of a mine,
-narrowing to a width of not more than six inches, when it divided into
-two, each branch measuring about four inches across. The sigillaria
-stems, accordingly, must have shot up, slim and straight, to a height
-of sometimes seventy feet before they threw out a single branch. We
-know nothing of the coronal of these strangely-formed trees. From
-Brongniart's observations, it would seem that the upper part of the
-stem, like that of the lepidodendron, was dichotomous, that is, it
-branched out into two minor stems; but how these were disposed is
-unknown. We are wholly ignorant, too, of the foliage of these branches,
-though, from the general structure of the plant, as well as from the
-number of fern-fronds often found around the base of the stems, it has
-been conjectured that the sigillaria was cryptogamous, and, like the
-tree-ferns, supported a group of sweeping fronds. If so, it differed in
-many respects from every known member of the cryptogamic tribes.
-
-Putting together, then, all that we know of the exterior of the
-sigillaria, we find that it was a tall slender tree, with, palm-like,
-a clump of foliaged branches above, its stem bristling thickly, in at
-least its upper part, with spiky leaves, and its roots equally hirsute,
-shooting out to a distance of sometimes forty feet through the soft
-muddy soil. Future researches may bring us better acquainted with this
-ancient organism. In the meanwhile, enough of it is known to mark it
-out as one of the most ornate forms of vegetation that the world has
-ever seen.
-
-In addition to the above, the coal strata have yielded many other
-fragmentary remains, to which names have been given, but of which very
-little is known. It is pleasant, amid such a wide sea of doubt and
-uncertainty, to alight upon some well-known form of whose affinities
-there can be no question, since it still finds its representatives in
-living nature. Of such a kind are the coniferous stems occasionally met
-with in the sandstones of the coal-measures. .
-
-It is now many years since the operations of the quarryman in the
-carboniferous sandstones of Edinburgh and Newcastle disclosed the
-remains of huge gnarled trunks deeply imbedded in the rock. The
-neighbourhood of the latter town yielded, in 1829,[24] the stem of
-a tree seventy-two feet long, without branches, but roughened with
-numerous knobs, indicative of the places whence branches had sprung.
-At Craigleith, near Edinburgh, a trunk thirty-six feet long, and three
-feet in diameter at the base, was disinterred in the year 1826. Since
-then, several others have been found in the same neighbourhood; some
-of them sixty and even seventy feet in length, and from two to six in
-breadth. They were, for the most part, stripped of roots and branches,
-and lay at a greater or less angle among the white sandstone beds,
-which they cut across obliquely. It was unknown for some time to what
-division of the vegetable kingdom these trunks should be referred.
-Their irregular branched surface and undoubted bark indicated a higher
-kind of structure than that possessed by any of the other carboniferous
-plants; but the conjecture remained unverified until an ingenious
-and beautiful method was discovered of investigating their internal
-organization. Two Edinburgh geologists, Mr. Nichol and Mr. Witham,
-succeeded in obtaining slices of the plants sufficiently transparent to
-be viewed under the microscope by transmitted light, and in this way
-their true structure was readily perceived. The method of preparing
-these objects was simply as follows:--A thin slice of the plant to be
-studied was cut by the lapidary, or detached by the hammer. One side
-having been ground down smooth, and polished, was cemented by Canada
-balsam to a piece of plate-glass, and the upper surface was then ground
-down and polished in like manner, so as to leave the slice no thicker
-than cartridge-paper.[25] When the preparation was then placed under
-a magnifying power, the minute cells and woody fibre of the plant
-could be detected as clearly as those of a recent tree. The Craigleith
-fossils were in this way recognised as belonging to the great
-coniferous family, and to that ancient[26] division of it which is, at
-the present day, represented by the pine of Norfolk Island--"a noble
-araucarian, which rears its proud head from 160 to 200 feet over the
-soil, and exhibits a green and luxuriant breadth of foliage rare among
-the coniferæ."[27] Some of these plants have yielded faint traces of
-the annual rings shown so markedly in the cross section of our common
-forest-trees; whence it would appear, that even as far back as the
-times of the coal-measures, there were seasons of alternate heat and
-cold, though probably less defined than now.
-
-[Footnote 24: Witham's _Foss. Veget._ p. 31.]
-
-[Footnote 25: For a more detailed description of the process, see
-Witham's _Foss. Veget._ p. 45.]
-
-[Footnote 26: The solitary lignite of the Lower Old Red Sandstone,
-seems to have been araucarian. Miller's _Footprints of the Creator_, p.
-203.]
-
-[Footnote 27: _Footprints of the Creator_, p. 192.]
-
-These coniferous trees do not appear to occur among the erect stems of
-the coal-beds, at least they are very rare in such a position. Their
-more usual appearance is that of drifted, branchless trunks, imbedded
-along with other fragmentary plants in deep strata of sandstone.
-They probably grew on higher ground than the swamps which supported
-the sigillariæ and their allies, and might have been carried down by
-streams, freighted out to sea, and so deposited among the sediment that
-was gathering at the bottom.
-
-The remains of cycadaceous plants have been described among the
-vegetation of the coal-measures; but only fragments have as yet been
-found. The modern _Cycadeæ_ are low shrubs or trees, with thick stems
-of nearly uniform breadth, crowned with a dense clump of spreading
-fronds which resemble both those of the palms and the ferns. They are
-natives of the warmer regions of both hemispheres.
-
-So long ago as the year 1835, Dr. Lindley figured a flower-like
-plant, to which he gave the name of _Antholites_, ranking it among
-the _Bromeliaceæ_, or pine-apple group. It was afterwards suspected
-by Dr. Hooker to belong rather to the coniferæ; and he supposed that
-the so-called flowerets might be really tufts of young unexpanded
-leaves. An examination of a more perfect specimen, however, has induced
-that distinguished botanist to alter his convictions and return to
-the original decision of Lindley, that the antholites are really
-flowers.[28] In Fig. 15, therefore, which represents one of these
-coal-measure fossils, the reader beholds the oldest flower that has
-yet been found; and surely it is of no little interest to know, that
-amid the rank, steaming forests of the Carboniferous era, with all
-their darkness and gloom, there were at least some flowers--flowers,
-too, that were allied to still living forms, and breathed out a rich
-aromatic fragrance.
-
-[Footnote 28: See Dr. Hooker's remarks in the Supplement to the fifth
-edition of Lyell's Manual, p. 31.]
-
-[Illustration: Fig. 15.--Antholites.]
-
-In fine, from all the genera and species of plants that have been
-detected in the strata of the coal-measures, it would appear that the
-flora of that ancient period was in a high degree _acrogenous_--that
-is to say, consisted in great measure of ferns, club-mosses, and other
-members of the great group of plants known as _acrogens_. This word
-literally means _top-growers_, and is applied to those plants which
-increase in height, but not in width, since they attain at first
-nearly their ultimate diameter. Such plants occupy a low position in
-the botanical scale. Mingled with the numerous genera of carboniferous
-ferns and club-mosses, we find the remains of a much higher grade
-of vegetation--that of the _gymnogens_, or plants that bear naked
-seeds--such as the firs and pines. There also seem to have been a
-few _endogenous_ flowering plants. Viewing, then, this flora on the
-whole, it presents us with many striking resemblances to certain
-botanical regions of the present day. Many of the tropical islands
-abound in ferns, and contain very few flowering plants. But New Zealand
-affords perhaps the closest parallel. That island is in certain parts
-highly mountainous, its loftiest summits being covered with glaciers.
-The hills throughout large districts are bare, or covered with a
-scanty herbage, while in other localities they are densely clothed
-with forests of pine, beech, and other trees. These forests sweep
-on to the lower grounds, where they are replaced by a thick growth
-of fern and flax-plant intermingled with dragon-trees and graceful
-tree-ferns, while the more swampy regions support a rich profusion of
-reeds and rushes. Such a condition of things affords a close parallel
-to the probable vegetation of the Carboniferous period--an immense
-preponderance of ferns and arborescent acrogens, with an intermixture
-of large coniferous trees. From the general scantiness of a flora
-where ferns predominate, it has been argued that the swamps of the
-coal-measures nourished a luxuriant repetition of comparatively few
-species; and this hypothesis also receives confirmation from the
-vegetation of New Zealand. Another deduction founded on the resemblance
-of the ancient to the modern flora, refers to the conditions of heat
-and moisture. It has been inferred that the climate of the coal period
-was equable and humid, like that of New Zealand--a supposition much
-more natural and simple than that, once so much in vogue, of a heated
-atmosphere densely charged with carbonic acid gas. That the air of the
-Carboniferous period differed in no material respect from the air of
-the present day, seems at last proved by the remains of air-breathing
-animals having been found among the coal-beds; and there seems no
-reason why the higher mountain-tops of the same epoch may not have been
-clothed with glaciers as those of New Zealand are. As yet we have no
-evidence of the fact, but it is by no means beyond the possibility of
-proof.[29]
-
-[Footnote 29: See Professor Ramsay's suggestive Memoir on Permian
-Breccias in _Quarterly Journal of the Geological Society_, vol. xi. p.
-185.]
-
-
-
-
-CHAPTER V.
-
-
-  Scenery of the carboniferous forests--Contrast in the
-       appearance of coal districts at the present day--Abundance
-       of animal life in the Carboniferous era--Advantages
-       of palæontology over fossil-botany--Carboniferous
-       fauna--Actiniæ--Cup-corals--Architecture of the present
-       day might be improved by study of the architecture of the
-       Carboniferous period--Mode of propagation of corals--A
-       forenoon on the beach--Various stages in the decomposition of
-       shells--Sea-mat--Bryozoa--Fenestella--Retepora--Stone-lilies--
-       Popular superstitions--Structure of the stone-lilies--Aspect
-       of the sea-bottom on which the stone-lilies
-       flourished--Sea-urchins--Crustacea, their high
-       antiquity--Cyprides--Architecture of the Crustacea and
-       mollusca contrasted--King-crabs.
-
-The forms of vegetation that flourished during the Carboniferous era
-seem to have been in large measure marshy plants, luxuriating on low
-muddy delta-lands, like the cypress-swamps of the Mississippi, or the
-Sunderbunds of the Ganges. We can picture but faintly the general
-scenery of these old forests from the broken and carbonized remains
-that have come down to us. But though perhaps somewhat monotonous
-on the whole, it must have been eminently beautiful in detail. The
-sigillariæ raised their sculptured stems and lofty waving wreaths of
-fronds high over the more swampy grounds, while a thick underwood of
-ferns and star-leaved asterophyllites clustered amid the shade below.
-The lepidodendra shot forth their spiky branches from the margin of
-green islets, and dropped their catkins into the sluggish water that
-stole on among the dimpled shadows underneath. Tree-ferns spread out
-their broad pendant fronds, and wrapt the ground below in an almost
-twilight gloom, darker and deeper far than that
-
-          "Hospitable roof
-    Of branching elms star-proof,"
-
-which rose so often in the visions of Milton; or that "graceful arch"
-so exquisitely sung by Cowper, beneath which
-
-    "The chequered earth seems restless as a flood
-    Brushed by the wind. So sportive is the light
-    Shot; through the boughs, it dances as they dance,
-    Shadow and sunshine intermingling quick,
-    And darkening and enlightening, as the leaves
-    Play wanton, every moment, every spot."
-
-Thickets of tall reeds rose out of the water, with stems massive as
-those of our forest-trees, encircled at regular distances by wreaths of
-pointed leaflets, and bearing on their summits club-like catkins. Far
-away, the distant hills lay shaggy with pine-woods, and nursed in their
-solitudes the springs and rivulets that worked a devious course through
-forest, and glen, and valley, until, united into one broad river, they
-crept through the rich foliage of the delta and finally passed away out
-to sea, bearing with them a varied burden of drift-wood, pine-trees
-from the hills, and stray leaves and cones from the lower grounds.
-
-How different such a scene from that now presented by the very same
-areas of country! These old delta lands are now our coal-fields, and
-have exchanged the deep stillness of primeval nature for the din and
-turmoil of modern mining districts. In these ancient times, not only
-was man uncreated, but the earth as yet lacked all the higher types of
-vertebrated being. None of the animals that we see around us existed
-then; there were no sheep, nor oxen, horses, deer, nor dogs. Neither
-were the quadrupeds of other lands represented; the forests nourished
-no lions or tigers, no wolves or bears, no opossums or kangaroos. In
-truth, the land must have been a very silent one, for we know as yet of
-no animated existence that could break the stillness, save perchance
-some chirping grasshopper, or droning beetle, or quivering dragon-fly.
-No bee hummed along on errands of industry; it is doubtful, indeed,
-whether honey-yielding flowers formed part of the carboniferous flora;
-no lark carolled blithely in the sky, nor rook croaked among the
-woods. All was still; and one might, perhaps, have stood on some of
-those tree-crested islets, and heard no sound but the rippling of the
-water along the reedy and sedgy banks, and the rustling of the gloomy
-branches overhead.
-
-To one who muses on these bygone ages it is no unimpressive situation
-to stand in the midst of a large coal district and mark its smoking
-chimneys, clanking engines, and screaming locomotives, its squalid
-villages and still more squalid inhabitants, and its mingled air of
-commercial activity, physical wretchedness, and moral degradation.
-It is from such a point of view that we receive the most forcible
-illustration of those great changes whereof every country has been the
-scene, and which are so tersely expressed by one who has gazed on the
-revelations of geology with the eye of a true poet--
-
-    "There rolls the deep where grew the tree.
-      O earth, what changes hast thou seen!
-      There where the long street roars, bath been
-    The stillness of the central sea."
-
-But the lifelessness of the carboniferous forests was amply compensated
-by the activity that reigned in river, lagoon, and sea. Coral groves
-gleamed white beneath the waves, fishes of many a shape disported in
-stream and lake, and the bulkier forms, armed in massive plates of
-bone, ascended the rivers or haunted the deeper recesses of the open
-sea. In some beds of rock the remains of these various animals lie
-crowded together like drifted tangle on the sea-shore, and the whole
-reminds us of a vast cemetery or charnel-house. The bones lie at all
-angles, many of them broken and disjointed as though the owner had died
-at a distance, and his remains, sadly mutilated on the way, had been
-borne to their last resting-place by the shifting currents; others
-lie all in place, covered with their armature of scales, as though
-the creature, conscious of approaching dissolution, had sought out a
-sheltered nook and there lain down and died. It is not uninteresting
-or uninstructive to tract; out in an old quarry stratum above stratum,
-each with its groups of once living things. I know of few employments
-more pleasant than to sit there, amid the calm stillness of a summer
-evening, when the shadows are beginning to steal along the valleys and
-creep up the hill-sides, and in that dim fading light to try in fancy
-to clothe these dry bones with life, to picture the time when they
-lived and moved in the glassy depths of lakes and seas, or amid the
-solitudes of jungles and forests, and so to spend a pleasant hour in
-reverie, till roused at last by the vesper song of the lark, or the low
-meanings of the night wind as it sighs mournfully through the woods.
-
-The study of fossil animals embraces a much greater range of subject
-than that of fossil plants. The _fauna_ of any particular geological
-formation, that is to say, its embedded animal remains, for the most
-part vastly exceeds in number its _flora_, or vegetable remains, and is
-likewise usually better preserved. About the nature and affinities of
-several tribes of fossil plants there hangs an amount of uncertainty
-which renders them a dubious guide to the climatal and other conditions
-of the period and locality in which they lived. Generic distinctions
-among living plants often rest on the character of those parts which
-are the most perishable, such as flowers and seed-vessels. These
-delicate structures we, of course, can hardly look to find preserved
-in the rocks, and we have in place of them only detached leaflets,
-twigs, branches, and stems, often sorely mutilated in outward form, and
-presenting no trace of internal organization. But the tribes of the
-animal kingdom have, for the most part, harder frameworks. The minute
-infusoria, which by their accumulated remains help to choke up the
-delta of the Nile, and swarm by millions in every ocean of the globe,
-have their silicious or calcareous shells so minute that Ehrenberg
-has estimated a cubic inch of tripoli to contain forty-one thousand
-millions of them. The polypi have their internal calcareous skeletons,
-which abound in all the older limestones, and form the coral reefs of
-the present day. The mollusca, too, though, as their name imports, they
-have perishable bodies, are yet, in most cases, furnished with hard
-calcareous shells, that indicate by their various modifications of form
-and structure, the character of the animal that lived within them. They
-are found in all the formations from the earliest upwards, and as they
-vastly exceed in numbers all the other classes with which the geologist
-has to deal, they form the larger part of that basis of evidence from
-which he interprets the past history of organized existence. Hugh
-Miller loved to talk of them as the "shell alphabet," out of which the
-language of palæontological history should be compiled. The vertebrata,
-too, all have their hard skeletons, easily capable of preservation,
-whether it be in the form of the massive exo-skeleton of bone that
-characterized the older ganoidal fishes, or the compact endo-skeleton
-of the reptiles and mammals. A greater amount of attention is,
-therefore, due to the study of fossil animals, since they thus not
-only far exceed fossil plants in number, but possess a higher value as
-evidence of ancient physical conditions.
-
-The _fauna_ of the Carboniferous system is a very numerous one,
-exhibiting specimens of almost every class of animal life, from the
-tiny _foraminifer_ up to the massive bone-covered sauroidal fish,
-and even to occasional traces of true reptilian remains. By far the
-larger number are peculiar to the sea, such as the molluscan tribes
-and corals; others are undoubtedly terrestrial organisms, such as the
-wings and wing-sheaths of several kinds of insects; while some appear
-to be peculiar to fresh or brackish water, such as shells allied to
-our _unio_ or river-mussel, and minute crustaceous animals known as
-_cyprides_, of which we have still representatives in our ponds and
-ditches. It is plain, then, that if we rightly ascertain the class or
-family to which one of these fossils belonged, we shall obtain a clue
-to the history of the physical geography, during Carboniferous times,
-of the district in which the fossil occurs. A bed of unios will tell
-us of old rivers and lakes that spread out their blue waters where
-now, perchance, there lie waving fields of corn. A bed of corals and
-stone-lilies will lay before us the bottom of an ancient ocean that
-rolled its restless waves where to-day, perhaps, the quarryman plies
-his task amid the gloom of dark pine-woods. In short, these organic
-remains are to the history of the earth what ancient monuments are to
-the history of man. They enable us to trace out the varied changes
-of our planet and its inhabitants down to the human era, just as the
-wooden canoe, the flint arrow-head, the stone coffin, the bronze sword,
-the iron cuirass, the ruined abbey, and the feudal castle, teach us the
-successive stages of progress in the history of our own country.
-
-Whoever has spent a few days on some rocky coast, must have noticed
-adhering to half-tide stones numerous solitary _actiniæ_. Arrayed in
-all the colours of the rainbow--purple, green, and gold--these little
-creatures hang out their tentacles like so many flowers, and have hence
-received the popular name of sea-anemones. Their internal structure is
-no less beautiful. They resemble so many large plump gooseberries, and
-consist of a little sack suspended within a larger one. The outer sack
-is fringed along its upper edges with one or more rows of slim hollow
-tentacles, which diverge outwards like the petals of the daisy, and can
-be contracted at pleasure so as somewhat to resemble the daisy when
-folded up at sunset. The inner sack, which forms the stomach of the
-animal, has a short opening or gullet, at the upper part of which is
-the mouth lying in the centre of the cavity surrounded by the fringes
-of tentacles. The inner sack is connected with the outer by means of
-thin membranes, like so many partition-walls, which radiate inwards
-like spokes towards the axle of a wheel. The space between each of
-these membranes, or lamellæ, forms an independent chamber, but it has
-a communication with those on either side by a window in each wall,
-and further opens upwards into the hollow tentacles, which, with minute
-orifices at their outer points, may be compared to chimneys. These
-chambers form the breathing apparatus of the little creature. Sea-water
-passes down through the tentacle into the hollow chamber below,
-whence, by the constant action of minute hairlike cilia that line the
-walls like tapestry, it is driven through the window into the next
-chamber, thence into the next, and so on, passing gradually through the
-tentacles back to the sea.
-
-The actiniæ are of a soft perishable substance, but many of the other
-_Anthozoa_, or flower-like animals, have hard calcareous skeletons. Of
-such a kind are the polypi that in the Pacific Ocean have raised those
-stupendous reefs and islands of coral. It does not appear that, during
-the Carboniferous period, there existed any reef-building zoophytes,
-but some of the most abundant forms of life belonged to a kindred
-tribe, and are known by the name of _Cyathophyllidæ_, or cup-corals.
-
-As the name imports, the typical genus has a general cup-shaped form,
-but this is liable to many aberrations in the cognate genera. The
-younger specimens of one species (_Cyathopsis fungites_) have a curved
-outline somewhat like the bowl of a tobacco-pipe, whence the quarrymen
-know them as pipe-heads. The older individuals are generally more or
-less wrinkled and twisted, sometimes reaching a length of eight or nine
-inches, and have been named by the workmen _rams'-horns_.
-
-[Illustration: Fig. 16.--Cyathopsis (clisiophyllum ?) fungites.]
-
-The annexed figure (Fig. 16) shows their general appearance and
-structure. The lower end was fixed to the rock like the flat
-sucker-like disc of the actinia. Around the outer margin there diverged
-one or more rows of slim tentacles, hollow, soft, and retractile, like
-those of the actinia. From the margin to the centre there radiated
-more than a hundred lamellæ, but these differed from the corresponding
-membranes of the modern animal, inasmuch as they were strengthened
-internally by a skeleton of hard carbonate of lime; and to this
-difference we owe their preservation. They stand out in high relief
-upon weathered specimens, showing the long, narrow chambers that ran
-between them. Their walls were once doubtless hung with countless
-vibratile cilia, and perhaps pierced each with its window, through
-which the currents of water passed in their ceaseless progress to and
-from the sea. At the centre lay the mouth, communicating by a short
-gullet with the stomach, which occupied the central portion of the
-animal, and from the outer walls of which the lamellæ diverged like so
-many buttresses. In its youngest stages, the animal occupied the whole
-length of the cup, but, us it increased in size, it gradually retreated
-from the narrow end, which was then divided off by a thin calcareous
-membrane. At each successive stage of its growth, a new membrane was
-added, each further and further from the lower end, so that eventually
-the creature left below it a series of empty chambers all firmly
-built up. Thus, in a specimen six or eight inches long, there would
-in reality only be a small part tenanted--in fact merely the upper
-floor--all the lower storeys remaining silent and uninhabited. The
-house of this old-world architect differed widely in one respect from
-human dwellings. Man begins his basement story of the same dimensions
-as those that are to succeed it, or, if any difference is made at all,
-the upper floors are built each less than the one below it, so that
-the whole structure tapers upward to a point, as in the Pyramids. But
-the cyathopsis reversed this latter process; it inverted the cone,
-commencing the smallest chamber at the bottom, and placing the widest
-at the top. Indeed, one is sometimes puzzled to conjecture how so bulky
-a building could be securely poised on so narrow a basis, and it is
-certainly difficult to see how the creature could move about with such
-a ponderous load to drag along. The snail carries his house on his
-back, yet it is a slim structure at the best; but the cup-coral must
-not merely have carried his house, but some dozen or two of old ones
-strung one after another to his tail. Perhaps, though free to move
-about and try change of residence in its youthful days, the creature
-gradually settled down in life, and took up its permanent abode in some
-favourite retreat, the more especially as in process of time it became
-what we should call a very respectable householder.
-
-Allied to the cyathopsis is another and still more beautiful coral,
-described so long ago as the latter part of the seventeenth century
-by the Welsh antiquary and naturalist, Lhwyd, under the name of
-_Lithostrotion_. Although many perfect specimens of it have been
-found, and it is usually as well preserved as any of its congeners,
-men of science have been sadly at a loss what to call it. Four or
-five synonyms may be found applied to it in different works on
-palæontology. There seems now, however, a tendency to return to the
-name that old Lhwyd gave it two centuries ago; the family to which
-it belongs, and of which it is the type, has accordingly been termed
-the _Lithostrotionidæ_, and the species in question _Lithostrotion
-striatum_ (Fig. 17). It differed from the cyathopsis in several
-respects, but chiefly in this, that it lived in little congregated
-groups or colonies, whereas the cyathopsis, like our own actinia, dwelt
-alone.
-
-[Illustration: Fig. 17.--Lithostrotion striatum.]
-
-Each of these colonies was formed of a cluster of hexagonal, or rather
-polygonal pillars, fitting closely into each other, like the basaltic
-columns of Fingal's Cave, and springing from a common base at the sea
-bottom.[30] Each pillar constituted the abode of a single animal,
-and resembled generally the stalk of the cyathopsis. It had the same
-minute diverging partitions running from the outer walls towards the
-centre, and the same thin diaphragms, which, stretching horizontally
-across the interior of the column at short intervals, marked the
-successive stages of the animal's growth. Within these partitions,
-which vary from forty to eighty in number, there runs an inner circular
-tube with thin lamellæ and diaphragms. The exterior of the columns is
-ribbed longitudinally by a set of long fine striæ, which give somewhat
-the appearance of the fluting on a Corinthian pillar. The columns,
-moreover, are not straight, but have an irregular, wrinkled outline,
-so that, by a slant light, they look like some old pillar formed of
-many layers of stone, the joints of which have wasted away, producing
-an undulating profile in place of the original even one. But in these
-ancient coral columns there is no blunted outline, no worn hollow;
-the sculpturing stands out as sharp and fresh, and the wavy curves as
-clearly defined, as though the creature had died but yesterday. They
-resemble no order of human architecture, save faintly, perhaps, some of
-the wavy outlines of the Arabesque.
-
-[Footnote 30: Sir Roderick Murchison figures in his _Siluria_, p. 282,
-a gigantic specimen, which measured two feet four inches in width.]
-
-Despite all the improvements and inventions of modern times, classic
-architecture has made no progress since the days of Pericles. All that
-we do now is but to reproduce what the Greeks created 2000 years ago,
-and he is reckoned the best architect who furnishes the best imitation.
-Our architects might find some useful hints, however, by studying the
-lowlier orders of nature. They would see there patterns of beauty far
-more delicate than the Grecian capital, and more light and airy than
-the Gothic shaft. And whether or not they could found a new order of
-architecture, they could not fail to discover many modifications and
-improvements upon some of the old. They could not readily light upon
-a more graceful form than that of the lithostrotion, would they but
-picture it as it grew at the bottom of the old carboniferous sea. A
-group of hexagonal pillars, firmly compacted together like those of
-the Giant's Causeway, or Fingal's Cave, rose from a white calcareous
-pediment, as columns from the marble steps of an Athenian temple. Each
-side of the pillar had a wavy undulating surface, delicately fluted by
-long slender striæ, the whole being so arranged that the convexities
-of one surface fitted into the sinuosities of the adhering one. Each
-pillar was crowned above by a capital, consisting of the soft vibratile
-tentacles of the animal, that hung over like so many acanthus leaves.
-Of the form of these tentacles, their design and grouping, we know
-nothing save what may be gathered from the analogy of living corals.
-There can be little doubt, however, that, like the flower-shaped buds
-of the existing reef-building polyps, they must have been eminently
-beautiful, and in strict keeping with the graceful column which they
-crowned.
-
-Another kindred form was that known as the _lithodendron_. It, too,
-grew in colonies, and seems to have closely resembled the last, save
-that the pillars, in place of being six-sided, were round. I have seen
-a bed of these corals several yards in extent, and seven or eight
-inches deep, where the individuals were closely crowded together, so
-as to resemble a series of tobacco-pipe stems, or slim pencils set on
-end. The tubes, however, were not all quite straight; many being more
-or less curved, and sometimes crossing their neighbours obliquely.
-The internal arrangement was on the same plan as in the two previous
-corals. The same numerous partitions ran from the exterior wall
-towards the central tube, the same thick-set diaphragms crossed the
-entire breadth of the column, imparting the same minute honey-combed
-appearance to a cross section. The exterior of the column (in _L.
-fasciculatum_) was likewise traversed by the same longitudinal striæ.
-
-Both these corals seem to have been _fissiparous_, that is to say, they
-propagated by splitting into two parts, each of which formed the base
-of a new column with a new animal. The evidence for this statement
-rests on the fact, that many of the tubes are seen to bifurcate in
-their course, so that two new tubes are produced equal in size and
-completeness to the old one from which they proceed. Another mode of
-generation which, in at least its earlier stages, would produce a
-somewhat similar appearance is called _gemmation_, and consists in
-the protrusion of a bud or gemmule from the side of the animal, which
-shortly develops into a new and perfect individual. It is probable,
-however, that the ordinary mode of propagation among these old corals
-was the usual one by impregnated ova. These ova, like those of our
-sea-anemones, were probably generated within the partitions, between
-the central stomach and the outer wall, whence they passed down into
-the stomach, and were ejected by the mouth of the parent as little
-gemmules, furnished with the power of locomotion by means of vibratile
-cilia. Some of the _Medusa_ family possess this three-fold mode of
-propagation; but, in all, the last-mentioned is the most usual.
-
-Has the reader ever stretched himself along the shore, while, perhaps,
-a July sun blazed overhead, and a fitful breeze came over the sea, just
-strong enough to chase ashore an endless series of rippling wavelets,
-and breathe over his temples a delicious and refreshing coolness?
-Thus placed, and gazing dreamily now, perchance, at the distant sails
-like white specks along the boundary line of sea and sky; now at the
-gulls wheeling in broad circles through the air, and shooting swift
-as arrows down into the blue water, he must often have turned to look
-for a little at the sand which, heaped up in little mounds around him,
-formed a couch well-nigh as soft as the finest down. Many a varied
-fragment entered into the composition of that sand. Mingled among the
-minuter quartzy particles lay scores of shells, some with the colour
-not yet faded, and the valves still together--the delicate tellina,
-with its polished surface, and its flush of pink; the cardium with its
-strong white plaited sides, and the turritella with its circling spire;
-some were worn down and sorely effaced, others broken into fragments
-by the ceaseless grinding of the waves. It was pleasant labour in such
-a sultry noon to pick out the shells of one species in all stages of
-decay. The _Trochus lineatus_, or Silver Willie, as young ramblers by
-the sea-shore love to call it, showed well the process of destruction.
-The perfect shell, cast ashore, perhaps, by the last storm, and still
-uninjured by the tides, displayed its russet epidermis, or outer skin,
-covered with fine brown zig-zag lines, running across the whorls from
-the creature's wide pearl-lined mouth to the apex. A second shell
-exhibited a surface that had begun to suffer; the point had been
-divested of its thin outer skin, and laid bare the silvery coating of
-pearl below. A third had undergone a still longer period of abrasion,
-for the whole of the epidermis was gone, and the surface gleamed with
-a pearly iridescence. In yet a fourth, this bright exterior had been
-in large measure worn away, and the blunted, rounded shell displayed
-the dull white calcareous substance of which it was mainly built up.
-But there were other objects of interest in the sand: bits of tangle,
-crusted over with a fine net-work of gauze, and fragments of thin
-leaf-like membrane, consisting of a similar slender network known
-popularly as the _sea-mat_, occasionally turned up among the pebbles
-and shells. No one who met with these organisms for the first time
-could fail to be struck with the extreme delicacy of finish, if one
-may so speak, that characterizes them. And yet he might be puzzled to
-know what to make of them. The leaf-like membrane, at a first glance,
-looks not unlike some of the flat-leaved algæ, and such the observer
-might readily take them to be. Such, too, they were long regarded by
-naturalists; but a more careful examination of them showed that the
-so-called plants really belonged to the animal kingdom, and that the
-supposed leaves were, in truth, the organic dwelling-places of minute
-zoophytes, of which many hundreds lay grouped together on every square
-inch. For many years these little creatures were called "celliferous
-corallines," and classed among the polypi, that great tribe which has
-its representatives in every ocean, from the coral reefs of the Pacific
-to the little bell-shaped _hydra_ amid the tangle of our own seas.
-But the microscope--that lamp which lights us into the inner recesses
-of nature--revealed at last their true character. Fixed to one spot,
-living in communities, and exceedingly minute, in short, with many of
-the outward features of the true corallines, they were yet found to
-possess a structure so complex and highly organized, as to entitle them
-to rank among the higher tribes of the invertebrate animals, and they
-are now accordingly pretty generally subjoined to the mollusca, under
-the name of _Bryozoa_.
-
-Each bryozoon consists externally of a single horny or calcareous cell,
-sometimes furnished with a valve-like lid that folds down when the
-animal withdraws itself. When danger is past, and the creature begins
-again to emerge, the upper parts, which were drawn in like the inverted
-finger of a glove, are pushed out until a series of tentacles, covered
-with minute hair-like bodies, called cilia, are expanded. The vibratile
-motion of these cilia causes a constant current in the direction of
-the mouth, which lies in the centre of the hollow whence the tentacles
-spring; animalcules are in this way brought in rapid succession within
-reach of the mouth, and form a never-failing source of nourishment.
-The interior is greatly more complex than that of the _polypi_. The
-stomach is connected above with a cavity like the gizzard of a bird,
-furnished with pointed sides, which serve to triturate the food before
-it passes into the stomach. There is also a distinct intestine. The
-muscular action for the expansion and retraction of the animal is
-highly developed, and the generative system is a greatly more complex
-one than that of the polyps already referred to. In short, however
-closely they might be thought to resemble the corals in outward form,
-their internal structure undoubtedly links them with a much higher type
-of organization, and justifies the naturalist in subjoining them as a
-sub-order to the mollusca.
-
-The cells are grouped at short intervals along a horny or calcareous
-substance, that sometimes encrusts sea-weed, or spreads out as a flat
-leaf-like membrane, or rises into cup-shaped or dendritic forms. A
-series of cells constituting a separate and independent colony, is
-termed a polypidom. The cells are further connected together by an
-external jelly-like integument, in which they are sunk, and which
-serves to secrete the calcareous particles from the sea.
-
-It is interesting to know that creatures so minute and yet so complexly
-organized, existed abundantly in the seas of the Carboniferous period.
-No less than fifty-four species are enumerated as having been obtained
-from the carboniferous strata of the British Islands, and scarcely a
-year passes without one or two new species being added to the list.
-The most frequent belong to the genus _Fenestella_, or little window,
-a name indicative of the reticulated grouping of the branches like the
-wooden framework of a window. Each of these branches, or interstices,
-as they are called, was more or less straight, being connected with
-that on either side by a row of transverse bars, just as the central
-mullion of an abbey window is connected with the flanking ones by means
-of cross-bars of stone. Not unfrequently some of the branches subdivide
-into two, as we saw to be the case among the cup-corals.
-
-[Illustration: Fig. 18.--_a_, Fenestella oculata (M'Coy), nat. size;
-_b_, magnified portion of the same.]
-
-Fig. 18 illustrates the relative disposition of these branches. In _a_,
-the natural size of the fossil is given; _b_ is a portion of the same
-magnified, to show the form and arrangement of the ribs and cross-bars.
-Each rib is seen to have two sides separated by a rounded ridge. Along
-each side there runs a row of circular hollows or cells, every one
-of which once formed the abode of a distinct bryozoon. The back or
-inner surface of the branch, was ribbed and granulated irregularly,
-without any cells. The connecting bars or dissepiments have no cells,
-and served merely to bind the interstices together into one firm
-organically-united polypidom. Such fragments as that here figured
-are the most usual traces to be found of these animals among the
-carboniferous rocks. But perfect specimens are sometimes met with which
-show how delicate and graceful a structure the polypidom of some of the
-fenestellæ must have been. All these bars sprung from a common point
-as their basis, and rose up in the form of a cup. It was, in short, a
-cup of network, hung with waving tentacles and quivering cilia. I have
-seen some dissections of flowers in which all the softer tissue had
-been removed, so as to present only the harder veinings of the leaves
-with their thousand ramifications bleached to a delicate whiteness.
-Out of these skeleton-leaves there were formed groups of lilies,
-crocuses, geraniums, and roses, like patterns of the finest gauze. Some
-of the larger-stemmed leaves that had been artistically moulded into a
-tulip form, seemed not inaptly to represent the general contour of the
-skeleton of the old carboniferous fenestella.
-
-An allied form is called the _Retepora_. It differed from the previous
-organism in having the ribs not straight, but irregularly anastomosing,
-that is, running into and coalescing with each other, so as to form
-a close network with oval interspaces, like a piece of very minute
-wire-fence. Each of these wavy libs was completely covered over on one
-side with oval pores or cells, which, as in the fenestella, formed the
-abode of the living animals. The differences in organization between
-the animal of fenestella and that of retepora can, of course, only be
-matter of speculation. The general structure in both must, however,
-have been pretty much alike. The former genus is now no longer extant,
-but the latter, which was ushered into the world during the era of the
-Old Red Sandstone, still lives in the deeper recesses of the ocean, and
-manifests in its structure and habits the leading characteristics of
-bryozoan life.
-
-What rambler among old lime-quarries is not familiar with the
-stone-lily, so abundant an organism in most of the Palæozoic and
-many of the Secondary limestones? In some beds of the carboniferous
-limestone its abundance is almost incredible. I have seen a weathered
-cliff in which its remains stood out in bold relief, crowded together,
-to use an expression of Dr. Buckland's, "as thickly as straws in a
-corn-rick." The joints of this animal, known now as _entrochi_ or
-wheel-stones, forced themselves on the notice of men during even the
-middle ages, and an explanation was soon found for their existence.
-From their occurring largely about the coast at Holy Island, they were
-set down as the workmanship of Saint Cuthbert.
-
-          "On a rock by Lindisfarne,
-    St. Cuthbert sits and toils to frame
-    The sea-born beads which bear his name."
-
-The aged saint was represented as employing his nights in this highly
-intellectual task, sitting on a lone rock out in the sea, and using an
-adjacent one as his anvil.
-
-    "Such tales had Whitby's fishers told,
-    And said they might his shape behold,
-      And hear his anvil sound,
-    A deaden'd clang,--a huge dim form
-    Seen but, and heard, when gathering storm
-      And night were closing round."
-
-But these wheel-stones were not the only geological curiosities
-to which this simple mode of explanation was applied. In the same
-storied neighbourhood there occur in considerable numbers the round
-whorled shells of the genus _Ammonites_. These were gravely set down
-as petrified snakes wanting the head, and their petrifaction and
-decapitation were alike reverently ascribed to the power of the sainted
-abbess of Whitby.
-
-                  "They told
-    How of a thousand snakes each one
-    Was changed into a coil of stone
-    When holy Hilda prayed."
-
-The stone-lily belonged to that large class of animals ranked together
-as _Echinodermata_, a name taken from one of the leading subdivisions
-of the group--the _Echini_ or sea-urchins. It seems to have been one
-of the earliest forms of life upon our planet, its disjointed stalks
-occurring largely in some of the oldest Silurian limestones. In the
-Secondary ages it began gradually to wane, until at the present day its
-numerous genera appear to be represented by but the _comatula_ and the
-_pentacrinite_, two tiny forms that float their jointed arms in the
-profounder depths of the sea.
-
-[Illustration: Fig. 19.--_a_, Cyathocrinites planus. _b_, Encrinal
-stem, with uniform joints. _c_, Single joint, or wheelstone.]
-
-As its name imports, the stone-lily or encrinite had a plant-like
-form. It consisted of a long stalk fixed by the lower end to the
-sea-bottom, and supporting above a lily-shaped cup, in which were
-placed the mouth and stomach (Fig. 19 _a_). The stalk consisted of
-circular plates (some of them not so thick as a sixpence), having
-their flat sides covered with a set of minute ribs radiating from the
-centre, and so arranged that the prominent lines of one joint fitted
-into corresponding depressed lines of the adhering ones. The centre
-of each joint was pierced by a small aperture, like the axle of a
-wheel, which, when the stem was entire, formed part of the long tube
-or canal that traversed the centre of the stem, and served to convey
-aliment to the remotest part of the animal. Detached joints have thus
-a wheel-like appearance (Fig 19 _c_), and hence their common name of
-wheel-stones. In many species they were not all of the same diameter,
-but alternately larger and smaller, as if the stem had been made up of
-a tall pile of sixpences and threepenny pieces in alternate succession.
-This variation gives a remarkably elegant contour to the stalk. The
-flower-shaped cup consisted of a cavity formed of geometric calcareous
-plates, and fringed along its upper margin with thick calcareous
-arms, five or ten in number, that subdivided into still more slender
-branches, which were fringed along their inner side with minute _cirri_
-or feelers. All these subdivisions, however fine, were made up of
-calcareous joints like the stalk, so that every stone-lily consisted
-of many thousand pieces, each perfect in its organization and delicate
-in its sculpturing. One species peculiar to the Liassic formation
-(_Extracrinus Briareus_) has been calculated to contain one hundred and
-fifty thousand joints!
-
-The effect of this minute subdivision was to impart the most perfect
-flexibility to even the smallest pinnule. The flower could instantly
-collapse, and thus the animals on which the encrinite preyed were
-seized and hurried to the central mouth. The lower part of the cup, or
-_pelvis_, as it is called, contained the stomach and other viscera, and
-communicated with the most distant part of the body by the central
-alimentary canal.
-
-But while this continued the general type on which the encrinites
-were constructed, it received many minor modifications. These were
-effected chiefly on the form and arrangement of the cup-shaped body
-and its appendages, and form now the basis of our classification
-into genera and species. Thus, in the genus known as _Platycrinus_,
-the lower part of the cup consists of two rows of large hexagonal or
-polygonal plates fitting closely into each other, while the upper part
-rises into a dome-like elevation formed of smaller polygonal plates,
-which have often a mammillated exterior. The arms sprang from the
-widest part of the body where the large pieces of the lower cup were
-succeeded by the small pieces of the upper. In an Irish species (_P.
-triacontadactylus_), the arms subdivided into thirty branches, each
-fringed with minuter pinnules and folding round the central elevated
-spire, as the petals of a crocus close round its central pistil. In
-another encrinite (_Poteriocrinites conicus_), the cup was shaped like
-an inverted cone, the point being affixed to the summit of the stalk,
-and the broad part throwing out from its edges the lateral arms. The
-_Woodocrinus macrodactylus_ had such gigantic arms as well-nigh to
-conceal the position of the cup, which relatively was very small in
-size. They sprang from near the base of the cup, five in number, but
-soon subdivided each into two, the ten arms thus produced being closely
-fringed with the usual jointed calcareous pinnules.
-
-The size and arrangement of the joints of the stalk also differed in
-different genera. The Woodocrinus and many others had them alternately
-broad and narrow, like a string of buttons of unequal sizes; others had
-all the joints of the same relative diameter (Fig. 19 _b_), so that the
-stalk tapered by a uniform line from base to point. I may add, that
-on some specimens of both these kinds of stems, we can notice small,
-solitary _areolæ_, or scars, which may mark the points of attachment
-of cirri, or little tentacles, like those on the stem of the existing
-Pentacrinite. But though each of these varieties of stem is peculiar to
-a certain number of genera, there is often so little distinction among
-the detached fragments, that it becomes difficult, indeed impossible,
-to assign each to its appropriate individual. We may say, that certain
-encrinal stalks could not have belonged to a poteriocrinus, and others
-could never have fitted on to the cup of an actinocrinus; but we cannot
-often say positively to what species they actually would have fitted.
-There can, however, be no doubt about their being encrinites, and so
-we have in them a safe and evident test for the origin of the rock in
-which their remains occur. But to this I shall afterwards revert.
-
-In the meantime, I would have the reader to fix the stone-lily in
-his memory as peculiarly and emphatically a marine animal, dwelling
-probably in the deeper and stiller recesses of the ocean, like the
-Pentacrinite of existing times. Let him try to remember it, not in the
-broken and sorely mutilated state in which we find it among the blocks
-of our lime-quarries, but as it must have lived at the bottom of the
-carboniferous seas. The oozy floor of these old waters lay thickly
-covered with many a graceful production of the deep, submarine gardens
-of
-
-    "Violet, asphodel, ivy, and vine-leaves, roses and lilies,
-    Coral and sea-fan, and tangle, the blooms and the palms of the ocean."
-
-Amid this rich assemblage of animated forms, the stone-lilies must have
-occupied a conspicuous place. Grouped in thick-set though diminutive
-forests, these little creatures raised their waving stems, and spread
-out their tremulous arms, like beds of tulips swaying in the evening
-air. Their flower like cups, so delicately fringed, must have presented
-a scene of ceaseless activity as they opened and closed, coiling up
-while the animal seized its prey, or on the approach of danger, and
-relaxing again when the food had been secured, or when the symptoms
-of a coming enemy had passed away. Only from this animated action
-would one have been apt to conjecture these organisms to be other
-than vegetable. They lived, too, not in detached patches, like the
-tulip-beds of the florist, but, to judge from the abundance of their
-remains, must have covered acre after acre, and square mile 'after
-square mile, with a dense growth of living, quivering flowers. As one
-individual died out, another took its place, the decaying steins and
-flowers meanwhile falling to pieces among the limy sediment that lay
-thickly athwart the sea-bottom, and contributing, by their decay and
-entombment, to build up those enormous masses of rock, known as the
-mountain-limestone, which stretch through Yorkshire and the central
-counties into Wales.
-
-In addition to the stone-lilies, the carboniferous rocks contain the
-remains of several other kinds of _Echinodermata_. Some of them find
-their nearest modern analogues among the sea-urchins so common on
-our shores; but I pass on to notice another very interesting class
-of fossils known by the name of _Crustacea_, and still abundantly
-represented, the crab and lobster being familiar examples.
-
-The Crustacea, so called from the hard crust or shell which envelops
-them, form, with all their orders and genera, a very numerous family.
-They are of interest to us as containing among their number some of
-the oldest forms of life. Away down in the lower Silurian rocks, among
-the most ancient fossiliferous strata, we find the crustacean with
-its armour of plates and its prominent sessile eyes set round with
-lenses, still visible on the stone. Thus, on the first page of the
-stony records of our planet's history are these primeval organisms
-engraved. In some localities, where oxide of iron is largely present,
-they are coated with a bright yellow efflorescence, and stand out
-from the dull grey stone like figures embossed in gold.[31] On all
-the subsequent leaves of this ancient chronicle, we can detect the
-remains of crustacean life, and many tribes still swarm in our seas
-and lakes. It is interesting, however, as marking the onward progress
-of creation, to notice that, though this great family has continued
-to live during all the successive geological ages, its members have
-ever been changing, the older types waning and dying out, while newer
-genera rose to supply for a time their place, and then passed away
-before the advance of other and yet later forms. The trilobites that
-meet us on the very verge of creation, swarmed by millions in the seas
-of the Silurian ages, diminished gradually during the era of the Old
-Red Sandstone, and seem to have died out altogether in the times of
-the Coal. In no ocean of the present day is a trace of any of their
-many genera to be seen. The _decapods_, of which our common crab is a
-typical form, began to be after the trilobites had died out. In all the
-subsequent eras they gradually increased in numbers, and at the present
-day they form the most abundant order of crustacean life. The history
-of these two divisions, to adopt Agassiz's mode of representation, may
-be illustrated by two long tapering bands like two attenuated pyramids.
-The one has its broad base resting upon the existing now, and thinning
-away into the past, till at last it comes to a point. At a little
-interval the apex of the other begins, and gradually swells outward as
-it recedes, till the wide base terminates at the first beginnings of
-life.
-
-[Footnote 31: Such is the aspect of the organisms in some of the
-Silurian sandstones near Girvan. I have seen the same bright tint
-on a set of fossils from the Llandeilo flags of Wales, and from the
-slates of Desertcreat, Ireland, and have disinterred similarly gilded
-shells from the vertical greywackè slates of the Pentland Hills and
-Peeblesshire. Nothing can be more beautiful than the aspect of these
-fossils when first laid open, but the bright gleam eventually passes
-away on exposure.]
-
-But there are also some orders that would be best illustrated by a
-long line of nearly uniform breadth, extending from the first geologic
-periods to the present day. In other words, they seem to have retained
-during all time pretty much the same amount of development. I shall
-confine my notice of the carboniferous Crustacea to the description of
-a single genus belonging to a family that seems to have begun during
-the period of the Lower Silurian, and still flourishes abundantly in
-existing waters.
-
-[Illustration: Fig. 20.
-
-  1. Carboniferous cypris, nat. size, and magnified.
-  2. Recent cypris, highly magnified.
-  3. Carboniferous king-crab (_Limulus trilobitoides_).
-]
-
-The genus to which I refer is a well-known fossil in some parts of
-the Coal-measure series, and has been named _Cypris_. The shells of
-_cyprides_ are very minute, considerably less than the heads of small
-pins (Fig. 20-1). They can be seen quite well, however, without the
-use of a magnifying power. In shape they resemble beans, and when seen
-scattered over a slab of shale, look much liker seeds than the relics
-of animal life. Yet, under this simple exterior, they concealed a
-somewhat complex organization. The little bean-shaped shells, which
-are all that now remains to us of their structure, formed the crust
-or outer shell in which their viscera were contained, and answered to
-the massive carapace and segments of the crab. They consisted of two
-valve-like cases fitting to each other, so as to resemble the united
-valves of a bivalve shell. From the upper end there were protruded
-through the opening between the valves a pair of slim jointed antennæ,
-each furnished at its point with a bundle of minute hair-like cilia
-(Fig. 20-2). These, when set in rapid motion, served to impel the
-creature through the water. The legs, four in number, were encrusted
-with the same hard membrane, and had the same jointed structure as
-those of our common shrimps and crabs. The foremost pair were pointed
-like the antennæ with fine hairs, the incessant action of which
-assisted the animal in swimming. Of the little, confluent, sessile
-eyes, the delicate branchia or gills, and all the complex internal
-structure of the nervous, circulating, and other systems, no trace
-has survived on the stone; but enough of the general external form is
-left to show us the true affinities of these organisms in the animated
-world of the present time. By studying the forms and habits of the
-cyprides that swarm in some of our ponds and marshes, a just conception
-is obtained of the structure and habitat of the animals that once
-occupied the minute bean-shaped shells, which lie by millions among the
-shales of the Carboniferous system. From such a comparison we infer,
-that just as the cyprides of to-day are fresh-water animals abounding
-among the green slime of stagnant pools, so, in past ages, they must
-have preserved with the same organization the same habits. And thus
-we arrive at the important conclusion that the strata in which the
-remains of cyprides abound must have been deposited in lakes or rivers.
-This gives us a key by which to interpret some of the changes of a
-geological system, and the ancient physical revolutions of large tracts
-of country.
-
-The shales of the coal-measures sometimes contain the cypris cases in
-such abundance as to derive therefrom a sort of fissile structure.
-It should be borne in mind, however, that each animal may during its
-lifetime have possessed in succession several of these cases. Among the
-shell-bearing molluscous animals, the little shell which contains the
-creature in its youngest stages remains ever after as an integral part
-of the outer calcareous case. As the inhabitant grows, it continues
-to add band after band to the outer edge of the shell, each of which,
-whilst preserving the general symmetry and proportions of the whole
-structure, increases its dimensions in every way. Among the univalves,
-such, for example, as the turritella, so common on our shores, the
-layers of growth succeed each other like the steps of one of those
-long spiral stairs that our feudal forefathers loved to build from
-the court-yard to the watch-tower of their castles. Each new layer
-exceeding in bulk its predecessors, adds a new step to the ascending
-pile, and thus the ever-widening mouth winds spirally upwards around
-the central pillar. The bivalves exemplify the same principle. The
-successive additions are made in a crescent form to the outer edges,
-and form those prominent concentric ridges so conspicuous on many of
-our commoner shells, such, for instance, as some of those in the genera
-_Astarte_ and _Venus_.
-
-But the architecture of the Crustacea (and, of course, that of the
-cyprides) is conducted on a very different principle. Their houses
-admit of no additions or enlargements, and so, when the animals find
-themselves getting somewhat straitened, they retire to a sheltered
-spot, and there, separating the walls that hem them in, crawl out like
-soft lumps of dough. The outer membrane of the moulted animal quickly
-acquires strength and hardness, and in a day or two the renovated
-creature is as healthy and vigorous as ever. In this process it is
-not merely an external shell, like that of a mollusc, which is thrown
-off, but a veritable skin, so that when the old shell is abandoned
-it frequently could not be detected on a first glance to be empty,
-the outer crust of every leg and joint, and sometimes even of thin
-bristles, remaining just as in the living animal.
-
-It is not unlikely that this process of moulting takes place annually
-in most of the Crustacea, so that if we suppose a fossil member of the
-group to have lived six years, it would have left six crusts to be
-entombed in any deposits that might be forming at the time. Of course
-there would be many chances against all the six being preserved, but
-the possibility of at least several of them becoming fossilized should
-be borne in mind when we speculate on the abundance of such organisms
-in any geological formation.
-
-I might refer to another very interesting group of crustacean animals
-known as the _Limuli_, or king-crabs, of which there were at least
-three representatives during the times of the English Carboniferous
-system (Fig. 20-3). They are remarkable chiefly for their large
-crescent-shaped shield, their long sword-like tail, and their double
-pair of eyes, of which the outer ones are large, sessile, and compound,
-like those of the trilobites, while the middle pair are small, simple,
-and set close together on the forehead, like those of the single-eyed
-Cyclops in the old mythology. Altogether, with their shields, swords,
-watchful waking eyes, strong massive armour, and great size (for some
-of them measure two feet in length), they form a most warlike genus.
-
-
-
-
-CHAPTER VI.
-
-  Carboniferous fauna continued--George Herbert's ode on
-       "Man"--His idea of creation--What nature teaches on
-       this subject--Molluscous animals--Range of species in
-       time proportionate to their distribution in space--Two
-       principles of renovation and decay exhibited alike in the
-       physical world and the world of life--Their effects--The
-       mollusca--Abundantly represented in the carboniferous
-       rocks--Pteropods--Brachiopods--Productus--Its alliance with
-       Spirifer--Spirifer--Terebratula--Lamellibranchs--Gastropods--
-       Land-snail of Nova Scotia--Cephalopods--Structure of orthoceras--
-       Habits of living nautilus.
-
-Holy George Herbert, in one of the most remarkable odes of the
-seventeenth century, sang quaintly, yet nobly, of the dignity of man.
-He looked into the design and nature of the human heart, and saw there
-a palace that had been built for the abode of the Eternal. Deserted
-though it might be, broken down and in ruins, yet there still lingered
-a trace of its ancient glory, and the whole material world still
-testified to its inherent greatness. He looked abroad on the face of
-nature, and saw, in all its objects and all its movements, a continued
-ministration to man.
-
-            "For us the windes do blow;
-    The earth doth rest, heav'n move, and fountains flow.
-        Nothing we see, but means our good,
-        As our delight, or as our treasure;
-    The whole is, either our cupboard of food,
-            Or cabinet of pleasure.
-
-            "The starres have us to bed;
-    Night draws the curtain, which the sunne withdraws;
-        Musick and light attend our head.
-        All things unto our flesh are kinde
-    In their descent and being; to our minde
-            In their ascent and cause."
-
-The idea is a very natural one, and is consequently as old as man
-himself. Human vanity is soothed by the reflection that all this varied
-world, with its countless beauties, has been designed and arrayed
-solely for the use of man. And yet, if we but think of it, such a view
-of creation, however natural and pleasing, is at the best but a narrow
-and selfish one. It assuredly finds no response in nature, and grows
-more and more out of fashion the further our investigations proceed.
-Nature teaches us that long ere man appeared upon the earth there were
-successive generations of living things just as now; that the sun
-shone, and the waves rolled, and the wind blew, as they do to-day; and
-that, on as lovely a planet as that whereon we dwell, there lay forests
-and prairies nursing in abundance animals of long-extinct forms; lakes
-and rivers, haunted by creatures that find no representatives now;
-and seas teeming with life, from the minute infusory up to the most
-unwieldy icthyosaur, or the most gigantic cetacean. And all this, too,
-ere a reasoning, intelligent being had been numbered among terrestrial
-creatures, and when, perhaps, each successive creation was witnessed
-by none save those "morning stars who sang together, and those sons
-of God who shouted for joy." The delight and comfort of the human
-race formed, doubtless, one of the many reasons why this globe was so
-bountifully garnished.[32] But the workmanship of a Being infinitely
-wise, and good, and powerful, could hardly have been other than
-complex and beautiful. That symmetry and grace which we see running
-as a silver thread through every part of creation, forms one of the
-characteristics of the Almighty's mode of working. From the Fountain
-of all Beauty nothing unseemly or deformed can proceed. And so we
-find, away back among the ages of the past, that, though the material
-world might be less complete, it was not less beautiful than now. Nay,
-those bygone millenniums stood higher in one respect, for the eye of
-God rested upon their unsullied glory, and he pronounced them very
-good; but these last ages of creation are dimmed and darkened, and
-that Eye now watches a world trodden down by the powers of evil. There
-is profound truth in the sublime allegory of Milton that represents
-Sin girt round with clamorous hell-hounds, and the two grisly forms
-sitting at the farthest verge of purity and light, to keep the gates of
-darkness and chaos. With the introduction of moral evil into our planet
-came the elements of deformity and confusion. The geologist can go back
-to a time ere yet the harmony of nature had been broken. The Christian
-looks forward to a day when that harmony shall be again restored, and
-when guilt with all its hideous train shall be for ever chased away
-from the abodes of the redeemed.
-
-[Footnote 32: In connexion with this subject I have been often struck
-with a passage in St. Paul's Epistle to the Colossians, i. 10, "All
-things were created by him [Christ] and for [εις--with a view to,
-on account of] him." It is probable that these words, in their full
-meaning, cannot be understood by us. Yet they seem to point to Christ
-as at once the Creator, and himself the acme and design of creation;
-and perhaps they may contain what hereafter shall prove the key to
-the mystery of creation. On this impressive and difficult subject the
-reader should refer to the closing chapter of Hugh Miller's _Footprints
-of the Creator_. See also M'Cosh on _Typical Forms_, 2d edit. p. 531.]
-
-Such thoughts as these sometimes arise in the mind of one who labours
-much among organic remains. By no class of fossils are they more
-vividly suggested than by those which we come next to examine--the
-various tribes of molluscous animals. This results from the high
-antiquity of these organisms, and the similarity of type which they
-have manifested in all ages. In the very earliest geological periods
-they exhibited the same symmetry of external form as now, the same
-beauty of structure, and apparently the same delicacy of colour. Nay,
-so closely did they resemble their existing congeners that we are
-seldom at a loss as to their affinities, and can refer them to their
-places in the scale of creation, and sometimes even to genera still
-living.[33]
-
-[Footnote 33: It must be admitted, however, that not a few of the
-identifications already made are somewhat suspicious The natural
-tendency is to perceive resemblances--a tendency which even the most
-rigid science sometimes fails to control.]
-
-The geological ages saw many strange types of creation. One era, in
-especial, furnished reptiles which united in their structure the snout
-of the porpoise, the head of the lizard, the teeth of the crocodile,
-the paddles of the whale, and the backbone of the fish. Some displayed
-the long pliant neck of the swan, and others careered through the
-air on wings like those of the bat. But the molluscous tribes have
-never exhibited such aberrant forms. The existing classes and orders
-of the naturalist are still the same as those which nourished during
-the successive geological periods. Hence their value as evidence of
-physical changes in the ancient world. Hence, too, the conviction,
-forced upon the mind of the observer, that the conditions for the
-support of life never deviated much from those now in operation; that
-in place of all the varied beauty of the world having arisen for the
-use of man, it existed millions of years ere the breath of life had
-been breathed into his nostrils; that in fine, man is but a new-comer,
-a creation of yesterday.
-
-There is another point suggested by the occurrence of mollusca in the
-Carboniferous system, to which it may be well to refer, namely, the
-curious, and as yet not wholly understood fact, that the range of
-animals in time is in some way proportionate to their range in space.
-In other words, it often happens (so often, indeed, as apparently to
-indicate a law) that the more widely diffused a genus is found to be
-at the present day, the farther back can we trace its remains into the
-geological ages. This fact probably depends upon causes, many of which
-are still unknown to us; but the following remarks may help the reader
-to a notion of the general bearings of the subject.[34]
-
-[Footnote 34: The law is more especially exemplified by the mollusca,
-but it may eventually be found to characterize other classes. We,
-perhaps, see traces of it in the present distribution of the two most
-ancient orders of icthyic life--the placoids and ganoids.]
-
-In the profounder recesses of the ocean, the temperature remains more
-or less uniform all over the globe.[35] In these undisturbed regions
-there occur, along with corals and other humble animals, many kinds of
-mollusca, such as terebratulæ, craniæ, scissurellæ, &c. These are very
-generally found not to be confined to one province or limited district,
-but to flourish in every sea from Hudson's Bay to Hindustan. One of
-the causes of this wide distribution is the uniformity of temperature
-that characterizes the depths in which they live. They can migrate
-from one ocean to another, from the torrid zone to the polar circle,
-without experiencing any destructive change in the thermal conditions
-of their element. And provided only they meet with no barrier in the
-form of a lofty submarine mountain chain or profound abyss, and can
-secure the requisite food in their journey, we know no reason why some
-of these shells may not thus extend themselves over wide areas. Of the
-two species of _rhynconella_ now living, one inhabits the depths of
-the icy sea, the other enjoys the warmer waters that lave New Zealand.
-The species, in this case, seem (for the fact cannot yet be accepted
-as fully proved) to occupy a more limited area, while the genus has a
-larger range.
-
-[Footnote 35: The stratum of constant temperature runs in a wave-like
-form from pole to pole. In the arctic and antarctic oceans it is found
-at a depth of 4500 feet, whence it slopes upwards so as to reach the
-surf ice at the temperate zone on both sides of the equator. It then
-gradually sinks down in the warmer regions, till at the equator it is
-7200 feet below the sea-level. There are thus one tropical and two
-polar basins separated by two wave-like circles, or, as a geologist
-would say, three synclinal troughs separated by two anticlinal ridges.]
-
-Now, a genus widely diffused, and capable of enduring great differences
-in the temperature and other conditions of the ocean, would probably
-suffer least from any great physical changes. If all the sea at one
-locality were converted into land, the genus would be driven into other
-districts, and thrive as abundantly as ever; or, even supposing that it
-should become locally extinct, it would still be abundantly represented
-in other oceans of the globe. In the course of many ages, after many
-such slow revolutions in the configuration of land and sea, the genus
-might perhaps become greatly reduced in numbers, until at length some
-final elevation of the sea-bed, or other change, might cause its total
-extinction. In the _rhynconella_, we perhaps see one of these genera in
-its last stage. Any great change in northern latitudes would probably
-destroy the arctic species, and a similar change around New Zealand
-might gradually extinguish the southern one.
-
-Looking, then, from this point of view into the past history of life
-upon our planet, we see that such extinctions have often taken place.
-At first, many of these widely-diffused genera were created. They
-were represented by a large number of species as well as individuals,
-and ranged over all the oceans of the globe; but in tracing out their
-history, we mark one species after another passing away. Some of them
-lived for but a comparatively short period; others came in with the
-beginning and saw out the end of an entire geological system; but of
-all these early species there is not now a single one extant, though
-some of the genera still inhabit our seas. It is plain, therefore,
-that but for the operation of another principle, all the genera, too,
-would ere this have become extinct, for the whole can contain no more
-than the sum of its parts; and if these parts are destroyed the whole
-must perish simultaneously. As the species of certain genera died out,
-however, their places were from time to time filled up with new ones,
-yet the rate of increase became ever less and less than the rate of
-decrease, so that the numbers of such genera grew fewer with every
-successive period, and have reached their minimum in existing seas.
-There are instances, however, in which this ratio was reversed, the
-list of added species continually outnumbering that of the extinct,
-till the genus reached its maximum, when it either continued at that
-stage till the present day, or began slowly to decline.
-
-In the physical world around us, we behold a perpetual strife between
-the two great principles of renovation and decay. Hills are insensibly
-crumbling into valleys; valleys are gradually cut down, and their
-debris transported to the sea. Our shores bear witness to the slow
-but ever onward march of the ocean, whether as shattered cliff's worn
-by the incessant lashing of the surge, or as sand-banks and submerged
-forests that represent the wolds and holms of our forefathers. We mark,
-too, how the sediment thus borne into the main is sowing
-
-    "The dust of continents to be;"
-
-while the slow elevation of large tracts of country, or the sudden
-upheaval of others, shows us by how powerful an agency the balance of
-land and sea is preserved, and how sometimes the paroxysm of an hour
-may effect a mightier change than the wasting and decay of a thousand
-years. We choose to call these two principles antagonistic, because in
-their effects they are entirely opposite; yet there is no discordance,
-no caprice in their operation. Each works out its end, and the result
-is the harmony and stability of the face of nature.
-
-In the world of life, too, there seems to have been a double principle
-of decline and renewal. The natural tendency of species and genera,
-like that of individuals, has been towards extinction. Why it should be
-so we know not, further than that they are for the most part influenced
-by every change in physical geography. But they probably obey a still
-higher law which governs their duration, as the laws of vitality govern
-the life of an individual If we are but slightly acquainted with the
-agency by which the degradation of land is counter-balanced, we are
-still more ignorant of the laws that preserve the balance of life.
-Creation is a mystery, and such it must for ever remain. So, too, are
-the principles on which it has been conducted. We can but mark their
-results. We see new species appear from time to time in the upward
-series of the geological formations, but they tell not whence they
-came. Of two genera created together at the beginning, one ere long
-died out, but the other still lives; yet here there is assuredly
-nought like discordance or caprice. Nay, these two principles--death
-and creation--have been in active operation all through the ages, and
-the result is that varied and exquisitely beautiful world wherein we
-dwell.
-
-The Mollusca are so named from the soft nature of their bodies, and are
-familiar to us as exemplified in the garden-snail and the shells of the
-sea-shore. The general type upon which they are constructed is that of
-an external muscular bag, either entire or divided into two, called
-the mantle, in which the viscera are contained. In most of the orders,
-they have likewise an outer hard calcareous shell, consisting of one or
-more parts. It is of course this shell alone that can be detected in
-the rocks, but by attending to the relations between the living animals
-and their shells, we ascertain the nature and affinities of the fossil
-species.
-
-Few who ramble by the sea-shore, gathering limpets, whelks, and
-cockles, are aware how complex an anatomy is concealed within one
-of those brown discoloured shells. There are elaborate nervous and
-muscular systems--sometimes several hearts with accompanying arteries
-and veins--often dozens of rudimentary eyes--capsules which perform
-the function of ears--jaws, teeth, a strongly armed tongue--gullet,
-gizzard, stomach, liver, intestine, and complete breathing apparatus.
-The structure and grouping of these parts vary in the different genera
-and orders, and upon such variations is founded the classification of
-the naturalist. Thus, the mollusca of the highest class are called
-the _Cephalopoda_, or _head-footed_, because their feet, or rather
-arms, are slung in a belt round the head. They contain, among their
-number, the cuttle-fish, with its curious internal bone that shadows
-forth, as it were, the coming of the vertebrate type; and the nautilus,
-with its many-decked vessel of pearl. The second class is termed the
-_Gastropoda_, or _belly-footed_, as the genera embraced under it
-creep on the under side of the body, which is expanded into a broad
-retractile foot. The common snail and whelk are familiar examples. The
-third class is formed by the _Pteropoda_, or _wing-footed_--delicate
-animals, found only in the open sea, and remarkable for a pair
-of wing-like expansions or fins on the sides of the mouth. The
-_Lamellibranchiata_ form the fourth class, and receive their name
-from the laminated form of their branchia, or gills. They contain the
-two-valved shells, such as the oyster and scallop, and are one of the
-most abundant groups of animals on our coasts. The fifth class consists
-of the _Brachiopoda_, or _arm-footed_ molluscs a name given to them
-from their long spiral arms, once thought to be the instruments of
-motion, but now ascertained only to assist in bringing the food to the
-mouth. The sixth, and humblest class, has received the designation of
-_Tunicata_, from the thick bladder-like tunic, or sac, which supplies
-the place of an outer shell.
-
-The geologist finds the remains of all these classes in the different
-rock-formations of the crust of the earth. They flourished so
-abundantly in the earliest seas, that the first geological period
-has sometimes been called the Age of Molluscs; and, during all the
-subsequent eras, they held a prominent place among the inhabitants of
-the deep. Let us look for a little at their development in the times of
-the Carboniferous system.
-
-As the Carboniferous group of rocks exhibits the remains of ocean-bed,
-lake-bottom, and land-surface, so we find in it shells of marine,
-fresh-water and (though rarely) terrestrial mollusca. The marine
-genera greatly predominate, just as the shells of the sea at the
-present day vastly outnumber those either of lakes or of the land. In
-England they occur chiefly in the lower part of the formation, giving a
-characteristic stamp to the deep series of beds known as the mountain
-limestone. There they are associated with the corals and stone-lilies
-already described--all productions of the sea. In Northumberland,
-however, and generally throughout Scotland, they occupy a somewhat
-different position. The great mountain limestone of central England
-gets split up into subdivisions as it proceeds northward, and beds of
-coal, full of land plants, become mingled with the ordinary marine
-strata. Sometimes we may find a group of brachiopods scattered over the
-macerated stem of a stigmaria; and the writer has himself collected a
-sigillaria in a limestone crowded with stone-lilies and _producti_.
-But this intermingling is still further carried on in the upper part
-of the series. The coal-beds, with their underclays and stigmaria
-rootlets, evidently representing ancient vegetation with the soils
-on which it grew, are succeeded by beds of limestone, full of marine
-mollusca; and these, again, are erelong replaced by sandstones,
-shales, and ironstones, charged with land-plants and fresh-water
-shells. To this curious blending of very different organic remains, I
-shall have occasion to refer more at large in a subsequent chapter. I
-mention it now as a sort of apology for the dryness of details which
-it is necessary to give, in order to complete our picture of the
-carboniferous fauna, and to understand the principles upon which the
-ancient history of the earth is deciphered.
-
-[Illustration: Fig. 21.]
-
-Of the _Pteropoda_, we have, as yet, but one carboniferous genus,
-the _conularia_ (Fig. 21). It was a slim delicate shell, in shape an
-oblong cone, having four sides, finely striated with a sort of zig-zag
-moulding like that of the Norman arch. Each of the four angles was
-traversed along its whole extent by a narrow gutter-like depression,
-and this style of fluting, combined with the markings on the sides,
-imparted no little elegance to the shell. The conularia is not a
-common fossil. It has been found among the coal-bearing strata of
-Coalbrook-Dale, and was noticed long ago by Dr. Ure in his _History of
-Rutherglen_.
-
-The _Brachiopoda_ are bivalve molluscs, but unlike most other molluscs
-they are rooted to one spot, and destitute of any power of locomotion.
-Their shells are unequal, the dorsal, or upper valve, being smaller
-and usually more bulged out than the under or ventral valve, which
-in most species is prolonged at its narrow end into a kind of beak.
-In the terebratula this beak has a little circular hole, from which
-there emerges a short peduncle or stalk, that fixes itself firmly to a
-rock or other substance at the sea-bottom, and serves the purpose of
-an anchor and cable to keep the little vessel safely moored. When the
-shells are detached, these perforated ventral valves have so exactly
-the form of the old Roman lamps, "that they were called _Lampades_,
-or lamp-shells, by the old naturalists."[36] Other species, as the
-_lingulæ_, have no beak, and the long peduncle passes out between the
-valves, which are of nearly equal size, and have been compared to the
-shape of a duck's bill. In yet another genus, the _crania_, there is
-no peduncle, but the animal adheres by its lower valve, much like
-the oyster, and may often be seen clustered in groups on decayed sea
-urchins or other organisms, particularly in the chalk formation.
-
-[Footnote 36: See the excellent _Manual of Mollusca_, by Woodward, p.
-209.]
-
-The internal structure of these animals is singularly beautiful. The
-inner surface of each valve is lined with a soft membranous substance,
-called the pallial lobe, the margin of which is set round with stiff
-hair-like bristles, that prevent the ingress of any foreign body likely
-to interfere with the play of the delicate filaments of the arms. These
-two soft lobes are furnished with veins, and supply the place of a
-breathing apparatus. The body of the animal occupies not quite a third
-part of the interior of its valves, and is situated at the narrow end.
-There are thus two distinct regions within the shell, separated from
-each other by a strong membrane, through the centre of which is the
-opening of the mouth. The smaller cavity next the hinge contains the
-viscera, and the outer larger one, the folded and ciliated arms. These
-arms form one of the most characteristic features of the brachiopods.
-They are two in number, and proceeding from the margin of the mouth,
-advance into the outer empty chamber of the shell, and return upon
-themselves in spiral curves and folds. They are fringed with slim,
-flat, narrow filaments, set along the arm like teeth along the back of
-a fine comb. Though called arms, these long ciliated appendages are
-rather enormously protruded lips. The vibratory action of the fringes
-causes currents to set inwards towards the mouth, which is placed at
-the inner end or base of the arms. To support these long convoluted
-arms, many of the genera are furnished with slender hoops of hard
-calcareous matter, which are hung from the dorsal valve, and are still
-found within the shells of some of the most ancient fossil brachiopods.
-
-The little visceral cavity contains the complex groups of muscles for
-opening and closing the valves, a simple stomach, a large granular
-liver, a short intestine, two hearts, and the centre of the nervous
-system. Without going into the details of these various structures,
-the reader will see that the brachiopoda are really a highly organized
-tribe; and I am thus particular in the enumeration, partly that he may
-the better understand the mechanism of the carboniferous shells of
-that type, and partly that he may mark how the oldest forms of life,
-those that meet us on the very threshold of animated existence, were
-not low in organization, but possessed an anatomy as complex as it was
-beautiful.
-
-Who that has ever wielded an enthusiastic hammer among the richly
-fossiliferous beds of the mountain limestone, does not remember with
-delight the hosts of delicately fluted shells that the labour of an
-hour could pile up before him? There was the striated productus,
-with its slim spines scattered over the stone. There, too, lay the
-spirifer with its broader plications, its toothed margin, and its
-deeply indented valve. Less common, and so more highly prized, was the
-slimly-ribbed rhynconella, with its sharp, prominent beak, or perhaps
-the smooth, thin terebratula, with its colour-bands not yet effaced.
-These were pleasant hours, and their memory must dwell gratefully
-among the recollections of one whose avocations immure him throughout
-well-nigh the livelong year amid the din and dust of town--the _fumum
-et opes strepitumque Romæ_.
-
-[Illustration: Fig. 22.--Productus giganteus.]
-
-In the _productus_ the dorsal valve is sometimes quite flat, while
-the ventral is prominently arched, and the shell resembles a little
-cup with a flat plate of the same diameter placed over it. Usually,
-however, both the valves are concavo-convex, or arched in the same
-direction like two saucers placed within each other. The exterior
-surface of each valve is differently ornamented in the various species.
-A very common style of sculpturing is by a set of fine hair-like
-longitudinal ribs, diverging more or less regularly from the hinge line
-to the outer margin. In some species these ribs are wider, and are
-furnished with little prominent scars. In others (as _P. punctatus_)
-a set of semicircular ridges runs round the shell, narrowing as they
-converge from the outer lips to the centre of the hinge line, and
-bearing each an irregular row of small scars or tubercules. Some of
-the species are very irregularly ornamented into a sort of wrinkled
-surface, in which the striæ seem, as it were, thrown over the valves in
-bundles at random.
-
-The productus was furnished with slender hollow spines, which rose up
-from the surface of either valve, chiefly, however, about the hinge. In
-_P. spinosus_ they were long and stout, like thin rush stalks, while in
-the smaller species they rather resembled stiff bristles. The use of
-these spines is not very well made out. As most of the producti appear
-to have been free, that is, without any peduncle fixing them to the
-sea-bottom, it has been conjectured that the spines, by sinking deep
-into the mud, may have served the place of a peduncle to moor the shell.
-
-As regards size, the productus is very variable. You may gather some
-species in the young form, not larger than peas, while others may
-reward your search, having a breadth of six or eight inches (_P.
-giganteus_). But however much they may vary in dimensions, they usually
-remain pretty constant in their abundance, being among the most common
-fossils of the mountain limestone, and even of some limestones in the
-true Coal-measures;[37] and that must be a poor stratum indeed which
-cannot yield you a bagful of producti.
-
-[Footnote 37: See the table given below in Chap. X.]
-
-The productus no longer ranks among living forms. It began during the
-times of the Upper Silurian system, lived all through the Old Red
-Sandstone, and attained its maximum of development in the seas of the
-Lower Carboniferous group. As the coal forests began to flourish, the
-productus seems to have waned; but it is still sometimes found in
-considerable numbers in the ironstones and limestones intercalated
-among the coal seams of northern England and central Scotland. In the
-period which succeeded the coal, that, namely, of the Permian, it seems
-to have died out altogether, at least no trace of its remains have as
-yet been detected in strata of a later age. But whilst it lived, the
-productus must have enjoyed a wide range of climate, for its valves
-have been found by thousands both in the old world and in the new. I
-have seen several that were brought from the hills of China, and they
-occur likewise in Thibet. Specimens have been brought, too, from the
-warm plains of Australia, and from the snows of Spitzbergen.
-
-In looking over the fossils that lie grouped along beds of the
-mountain limestone, there are two forms that we find almost invariably
-side by side--the productus and the spirifer. They seem to have
-begun life together, or rather, perhaps, the spirifer is somewhat
-the older brother. They voyaged through the same seas, and anchored
-themselves to the same ocean-bed, sometimes among mud and ooze, and
-often among bowers of corals and stone-lilies. They visited together
-the most distant parts of the world, from China to Chili, and from
-Hudson's Bay to New Zealand. I have sometimes laid open fragments of
-limestone where they lay thickly clustered as though they had ended
-a life of friendship by dying very lovingly together. But after all
-the varieties of the productus had died out, some species of the
-spirifer still lived on, and it was not until the period of the lias
-that they finally disappeared. I remember meeting with one of these
-latest spirifers in the course of a ramble in early morning along the
-shores of Pabba, one of the lone sea-girt islands of the Hebrides,
-where the Scottish secondary rocks are represented. The beach was
-formed of low shelving reefs of a dark-brown micaceous shale, richly
-charged with the characteristic fossils of the Lias--ammonites,
-belemnites, gryphææ, pectines, &c. In the course of the walk I came to
-a lighter coloured band, with many reddish-brown nodules of ironstone,
-but with no observable fossils. A search, however, of a few minutes
-disclosed a weathered specimen, near which a limpet had made good its
-resting-place; and this solitary specimen proved to be one of the last
-lingering spirifers (_S. Walcottii_). The form struck me at once as a
-familiar one, and recalled the fossils of the mountain limestone. It
-may seem a puerile fancy, but to one who had lately been working among
-palæozoic rocks, and remembered the history of the spirifer, there
-was something suggestive in the loneliness of the specimen. With the
-exception of one or two other organisms (as _rhynconella_), it was by
-far the most ancient form of the deposit. Its family had come into the
-world thousands of years before that of the large pinnæ that lay among
-the neighbouring shales, and perhaps millions of years before that of
-the gracefully curved ammonites. But the family was nearly extinct
-when these shales were being thrown down as sandy mud, and this wasted
-specimen, worn by the dash of the waves, seemed in its solitariness no
-inapt representative of an ancient genus that was passing away.
-
-The spirifer received its name from the two highly developed spiral
-processes in the interior of the shell attached to the dorsal valve.
-They were hard, like the substance of the shell, and sprang from
-near the hinge, each diverging outwards to near the border of the
-valve. They resembled two cork-screws, but the loops were much closer
-together. These coiled calcareous wires almost filled the hollow of the
-shell (Fig. 23), and ample support was thus afforded to the filamentous
-arms. In recent brachiopods, these arms do not always strictly follow
-the course of the calcareous loops. Among palæozoic genera the case may
-have been similar, so that the complex calcareous coil of the spirifer
-may not perhaps indicate a corresponding complexity of the arms. But
-none of the few recent forms exhibit anything like the coiled processes
-of the spirifer.
-
-The Carboniferous system of Great Britain and Ireland is stated to
-have yielded between fifty and sixty species of spirifers. Of course,
-in such a long list the gradations are sometimes very nice, and to an
-ordinary eye imperceptible, but there exist many marked differences
-notwithstanding. The general type of the spirifers is tolerably well
-defined. They had both valves arched outwards, not concavo-convex as
-in the productus. Their hinge-line, like that of the latter shell,
-ran in a straight line, and their dorsal valve was raised along its
-centre from hinge to outer margin, into a prominent ridge, while in the
-ventral valve there was a furrow exactly to correspond. Most of the
-species were traversed by sharp ribs radiating from the centre of the
-hinge-line like those on the surface of the common cockle. But some
-were quite smooth, retaining only the high lobe in the centre, such as
-_S. glaber_. In a noble specimen figured by M'Coy[38] under the name
-of _S. princeps_, the valves are covered with broad plaits that sweep
-gracefully outward from the centre of the hinge-line.
-
-[Footnote 38: _Carb. Limest. Foss. of Ireland_, pl. 21, fig. 1.]
-
-[Illustration: Fig. 23.--Spirifer hystericus. _b_, Interior of the
-same, showing the arrangement of the spiral arms.]
-
-The spirifers vary more in form than in external ornament. Some are
-triangular, others nearly semicircular, others long and attenuated. In
-some species (as the _S. glaber_), the central ridge is very prominent,
-taking up about a third of the entire area of the shell, and thus
-giving it a trilobed appearance. In others (as _S. symmetricus_) it is
-less marked, and bears a minor furrow down its centre; while in yet a
-third class (as in some specimens of _S. trigonalis_) the median fold
-scarcely rises above the ribs that are ranged on each side.
-
-These old shells probably anchored themselves to the sea-bottom by
-means of a thin peduncle, and lived by the vigorous action of those
-complex fringed arms, whose screw-like skeleton still occasionally
-remains, and which conveyed to the mouth the animal substances that
-served as food.
-
-[Illustration: Fig. 24.--Terebratula hastata.]
-
-I shall refer to but one other brachiopod of the carboniferous rocks,
-interesting both as one of the forms of life still living in our
-seas, and as exhibiting, after the lapse of such a vast interval, the
-form of the coloured bands which adorned it when alive. It is called
-_Terebratula hastata_; a slim delicate shell like its representatives
-of the present day, narrow at the beak, and bulging out towards the
-outer margin, which is slightly curved. The surface is smooth, and
-in the older specimens has numerous concentric layers of growth,
-especially marked near the margin. The stripes of colour radiate from
-the beak, outwards, and though the tint which once brightened them is
-no longer visible, it may be that the vessel of the little terebratula,
-which lay anchored perhaps fifty fathoms down, was well-nigh as
-gaily decked as a felucca of the Levant. But the existence of these
-colour-bands is not merely interesting; the geologist can turn it
-to account in investigating the physical conditions of an ancient
-ocean. The late Professor Edward Forbes, after a careful series of
-investigations in the Mediterranean, brought to light the fact, that
-below a depth of fifty fathoms shells are but dimly coloured, and hence
-he inferred, from the numerous coloured shells of the carboniferous
-limestone, that the ocean in which they lived was not much more than
-fifty fathoms deep.[39]
-
-[Footnote 39: Similar coloured bands are found even in the Lower
-Silurian, e.g., on turbo rupestris (Murchison's _Siluria_, p. 194), while
-on many of the carboniferous gastropods and lamellibranchiate bivalves,
-they are of frequent occurrence.]
-
-The _lamellibranchiate_ bivalve shells of the British Carboniferous
-system, so far as yet discovered, number about 300 species, belonging
-to genera some of which are still familiar to us. There were the
-_pectens_ or _scallops_, the _pinnas_ with their beards of byssus,
-the _cardiums_ or cockles, the _mytili_ and _modiolæ_ or mussels,
-all sea-shells. Then among the fresh-water bivalves we can detect
-several species of the unio or river mussel, that perhaps displayed
-valves as silvery in their lining as those of our own pearl-mussels.
-But with these well-known forms there co-existed some that no longer
-survive. Such was the _conocardium_, a curious form that looks like a
-_cardium_ cut through the middle, with a long slender tube added to
-the dismembered side (Fig. 25). The _aviculopecten_, a shell allied to
-our common scallop, and sometimes showing still its colour-bands (Fig.
-25), and the _cardinia_ or _anthracosia_, a small bivalve that abounds
-in the shales and ironstones of our coal-fields, along with nautili,
-producti, and conulariæ at Coalbrook Dale, and with a thin leaf-like
-lingula at Borrowstounness.
-
-[Illustration: Fig. 25.--Carboniferous Lamellibranchs.
-
-1. Aviculopecten sublobatus (showing colour-bands). 2. Conocardium
-aliformis.]
-
-The _Gastropods_ of the carboniferous rocks in the British Islands
-embrace from twenty-five to thirty genera, with upwards of 200
-species. Here, too, we can detect some forms that have not yet passed
-away. The _trochus_, so universally diffused over the globe at the
-present day, also lived in the palæozoic seas. Its companions, the
-_natica_, the _turritella_, and the _turbo_, likewise flourished in
-these ancient waters. Among the genera now extinct we may notice the
-_euomphalus_, with its whorls coiled in a flat discoidal form; and the
-_bellerophon_, with its simple coiled shell, resembling in general form
-the nautilus. The gastropods are numerously represented in our gardens
-and woods, by the various species of the snails, animals that have a
-most extensive distribution over the world, and number probably not
-much under two thousand species.
-
-[Illustration: Fig. 26.--Carboniferous Gastropods.
-
-1. Euomphalus peatangulatus. 2. Pleurotomaria carinata (showing
-colour-bands).]
-
-For a long time it was matter of surprise that no such land shells
-had ever been detected in the carboniferous rocks. Trees and forests
-had been turned up by the hundred, but never a trace was found of
-any air-breathing creature. From this fact, and from the enormous
-amount of vegetable matter preserved, it was once hastily inferred
-that the atmosphere of that ancient period must have been uncongenial
-to air-breathers; that, in short, it was a dense heated medium
-of noxious carbonic-acid gas, wrapt round the earth like a vast
-mephitic exhalation, favourable in the highest degree to the growth
-of vegetation, yet deadly as the air of Avernus to all terrestrial
-animals. But this notion, like most other bold deductions from merely
-negative evidence, has had to be abandoned, for traces of air-breathers
-have at last been found. Among these, not the least interesting is
-the shell of a _pupa_, a sort of land-snail, which Sir Charles Lyell
-detected, along with the bones of a small reptile, embedded in the
-heart of an upright sigillaria stem in the carboniferous rocks of Nova
-Scotia. Small as was the organism, the evidence furnished by it proved
-scarcely less valuable than if it had been a large mammal that might
-have afforded material for weeks of study. The similarity of the shell
-to existing forms, showed that the ancient carboniferous forests had
-at least one race of air-breathing creatures among their foliage, and
-that the atmosphere of the period could have differed in no material
-point from that of the present day, for as the snails breathe by lungs,
-and require, consequently, a continual supply of oxygen to support
-respiration, they could not have existed in an atmosphere charged with
-carbonic acid.
-
-[Illustration: Fig 27.--Carboniferous Cephalopods.
-
-1. Nautilus Koninckii. 2. Goniatites crenistria. 3. Orthoceras laterale
-(fragment).]
-
-The _Cephalopods_, or highest class of mollusca, are represented among
-the British carboniferous strata by seven genera. Of these the most
-characteristic is the _orthoceras_, so named from its shell being
-like a long straight horn. When the animal was young it inhabited a
-single-chambered shell like that of many of the gastropods, but as
-it increased in size and prolonged its shell in a straight line, it
-withdrew from the first occupied chamber. This was partitioned off by a
-thin wall called a _septum_, through the centre of which a tube ran to
-the narrow end of the shell (Fig. 27). As the creature grew, chamber
-after chamber was in this way formed, each of them quite air-tight, and
-traversed by the central tube. Suppose a graduated series of diminutive
-watch-glasses to be pierced by a long tapering glass-tube in such a
-way that they should have their convex faces towards the narrow end of
-the tube, and be arranged at short intervals, the smallest one placed
-near the point of the tube, and the largest a little below the wider
-end. Suppose, further, that this piece of mechanism were placed within
-another tube tapering to an obtuse point, and that the edges of the
-watch-glasses fitted tightly to the inner surface of this larger tube.
-Such would be a rough model of the structure of the orthoceras.
-
-The inner tube that traverses the centre of the chambers from end
-to end of the shell is called the _syphon_, but its uses are very
-problematical. At one time naturalists inclined to regard it as
-intended to be filled with fluid, which, by expanding the membrane
-of the tube, would compress the air in the chambers, and thus,
-increasing the specific gravity of the animal, enable it to sink to
-the bottom. In this way, by emptying or filling the syphonal tube,
-the orthoceras might have risen rapidly to the surface of the deep,
-or sunk as swiftly to the bottom. But this view, so pretty that one
-wishes it were confirmed, must be regarded as at least doubtful. The
-orthoceras more probably owed its power of progression to the action of
-a funnel connected with the breathing apparatus, whereby jets of water
-were squirted out that drove the shell rapidly along. The use of the
-air-tight chambers was, perhaps, to give buoyancy to the shell so as to
-make it nearly of the same specific gravity as water. Such a provision
-must have been amply needed, for Professor Owen mentions an orthoceras
-from Dumfries-shire that measured six feet in length, and similar
-gigantic specimens have been found in America. Unless the chambers in
-these shells had been air-tight, the animals that inhabited them would
-have been held down about as firmly to one spot as if they had been
-tied to a sheet-anchor. No mollusc could have possessed much locomotion
-with so ponderous a tail, six feet or more in length, to drag after it.
-But this inconvenience was obviated by the simple plan of having the
-chambers close, and filled with nitrogen or other gas evolved by the
-chemistry of the inmate. The shell, in this way, acquired no little
-buoyancy, and probably stood up like a church spire, the animal keeping
-close to the bottom to lie in wait for any hapless mollusc or trilobite
-that might chance to come in its way.
-
-The _nautilus_ (Fig. 27), which still lives in our seas, occurred
-likewise in those of the Carboniferous period. It was a coiled shell;
-in truth, just an orthoceras rolled up in one plane like a coil of
-watch-spring. An allied form, called the _goniatite_ (Fig. 27), had
-the margins of its septa of a zig-zag form, like the angles of the
-wall round a fortified town. When the thin outer coating of the
-shell is removed, the ends of these partition-walls are seen to form
-strongly-marked angulated sutures or joints, where they come in contact
-with the shell. Hence the name of the genus--_angled_ shell.
-
-All these animals were predaceous. They did not confine themselves to
-the lower forms of life, polyps and medusæ, nor even to the humbler
-tribes of their own sub-kingdom, but hesitated not to wage war with
-creatures greatly higher in the scale of creation than themselves, such
-as the smaller fishes. They swarmed in the palæozoic seas, and well
-merited the title of scavengers of the deep, that has been bestowed
-on the sharks of our own day. They seem to have performed a function
-now divided partly among the fishes and partly among the higher
-gastropodous molluscs. And accordingly we find that as these latter
-tribes increased, the orthoceratites, and goniatites, and ammonites
-waned. At the present day, of all the palæozoic cephalopods there
-remains but one--the nautilus[40]; a and so rare is it, that up to
-the year 1832, all sorts of fanciful notions existed as to its nature
-and functions. In fact, the nautilus was a sort of myth which any
-naturalist could dress up as he chose, much as the old poets used to
-picture the ship Argo. A specimen was at length procured and intrusted
-to the examination of Professor Owen, by whom its anatomy was studied,
-and afterwards philosophically described in an elaborate monograph.
-Then, for the first time, did geologists obtain a true notion of the
-nature of those siphonated shells, which lie grouped by hundreds in the
-palæozoic and secondary formations. Yet we still want an account of the
-habits of the nautilus. The older naturalists alleged that it could
-at pleasure rise to the surface or sink into the depths of the ocean;
-that it could spread out its fleshy arms and float across the waves or
-draw them in, capsize the little vessel, and so return to a creeping
-posture among the sea-weed at the bottom. These statements may to some
-extent be true, for the chambers of the nautilus shell must impart
-great buoyancy to it. But in the meantime the story of the sailing
-propensities of the animal is derived from a sort of mythic age, and
-must be viewed with some little suspicion. Until further observations
-are made, we shall neither fully understand the economy of the nautilus
-nor the habits of the cephalopods of the palæozoic seas. But the day
-is probably not far distant when such doubts will be set at rest, and
-we shall know whether the nautili and orthoceratites swam in argosies
-over the surface of the ocean, or, keeping ever at the bottom, left the
-waves to roll far above them, unvaried save perchance by some floating
-sea-weed or drifted tree.
-
-[Footnote 40: And perhaps even that is doubtful, for it is not unlikely
-that after all, the palæozoic nautili may belong in reality to another
-genus. Twenty years hence will probably see no little change on our
-present identifications.]
-
-
-
-
-CHAPTER VII.
-
-
-  Classification of the naturalist not always correspondent with
-       the order of nature--Incongruous grouping of animals
-       in the invertebrate division--Rudimentary skeleton
-       of the cephalopods--Introduction of the vertebrate
-       type into creation--Ichthyolites of the carboniferous
-       rocks--Their state of keeping--Classification of fossil
-       fishes--Placoids--Ichthyodorulites--Ganoids--Their structure
-       exemplified in the megalichthys and holoptychius--Cranium of
-       megalichthys--Its armature of scales--Microscopic structure of
-       a scale--Skeleton of megalichthys--History of the discovery
-       of the holoptychius--Confounded with megalichthys--External
-       ornament of holoptychius--Its jaws and teeth--Microscopic
-       structure of the teeth--Paucity of terrestrial fauna in coal
-       measures--Insect remains--Relics of reptiles--Concluding
-       summary of the characters of the carboniferous fauna--Results.
-
-The organic remains hitherto described belong to that large division
-of the animal kingdom instituted by Lamarck, to comprehend all those
-whose internal structure is supported by no vertebral column, and
-which are hence termed invertebrate. They are for the most part
-protected by a hard outer covering, or exo-skeleton, which assumes
-many different modifications. We have seen it in the calcareous
-cells of the little net-like fenestella, in the geometric cup of
-the stone-lily, in the double case of the cypris, and in the shells
-of the mollusca. But the order of nature does not always exactly
-correspond with the classification of the naturalist. His system
-must necessarily be precise, formal, and defined. One tribe ends off
-abruptly, and is immediately succeeded by another, with different
-functions and structure, and dignified with a separate name. But in
-the order of creation, such abrupt demarcations are few, for if they
-exist in the present economy, they can not unfrequently be filled up
-from the existences of the past. There is usually a shading off of
-one class into another, like the blending of the tints of sunset,
-and it often baffles all the skill of the profoundest anatomist, by
-drawing a distinct line, to pronounce where the one division actually
-ends and the other begins. Any name, therefore, which is intended to
-embrace a large section of the animal kingdom, must ever be more or
-less arbitrary. It will extend too far in one direction, and embrace
-organisms which might be classed in a different section. It will
-probably not extend far enough in another, and thus leave beyond its
-pale animals possessing strong affinities to the majority of those
-included under it. More especially is this true of every system of
-classification that proceeds upon the modifications of a single
-feature, or upon mere negative resemblances. Suppose, for instance,
-that it were proposed by some highly systematic individual to divide
-the inhabitants of our country into two great classes--the bearded
-and the beardless. In the latter category he would arrange all the
-more quiet and orderly portion of the community, with perchance a
-tolerable intermixture of rogues. The bearded group would present a
-most motley array--from the fierce-visaged heroes of the Crimea to the
-peaceable stone-mason or begrimed pitman--all brought into one list,
-and yet agreeing in no single feature save that of being like Bully
-Bottom the weaver, "marvellous hairy about the face." But Lamarck's
-invertebrate division of the animal kingdom presents a grouping of yet
-more diverse characteristics, as cannot fail to be confessed when we
-recollect that it embraces among its members the microscopic monad,
-the coral polyp, the lobster, the butterfly, the limpet, the nautilus,
-and the cuttle-fish. Cuvier's three-fold grouping of the division
-into _mollusca_, _articulata_, and _radiata_, has now supplanted the
-old name, though the latter is still retained as a sort of convenient
-designation for all the animals below the vertebrate type.
-
-The most highly developed of the recent cephalopods exhibit a true
-internal skeleton, in the form of a strong oblong bone, on which the
-body is hung. In this respect they occupy a sort of intermediate place
-between the lower molluscs on the one hand, and the lower fishes on
-the other. Theirs is not a vertebral column, but rather, as it were,
-a foreshadowing of it; not, however, as a link in some process of
-self-development from mollusc to fish, for these higher cephalopods do
-not appear to have been created until fishes and reptiles had lived
-for ages. The vertebrate type has been traced well-nigh as far back
-into the past as we have yet been able to penetrate. Once introduced,
-it has never ceased to exist, but in the successive geological ages
-has been ever receiving newer and higher modifications, reaching its
-perfection at length in man. The vertebrate form of structure fulfils
-the highest adaptations of which terrestrial beings seem capable. We
-can hardly conceive of corporeal existence reaching a more elevated
-stage of development, save in thereby becoming less material, and
-receiving an impartation of some higher element. The vertebrate
-animals display not merely the most complexly organized structures,
-but manifest in their habits the workings of the higher instincts
-and affections. Among the invertebrate tribes the propagation of the
-species is, in the vast majority of cases, a mere mechanical function,
-like that of feeding or respiration, and the eggs once deposited, the
-parent has no further care of her young. But among the vertebrated
-animals, on the other hand, the perpetuation of the race forms the
-central pillar round which the natural affections are entwined. It
-parcels out every species into pairs, in each of which the mates are
-bound together by the strongest ties of attachment. It gives birth,
-too, to that noble instinct which leads the mother to expose her own
-life rather than suffer harm to come to her offspring. It produces, at
-least in man, that reciprocal attachment of offspring to parent, from
-which springs no small part of all that is holiest and best in this
-world. These attributes, to a greater or less extent, belong to all
-the vertebrate animals, from the fish up to man. In looking over the
-relics of animal life in the earlier geological formations, we are apt,
-as we gaze on the massive jaws and teeth, the strong bony armour, and
-the sharp, barbed spines, to think only of a time of war and carnage,
-when the larger forms preyed upon the smaller, or ruthlessly sought
-to exterminate each other. Yet should we not remember, that with all
-these weapons and instincts of self-preservation there were linked
-attributes of a nobler kind; that the earliest vertebrate remains point
-to the introduction--though perhaps in but a rudimentary form--of
-self-sacrificing love into our planet? The march of creation from
-the first dawn of life has ever been an onward one, as regards the
-development not only of organic structure but of the social relations;
-and if it be true that physical organization finds its archetype in
-man, it is assuredly no less so that in him too we meet with the
-highest manifestation of those instincts which, by linking individual
-to individual, have ever marked out the vertebrate tribes of animals
-from the more machine-like characteristics of the invertebrate.
-
-We pass now to the vertebrate animals, and shall look for a little into
-the general grade and organization of the fishes that characterized the
-carboniferous rivers and seas.
-
-A collection of the ichthyolites of the carboniferous rocks presents
-almost every variety in the mode of preservation. The smaller species
-are frequently found entire, and show their shining scales still
-regularly imbricated as when the creatures were alive. The larger forms
-seldom occur in other than a very fragmentary condition. The limestones
-yield dark-brown or black, oblong, leech-like teeth, which are found
-on examination to be those of an ancient family of sharks. The shales
-are often sprinkled over with glittering scales and enamelled bones.
-Some of the coals and ironstones yield in abundance long sculptured
-spines, huge jaws bristling with sharp conical teeth, and detached
-tusks, sometimes five or six inches long. In short, the naturalist who
-would decipher the ichthyology of the Coal formation, finds before
-him, in the rocks, not a suite of correctly arranged, and carefully
-preserved skeletons, but a set of disjointed, unconnected bones; here
-a tooth, there a scale, now a jaw, now a dermal plate, all mingled at
-random. And yet, though the evidence lie in this fragmentary state, our
-knowledge of these ancient fishes is far from being correspondingly
-meagre. To such precision has the science of comparative anatomy
-arrived, that a mere scale or tooth is often enough to indicate the
-nature and functions of the individual to which it belonged, and to
-establish the existence in former times of a particular class or order
-of animals. Thus the smooth rounded teeth of the mountain limestone are
-found to present both externally and internally a close resemblance to
-the hinder flat teeth of the sole living cestraciont (_C. Philippi_);
-and we hence learn that a family of sharks, now all but extinct,
-abounded in the palæozoic seas. The occurrence of a set of dark,
-rounded little objects, which by the unpractised eye would be apt to be
-mistaken for pebbles, is in this way sufficient at once to augment our
-knowledge of the various animals of the Carboniferous period, and to
-establish an important fact in the history of creation.
-
-Of the four great Orders into which Agassiz[41] subdivided the class
-_Pisces_, the Placoids and Ganoids, agreeing on the whole with the
-cartilaginous fishes of Cuvier, occur abundantly in the palæozoic
-rocks, while the Cycloids and Ctenoids, answering to Cuvier's
-osseous fishes, began in the Secondary formations, and are found in
-all subsequent deposits. The two former reached their maximum in the
-earlier geological ages, and have been gradually dwindling down ever
-since, till now they are represented by comparatively few genera; the
-two latter are emphatically modern orders; they have been constantly
-increasing in numbers since their creation, and swarm in every sea at
-the present day. The carboniferous ichthyolites belong, of course, only
-to the two first-mentioned orders the placoids and ganoids.
-
-[Footnote 41: The classification of Agassiz, which is certainly not
-a little arbitrary and artificial, has been altered by Müller, a
-distinguished German anatomist, whose arrangement has been modified
-again by Professor Owen. See Owen's _Lectures on Comparative Anatomy_,
-vol. ii. p. 47. There is far from anything like unanimity on the
-subject. Every naturalist thinks himself at liberty to modify and
-restrict the groupings of his predecessors or contemporaries, sometimes
-without condescending to give synonyms or any clue by which one may
-compare the rival classifications. The geological student cannot engage
-in a more sickening task than that of ranging through these various
-arrangements, and he must possess some self-command who can refrain
-from throwing up the search in disgust. The best way of progressing is
-to select some standard work and keep to it, until the characteristics
-of the genera and families have been mastered, and as far as possible,
-verified from actual observation. After such preliminary training, the
-student will be more able to grope his way through the "chaos and dark
-night" of synonyms and systems.]
-
-The Placoid, or _Plagiostome_ fishes, are familiar to us all as
-exemplified in the common thornback and skate of our markets. They are
-covered with a tough skin, which either supports a set of tuberculed
-plates as in the thornback, or a thick crop of small rounded bony
-points or plates, as in the shagreen of the sharks. The head consists
-of a single cartilaginous box. The spinal column is likewise formed
-of cartilage, built up in the higher genera of partially ossified
-vertebræ. The tail is heterocercal or unequally lobed, inasmuch as
-the spinal column, instead of ending off abruptly as it does in the
-herring, trout, and all our commoner fishes, passes on to the extreme
-point of the upper half of the tail. This is a noticeable feature, for
-it has been found to characterize all the fishes that lived in the
-earlier geological periods. The fins are often strengthened by strong
-spines of bone, which stand up in front of them and serve the double
-purpose of organs of progression and weapons of defence. The teeth vary
-a good deal in form. In the larger number of existing placoids they
-are of a sharp cutting shape, often with saw-like edges. Among the
-sharks they run along the jaws in numerous rows, of which, however,
-only the outer one is used, those behind lying in reserve to fill up
-the successive gaps in the front rank. The teeth do not sink into the
-jaw, as in the ganoids, but are merely bound together by the tough
-integument which forms the lips. Another form of tooth, abundant among
-the ancient placoids, and visible on some of those at the present
-day, shows a smooth rounded surface, the teeth being closely grouped
-together into a sort of tessellated pavement which, in the recent
-species, runs round the inner part of the jaws, while a row of conical
-teeth guards the entrance of the mouth.
-
-[Illustration: Fig. 28.--Ctenacanthus hybodoides. (Edgerton.)]
-
-The animals which possess these characteristics include the various
-tribes of the sharks and rays, and form the highest group of fishes.
-They are all active and predaceous, frequenting every part of the ocean
-where their prey is to be found. The formidable spines and hideous
-"chasm of teeth" belonging to the bulkier forms, render them more than
-a match for any other denizens of the deep, and thus they reign in
-undisputed supremacy--the scourge of their congeners, and a terror to
-man.
-
-The seas of the Carboniferous era abounded with similar predaceous
-fishes, some of which must have been of enormous size. An entire
-specimen has never been obtained; nor, from the destructible nature
-of the animal framework, can we expect to meet with one. But the hard
-bony parts of the animals, those capable in short of preservation
-in mineral accumulations, are of common occurrence in the mountain
-limestone beds and even among the coal seams. The dorsal spines or
-_ichthyodorulites_, are especially conspicuous (Fig. 28). They stood
-up along the creature's back like masts, the fin which was attached to
-the hinder margin of each, representing the sail. The spine could be
-raised or depressed at pleasure, its movements regulating those of the
-fin, much as the raising or lowering of the mast in a boat influences
-the lug-sail that is attached to it. The general form of these spines
-was long, tapering, and more or less rounded. But they assumed many
-varieties of surface ornament. Some species were ribbed longitudinally,
-and had along their posterior concave side a set of little hooks
-somewhat like the thorns of a rose. Others seem to have been quite
-smooth, and of a flattened shape, with a thick-set row of sharp hooks
-down both of the edges, like the spine on the tail of the sting-ray
-of the Mediterranean. Such weapons have considerable resemblance to
-the barbed spear-heads of savage tribes, and it is certain they were
-intended to act in a similar way, as at once offensive and defensive
-arms. The toothed spines of the sting-rays are still used in some
-parts of the world to point the warrior's spear and arrow. Is there
-not something suggestive in the fact that these stings, after having
-accomplished their appointed purpose as weapons of war in the great
-deep, should come to be employed over again in a like capacity on the
-land; and that an instrument, which was designed by the Creator as a
-means of protecting its possessor, should be turned by man into an
-implement for gratifying his cupidity and satiating his revenge? Other
-ichthyodorulites are elegantly ornamented by long rows of tuberculed
-lines arranged in a zig-zag fashion, or in straight rows tapering from
-base to point. In all there was a blunt unornamented base, which sank
-into the back and served as a point of attachment for the muscles
-employed in raising or depressing the spine. In some specimens the
-outer point appears rounded and worn, the characteristic ornament being
-effaced for some distance--a circumstance which probably indicates that
-these fishes frequented the more rocky parts of the sea.[42]
-
-[Footnote 42: See Egerton, _Quart. Jour. Geol. Soc._, vol. ix. p. 281.]
-
-The placoid teeth of the carboniferous rocks show the usual forms
-of the order. Some of them are sharp and pointed, as those of the
-hybodonts; others have a smooth, rounded, or plate-like form, as in the
-cestracionts. The latter often show a dark brilliant surface, and might
-be readily enough mistaken for well-worn pebbles. In the oblong rounded
-teeth of _psammodus_ the surface is densely covered with minute points
-like grains of sand, whence the name of the genus. These teeth, when
-sliced and viewed under the microscope by transmitted light, exhibit a
-complex reticulated internal structure.
-
-Agassiz' second great Order of fishes is named Ganoid, from a Greek
-word signifying brightness, in allusion to the brightly enamelled
-surface of their dermal covering. They differ from the placoids in
-having their outer surface cased in a strong armature of bone, which
-is disposed either in the form of large overlapping plates, as among
-the strange tortoise-like fishes of the Old Red Sandstone, or as thick
-scales, which are either placed at intervals, as along the back and
-sides of the sturgeon, or closely imbricated, as in the stony-gar
-(_lepidosteus_) of the American rivers. This strong, massive skeleton
-constitutes in many genera the sole support of the animal framework,
-the inner skeleton being of a gristly cartilaginous kind, like that
-of the skate. On this account traces of the vertebral column are by
-no means abundant among the older formations. But as the ganoids form
-a sort of intermediate link between the placoid or gristly fishes
-on the one hand, and the bony fishes on the other, they are found
-to present in their different genera examples of both these kinds
-of structure. Thus, the skeleton of the sturgeon consists of a firm
-cartilage, out of which the vertebræ are moulded, so that this fish
-was at one time ranked with the sharks in the cartilaginous tribe of
-Cuvier. The skeletons of some of the older ganoids (as _holoptychius_),
-on the other hand, manifest such a decidedly osseous structure, with
-sometimes so much of a reptilian cast, that the bones were at first
-referred to some huge extinct saurians. The head of the ganoid fishes
-is encased in a set of large massive plates of bone, and the jaws
-are furnished with several rows of small sharp teeth, intermingled
-with a less numerous but larger-sized and more formidable kind. The
-interior of the mouth likewise displayed in many ancient genera groups
-of palatal teeth, so that the dental apparatus of these animals
-must have been very complex and complete. The tail in all the older
-ganoids was heterocercal, like that of the sharks, the lobes being
-not unfrequently densely covered with minute overlapping scales of
-bone--a peculiarity which also extended to the fins. But the fins
-were sometimes strengthened in another way by having the foremost ray
-greatly thickened and enlarged, so as to form a stiff spine like the
-ichthyodorulites of the placoids. The whole of the external surface
-of these ganoidal fishes glittered with enamel, and was usually
-sculptured in the most graceful patterns or ornamented with fine
-lines and punctures so minute as to be almost invisible to the naked
-eye. Every plate, scale, fin-ray, nay, the very lips exhibited the
-characteristic enamel mottled over with the style of ornament peculiar
-to the species. And when we think we have exhausted the contemplation
-of these beauties, it needs but a glance through an ordinary microscope
-to assure us that the unassisted eye catches only a superficial glimpse
-of them. The more highly we magnify any portion of these old-world
-mummies, the more exquisite does its structure appear.
-
-In the carboniferous rocks of Great Britain, upwards of forty species
-of ganoids have been detected. They have a wide range in size, the
-smallest measuring scarce two or three inches, while the largest, to
-judge at least from the bones which they have left behind, must have
-reached a length of twenty, or perhaps even thirty feet The lesser
-genera (Fig. 29) were characterized by small, angular, glossy scales,
-usually ornamented either with a very minute punctulation, or with
-fine hair-like lines which sometimes exhibited the most complicated
-patterns. The scales were likewise occasionally serrated along the
-exposed edges--a style of ornament which gives no little richness to
-the aspect of the dermal covering. The fins, closely imbricated with
-small angular scales of bone, sometimes displayed a striated ray in
-front, but this neither possessed the strength nor the formidable
-aspect of the corresponding spine among the placoids. The head was
-encased in a set of bony plates fitting tightly into each other, and
-ornamented with various patterns according to the species. The teeth
-were very small and fine, resembling the bristles of a brush, but in
-at least some species intermingled with teeth of a larger size. The
-minute style of dentition in these smaller fishes has been thought to
-indicate their habit of keeping to the bottom of the water and feeding
-on the soft decaying substances lying there. Nowhere have I seen the
-small rhomboidal scales of the _palæoniscus_ so abundant as among dark
-shales charged with cypris cases and fragments of terrestrial plants,
-and on such occasions the idea has often occurred that these graceful
-little fishes, like the _amia_ of the American rivers, may have fed on
-the cyprides that swarmed along the bottom of the estuary.
-
-[Illustration: Fig. 29.--Amblypterus macropterus (a Carboniferous
-ganoid).]
-
-Scattered over the fresh-water limestones, ironstones, and shales, or
-crowded together along the upper surface of some of the coal-seams,
-there occur the remains of two very remarkable ganoidal fishes. They
-deserve our attention for their great size, their complex organization,
-and the important place in the scale of animal life which they occupied
-during a former period. One of them has been called _megalichthys_
-or _great fish_--an unhappy name, since the animal did not reach the
-dimensions attained by not a few of the other ganoids, and was even
-surpassed by at least one of its contemporary congeners. The other
-is known as the _holoptychius_ or _wrinkled scale_. A more detailed
-examination of these two animals will perhaps best enable us to
-understand the character of the ganoid fishes that lived in the waters
-of the Carboniferous period.
-
-The megalichthys had an average length of about three feet. Like
-the other members of the ganoid order it had a glittering exterior,
-every scale and plate being formed of strong bone, and coated with a
-bright layer of enamel. Wherever this polished surface extends, it is
-found to be ornamented with a minute punctulation, the pores of which
-lie thickly together like the finer dots of a stippled engraving.
-The cranial plates are further varied by a scattered and irregular
-series of larger punctures that look as if they had been formed by the
-insertion of a pin-point into a soft yielding surface. The examination
-of the head of the megalichthys as depicted in Fig. 30, will convey an
-adequate conception of the structure of a ganoidal cranium.
-
-[Illustration: Fig. 30.--Head of Megalichthys Hibberti, one-sixth of
-natural size (Agass. _Poiss. Foss._ Tab. 63).
-
-A Upper side. B. Under side. C Profile.]
-
-The snout is formed of an elegantly curved bone (_c_) fringed along
-its under edge with minute thick-set teeth. On either side it is
-flanked by two triangular plates, which occupy the space between the
-intermaxillary bone (_c_) and the upper jaws (_q q_). The eye orbits
-seem to have been at the corners of the intermaxillary, circumscribed
-by the sub-orbitals (_f g h_) and the ethmoids (_b_). The massive
-intermaxillary bone had its posterior margin of an angular form, and
-into the notch thus formed there was wedged the anterior end of a long
-strip of plates, which expanded as they approached the occipital part
-of the cranium, and terminated in three irregular plates that may
-represent the place of the parietal and occipital bones. The space
-between this belt and the upper jaws was occupied by three large plates
-(_i k l_) which in other ganoids, as the _osteolepis_ of the Old Red
-Sandstone, were united into a single pre-opercular bone of considerable
-size. The operculum or gill cover (_m_) was relatively large, and
-had an elegantly curved anterior margin. The upper jaws (_q_) were
-comparatively small, and had a fringe of small conical teeth. The under
-jaws (_r r_) reached to nearly double the length of the upper, and were
-similarly set round with teeth. The teeth of the megalichthys, like
-those of the living lepidosteus, consisted of two kinds, of which the
-one bristled thickly along the outer edge of the jaw as sharp minute
-points, averaging about a line in length, while behind this outer row
-lay a scattered series of much larger teeth that sometimes rose nearly
-an inch above the jaw. The external surface of these more formidable
-tusks is smooth, glittering, and minutely striated with fine lines from
-base to point, while the root of each is farther marked by a circle of
-short, deep, longitudinal furrows. The internal structure displays a
-close ivory, which when viewed under a microscope is seen to be made up
-of fine tubes radiating from the outer surface to the hollow central
-cavity. Some of the bones in the interior of the mouth seem to have
-been also furnished with an apparatus of teeth. The under surface of
-the cranium between the arch of the under jaws consists of two oblong
-central plates (_t_) surrounded by a row of sixteen irregular ones,
-eight on each side, and terminated in front by a large lozenge-shaped
-scale (_u_) which fits into their angle of junction on the one side,
-and into the symphysis of the jaws on the other. In the osteolepis
-there were likewise two large plates terminating in a similar
-lozenge-shaped one, but without the flanking rows. In the famous Old
-Red holoptychius of Clashbennie, the under surface of the head had
-but two plates, and in the still older and more gigantic asterolepis,
-there was but one. It is the delightful task of the paleontologist
-to compare and contrast these various pieces of mechanism, to mark
-how what seems lacking in one comes to be supplied in another, and to
-trace out the various modes in which, during the ages of the past,
-Nature has wrought out the same leading plan, sounding, as it were, an
-ever-changing series of modulations upon one key-note. In comparing
-together the ganoids of the Old Red Sandstone and the Carboniferous
-rocks, he finds that in the asterolepis--a fish belonging to the lower
-part of the former formation--the pointed arch formed by the sweep of
-the lower jaws is filled up by a single plate like some abbey-window
-with its mullions knocked away, and built up with rude stone and lime.
-Higher in the same group of rocks he meets with the cranium of the
-holoptychius, where there is one straight central mullion running
-in an unbroken line from the angle of the arch to its base. In the
-osteolepis[43] he sees this mullion branching into two at its upper
-end, so that the window consists of three divisions, as in the simplest
-style of Gothic. Passing upwards into the Carboniferous system, he
-encounters a still more ornate arrangement in the cranium of the
-megalichthys. The central mullion with its two upper branches still
-remains, but it is flanked by an additional one on each side, from
-which there spring six cross bars that diverge obliquely with a slight
-curve, so as to join the outer arch and subdivide the window into
-nineteen compartments. So varied are the plans of the Divine Architect
-in what to man may seem such a little matter as the piecing together of
-a fish's skull.
-
-[Footnote 43: Hugh Miller's _Footprints of the Creator_, p. 91.]
-
-The body of the megalichthys was cased in an armature of as solid and
-glittering bone as that which defended its head. Where the plates of
-the cranium ended off they were succeeded by large rhomboidal scales
-that crossed the body obliquely, and overlapped each other like the
-metal plates in the antique scale-armour. Each scale consisted of
-two parts, of which one had a rhomboid form and was covered over with
-enamel, while the other ran round the two inner sides of the rhomb
-as a broad unenamelled selvage deeply indented along its centre. It
-was the enamelled portion alone that formed the outer surface, the
-rough unpolished border being covered by the overlapping edges of
-the adjoining scales. The scales had not a uniform thickness, but
-were strongest at the covered part from which each thinned off to
-the outer edges. In this way the thin edge of one scale pressed down
-on the thick part of the subjacent one, and a covering of uniform
-strength and smoothness was produced. Looking at a set of these scales
-as they still occupy their original position on the creature's body,
-it is scarcely more than a half of each which meets our eye; for the
-unenamelled border occupied about a third of the entire surface, and
-a fourth of the remainder was covered by the overlapping scales. The
-effect of this arrangement must have been to combine great strength
-with the most perfect flexibility. Notwithstanding the bulk of his
-helmet and the weight of his scale-armour, we cannot conceive the
-megalichthys to have been other than a lithe, active, predaceous fish,
-dealing death and destruction among the herring-like shoals of little
-palæonisci and amblypteri, though able to maintain perhaps but a
-doubtful warfare with his more bulky contemporary, the holoptychius.
-The internal structure of the scales of the megalichthys exhibits the
-same provision for combining strength with the least possible amount
-of material. Viewed in a transverse section under a magnifying power
-of about eight diameters, they are seen to consist of three layers of
-bone; each possessing a peculiar structure. The outermost is formed
-of a tessellated pavement of minute round ocelli, having a fine brown
-colour, and placed close together with considerable regularity. They
-somewhat resemble little wheels, the axle being either a dark solid
-nucleus or a small circular aperture, whence there radiates to the
-outer rim a set of exceedingly minute fibres which were originally
-hollow, and served as canals to carry on the growth of the scale. The
-vacant space left where four wheels impinge on each other, forms one
-of the pores that cover the enamelled surface of the scale. The whole
-structure of this outer layer very closely resembles that presented by
-the internal part of the base of the teeth, save that the confluent
-lobes shown in the teeth become in the scale detached into separate and
-independent circles. The central stratum of each scale is composed of
-a loose open network of cancellated bone that passes into the layer on
-either side, and resembles in its general texture the osseous vertebræ
-of the same fish. The under layer, one end of which rested immediately
-on the skin, approaches more to the firmness and solidity of the outer
-one, but, in place of a tessellated, ivory-like pavement, it had a
-close fibrous texture, with here and there a scattered cavity, and the
-fibres were matted together so as to resemble the more solid structure
-of the cranial bones. The effect of this triple arrangement must have
-been to impart great strength and lightness to the external armature
-of the fish; the middle spongy layer serving, by its porosity, at once
-to deaden the effect of any blow aimed at the outside, and to give
-buoyancy and lightness to what would otherwise have been a coat of
-mail well-nigh, as ponderous as that of a feudal chief. One can hardly
-conceive any implement of warfare in use among the lower animals of
-strength enough to pierce this massive covering. But we shall find
-as we go on that if the megalichthys had a strong defensive armour,
-a bulkier neighbour had a still stronger offensive one, and that the
-enamelled plates of the one fish were scarcely a match for the huge
-pointed tusks of the other.
-
-The megalichthys had an osseous skeleton, with vertebræ of a discoidal
-form. These internal bones when viewed under the microscope are found
-to display an open cancellated structure, resembling that of the
-central layer in the scales. It thus appears that this ancient fish
-was not merely defended by a hard external armour, but possessed an
-equally solid framework of bone within.
-
-Mingled with the scales and bones of the megalichthys, there are found
-the remains of a still larger fish, to which the name of Holoptychius
-has been given. Its external ornament differed entirely from that of
-the animal last described. It possessed teeth sometimes six or seven
-times larger, and jaws, plates, and bones of a form and dimensions
-totally distinct. Strange as it may seem, however, these two fishes
-have been constantly and systematically confounded from the time when
-they were first discovered. Two or three years ago, there might be
-seen in the British Museum several specimens of the holoptychius,
-of which some bore the correct name, while the rest were labelled
-"Megalichthys;" and a similar error prevailed in several of the other
-museums.[44] The confusion can be traced very distinctly in the memoir
-of Dr. Hibbert, who for the first time described the remains of these
-fishes, and wrote according to information received from Agassiz.
-
-[Footnote 44: The mistake was noticed in 1845 by Hugh Miller, who, in a
-foot-note to his _First Impressions of England and its People_, p. 71,
-well defines the distinctions between the two ichthyolites.]
-
-In the autumn of 1832, the attention of the scientific public of
-Edinburgh was directed to the extraordinary character of some fossil
-remains obtained from the lime-quarries of Burdiehouse, a village about
-four miles to the south of the town. Dr. Hibbert visited the locality,
-and soon saw enough to excite his lively interest in its thorough
-investigation. The Royal Society of Edinburgh warmly supported his
-exertions, and by their means a large suite of specimens was eventually
-obtained, which the Doctor from time to time described as they were
-successively received. At the meeting[45] of the British Association in
-Edinburgh, in 1834, the specimens were exhibited before the Geological
-Section, and a memoir upon them read by their successful discoverer.
-On the conclusion of the paper, a lively discussion ensued upon the
-nature of the animal to which the scales and teeth had belonged.
-Dr. Hibbert argued, from the deeply-furrowed teeth, and the strong,
-massive cranial plates, that the animal must have been a reptile, and
-supported his assertion by no small amount of anatomical skill. In the
-midst of the discussion, a message was sent to the great ichthyologist
-of Neufchatel, who happened to be at that time busily engaged in the
-Zoological Section. Passing over the fossils as they lay grouped
-upon the table, with that quick perception for which he is so justly
-celebrated, Agassiz at once decided that the bones must have been
-those of some large and hitherto undescribed _fish_. Such a decision
-from such an authority produced of course no little sensation, and the
-naturalist was told with some surprise that the remains had just been
-elaborately described as those of extinct reptiles. "Reptiles!" thought
-Agassiz, and again his quick eye darted over the table; but the fossils
-would yield no other answer than what they had already given. Despite
-their seeming reptilian character, they were undoubtedly ichthyic,
-though belonging to an animal up to that time unknown. In the completed
-memoir which Dr. Hibbert subsequently submitted to the Royal Society,
-his mistake was freely acknowledged, and the remains there flourish as
-those of a true fish. But with this amendment a grave error of another
-kind was committed, though in this the Doctor seems to have been
-supported by the authority of Agassiz himself. The large bones, scales,
-and teeth of the Burdiehouse limestone, were all indiscriminately
-thrown into one genus, to which Agassiz gave the name of Megalichthys;
-and in the memoir we find the different kinds of scales and teeth
-described and figured without the slightest intimation or suspicion
-that they might possibly have belonged to different animals. The
-novelty of the discoveries soon attracted general attention to
-Dr. Hibbert's paper. It was quoted or referred to in almost every
-scientific work treating of general geology, while in some instances
-(as in Dr. Buckland's _Bridgewater Treatise_) the erroneously-named
-bones were re-engraved. A tooth from the Fife coal-field, drawn
-for one of the woodcuts in a popular elementary manual, was also
-named megalichthys; an error perpetuated through every edition till
-the last, where the tooth has been restored to its true owner--the
-holoptychius. In truth, no two organisms have ever been so maltreated;
-and if the reader will kindly bear with me a little further, it will
-not be difficult to show him that the holoptychius had peculiarities
-of its own quite as distinct as those that have come before us in the
-megalichthys, and that each animal has a full and legitimate claim to a
-separate and independent niche in the gallery of fossil fishes.
-
-[Footnote 45: See Agassiz, _Poiss. Foss._, tom. ii. Part 2, p. 89 _et
-seq._]
-
-The word _holoptychius_ means, as I have said, "wrinkled or folded
-all over,"--a name truly expressive of the peculiar style of ornament
-displayed by every part of the exterior of the animal's body. The
-head-plates, which are of great size, exhibit a fine corrugated
-shagreen-like surface, roughened into knobs, and wavy lines of
-confluent tubercules, that remind one disposed to be fanciful, of a
-frosty December moon with its isolated peaks, and confluent mountain
-chains. The scales are of a rounded or oval form, and vary from less
-than half an inch to fully four or even five inches in diameter.
-Their upper side consists of two parts, one of which with a crescent
-shape lay beneath, the over-lapping scales, while the other passed
-outwards to form a portion of the outer visible surface. The part
-that was hidden by the overlapping scale was smooth, with a finely
-striated surface. The exposed portion displayed the usual corrugated
-sculpturing, many of the little tubercules having striated sides, and
-showing, in consequence, no little resemblance to the star-like knobs
-on the dermal covering of the Old Red Sandstone asterolepis. The inner
-surface of the scales was concave, with a central prominent oblong
-point surrounded by encircling scaly ridges, and forming what is called
-the centre of ossification.[46]
-
-[Footnote 46: The above descriptions of the scales and teeth of these
-two fishes, are taken from specimens in my own collection. None of my
-holoptychian scales show incontestable the proportion of the covered to
-the exposed part. Judging from the aspect of one of them, the wrinkled
-portion occupied perhaps about three-fifths of the entire scale,
-the remaining part being covered by the overlapping edges of those
-adjacent; for the characteristic corrugated surface was essentially
-an external ornament, and ceased at the point where the external
-bone passed into the interior. I may remark, that the upper side of
-the scales is not very frequently seen in the Burdiehouse limestone,
-the rough surface usually adhering to the rock, and leaving only the
-smooth inner side exposed. Out of seven specimens from that locality,
-only one shows the upper side, and that by no means in a perfect state
-of keeping. The structure alike of scales and bones can be seen to
-much greater advantage in the shales, ironstones, and coals of the
-coal-fields, where, owing to the soft nature of their matrix, the
-fossils can be readily cleared and exposed.]
-
-But perhaps the most remarkable and characteristic parts of the
-carboniferous holoptychius were its jaws and teeth. As we might
-readily conjecture from the great size and strength of the scales and
-cranial plates of this fish, its dentition was of a correspondingly
-massive type. The under jaw, with the usual corrugated ornament,
-frequently exceeded a foot in length, and displayed along its upper
-edge a thick-set group of teeth. Of these there were two kinds one
-of a smaller size and more blunted form, with short indented furrows
-at their base; the other of a greatly more formidable size, grouped
-at intervals among the smaller ones. The front end of each under jaw
-bore one of these long conical tusks, serving as it were to guard the
-entrance of the mouth. Each of the larger teeth had a base strongly
-marked with longitudinal furrows, and sank deep into the jaw, with
-the bone of which it sometimes anchylosed.[47] The part of the tooth
-above this socket had an oval form, so flattened as to present two
-cutting edges, one facing the front, the other the back of the mouth,
-and meeting at the upper end of the tooth which was sharp and pointed.
-Such large conical tusks may frequently be obtained, having a length
-of two or three inches, while occasionally they range as high as six
-or seven, the smaller teeth seldom reaching so much as an inch. It
-is difficult to see how, with such a formidable dentition, the jaws
-could readily close. In some specimens I have seen deep hollows beside
-the bases of the teeth, which may possibly have received those of the
-opposite jaw, but the gigantic tusks at the entrance of the mouth seem
-to have stood high over the jaw, passing outside like those of the
-wild-boar. If this be correct, the jaw of the holoptychius would unite
-the mechanism of both the alligator and the crocodile--its recipient
-hollows being analogous to the tooth-pits in the former tribe, and its
-protruded teeth to the similarly exposed teeth of the latter.
-
-[Footnote 47: I have seen detached teeth, wherein the length of
-the root, or part imbedded in the jaw, tripled that of the exposed
-part, sinking four or five inches into the bone without any trace of
-anchylosis. Whether these huge tusks belonged to the upper or under
-maxillary, I do not pretend to say, though no specimen of the under
-jaw, which has ever come under my notice, would accommodate half of
-such a deep-sunk base.]
-
-[Illustration: Fig. 31.--Jaw of Holoptychius (_Rhizodus_.--Owen) from
-Gilmerton, one-fourth nat. size; the large teeth along the middle part
-of the jaw are here wanting.]
-
-When we bring the microscope to bear upon the elucidation of the
-structure of these ancient teeth, it seems as if our labour had but
-just begun; and that so far from having by an external scrutiny
-exhausted all that they have to show us, our knowledge of them can be
-but scanty and superficial until we have studied them carefully under
-a magnifying power. Microscopic sections of such organic remains are
-prepared in the same way as those of the fossil woods already noticed;
-and a more interesting or beautiful series of objects cannot be
-conceived than a set of slices of these fossil-teeth.
-
-Viewed, then, in longitudinal section from base to point, the part
-above the fluted root of one of the large teeth of the holoptychius is
-seen to consist of minute hair-like fibres of extreme tenuity, which
-proceed in straight lines from the outer surface to the interior. At
-right angles to these, and parallel with the outer edges, there is
-a set of dark widely-placed lines conforming to the outline of the
-tooth, like so many long sugar-loaf shaped caps, placed within each
-other. When this part is cut across, and viewed in transverse section,
-the tooth is observed to be of a flattened oval form, with the same
-fine fibres or tubes radiating from the centre, and traversed by the
-same dark bands which now assume the form of concentric rings. The
-appearance thus presented reminds one at once of a cross section
-of some dicotyledonous tree, the dark bands resembling the annual
-layers of growth, and like these resulting from a similar thickening
-of the internal tissue. The upper part of the tooth is solid and the
-concentric rings few; the middle exhibits an increase of the rings, and
-possesses, moreover, a hollow centre or pulp-cavity,[48] with the usual
-diverging fibres. Here the oval form is well shown, and the encircling
-rings are considerably flattened at the ends of the long axis.
-
-[Footnote 48: This hollow centre may be seen occasionally filled up by
-a sharp conical tooth like the _phragmocone_ of a belemnite.]
-
-The lower portion of the tooth exhibits a much more complicated
-texture. Externally it is marked by deep longitudinal furrows, that
-run down the enamelled sides and sink into the jaw. When cut across
-at this ribbed part, the tooth is found to present the most complex
-and graceful internal structure. The prominent ridges between the
-furrows are seen to be produced by crumpled folds of the substance of
-the tooth, which roll inwards towards the centre, coalescing with each
-other, and forming intricate groups of circling knots and folds. In
-some places they seem all but separated from each other into little
-circles, pierced with a central aperture, and recall the aspect of
-the upper layer in the scale of megalichthys. Each of these loops and
-folds presents a texture exactly similar to that of the upper part of
-the tooth. The same minute hair-like tubes, darkened and thickened in
-the long axis, radiate towards the centre; the same concentric bands
-run from centre to circumference; so that the lower part of the tooth
-seems, as it were, made up of a bundle of smaller teeth partially
-melted into each other. Between these loops and folds circular meshes
-frequently occur, and add to the complexity as well as the beauty of
-the whole structure. One of these sections, with all its twisting
-crumples, and folds, and knots, and coloured meshes, and encircled
-rings, bears no small resemblance to an antique polished table that
-has been cut out of the gnarled roots of a venerable oak. This complex
-structure arose from the mode of growth of the tooth; each prominent
-external ridge continually turning inwards down the furrow on either
-side, and mingling in freakish knots with the folds that had gone
-before.[49]
-
-[Footnote 49: For an acquaintance with the remarkable teeth of this
-ancient fish, more minute than it had been my good fortune to possess
-before, I am indebted to a most interesting series of microscopical
-preparations kindly lent me from his extensive collection by my friend
-Mr. Alexander Bryson of Edinburgh.]
-
-The internal bones of the holoptychius were of great size and strength,
-as befitted such a bulky ganoid. Some of them had a singular style of
-surface ornament, that somewhat resembled a frosted widow on a December
-morning. Their internal structure was loose and cancellated; the endo-
-being usually of a less compact texture than the exo-skeleton. Judging
-from the size of such bones, the carboniferous holoptychius must have
-been one of the bulkiest and most formidable denizens of the deep,
-reaching sometimes to a length of twenty feet or even more. Such an
-animal would have been, perhaps, quite a match for our hugest crocodile
-or alligator, for it must have swum about with a litheness and agility
-possessed by none of the saurian reptiles. Like that leviathan chosen
-by the Almighty, in an age long subsequent, as an illustration of His
-power and greatness, the holoptychius must have been king over all
-the inhabitants of the sea, and the magnificent language of Job,
-descriptive of the living animal, applies not less graphically to
-the extinct one: "Who can open the doors of his face? his teeth are
-terrible round about. His scales are his pride, shut up together as
-with a close seal. One is so near to another, that no air can come
-between them. He maketh the deep to boil like a pot: he maketh the sea
-like a pot of ointment. He maketh a path to shine after him; one would
-think the deep to be hoary."
-
-Our survey has hitherto been directed to the denizens of carboniferous
-lake, river, and sea, and we have found them to be alike important in
-numbers and interesting in organization. It is otherwise, however,
-when we turn in search of the denizens of the carboniferous lands.
-The crowded trees and shrubs of the coal strata recalling as they do
-old forest-covered swamps, might seem to indicate the probability of
-a pretty numerous terrestrial fauna. Where are we to look for the
-fossilized relics of land animals, if not in the remains of a submerged
-land-surface? And yet, strange as it may seem, of the inhabitants of
-the land during the Coal-measure period we know almost nothing. "We
-have ransacked hundreds of soils replete with the fossil roots of
-trees,--have dug out hundreds of erect trunks and stumps, which stood
-in the position in which they grew,--have broken up myriads of cubic
-feet of fuel, still retaining its vegetable structure,--and, after
-all, we continue almost as much in the dark regarding the invertebrate
-air-breathers of this epoch, as if the coal had been thrown down in
-mid-ocean."[50]
-
-[Footnote 50: Sir Charles Lyell's _Elements_, fifth edition, p. 406.]
-
-The little land-shell already noticed as having been detected by Sir
-Charles Lyell in the carboniferous rocks of Nova Scotia, seems to be
-as yet the only air-breathing mollusc obtained from rocks of such
-high antiquity. Insect remains have been detected in the English
-coal-fields belonging to two or three species of beetles; while on the
-Continent, wing-sheaths and other fragments of cockroaches, scorpions,
-grasshoppers, locusts, crickets, &c., have been detected. But the most
-remarkable traces of air-breathers consist in various indications of
-the existence of reptiles during the Carboniferous era. Fragmentary
-skeletons, with detached bones and plates, have been found in Bavaria
-and America, together with long tracks of footprints, from which it
-appears that during the time our coal-seams were forming, there swam
-through the sluggish deltas, or crept amid the dank luxuriant foliage,
-strange lizard-like forms, large enough to leave behind them on the
-soft yielding mud or sand the impress of their double pair of toed
-feet. But of these animals we have much to learn. Some of them have
-bequeathed to us merely their dismembered broken bones; others have
-left but the imprints of their toes. Yet even these remains, trifling
-as they may seem, become of importance when we remember that they
-demonstrate fishes not to have been the highest types of being during
-the epoch of the Coal, and show that while the bulky holoptychius held
-the supremacy of the waters, lizard-like forms of a less formidable
-type seem, so far as we know, to have ruled it over the land.
-
-In fine, then, no one can glance at a list of the carboniferous fauna
-without perceiving either that the animated world of that ancient
-epoch must have had a very different proportioning from what now
-obtains, or that we have only a meagre and fragmentary record of it.
-That the latter conclusion is the more philosophical will appear if we
-reflect upon the many chances that exist against the entombment and
-preservation of animal remains, especially of those peculiar to the
-land. How very small a proportion of the remains of animals living in
-our own country could be gathered from the surface-soil of any given
-locality, and how very inadequate would be the meagre list of species
-thus obtained, as representing the varied and extensive fauna of Great
-Britain! In contrasting, then, the rich abundance of marine organisms
-with the extreme paucity of terrestrial animals among the carboniferous
-rocks, it would be too hasty to infer a corresponding disproportion
-originally. It must be admitted that the rarity of air-breathers,
-after such long-continued and extensive explorations among terrestrial
-and lacustrine beds, presents a difficult problem, only (if at all)
-to be cleared away by patient and persevering investigation. With
-this preliminary caution, we may regard the carboniferous fauna as
-peculiarly rich in marine species. The sea-bottoms swarmed with
-stone-lilies, cup-corals, and net-like bryozoa, mingled with the
-various tribes of molluscan life--the brachiopods with their long
-ciliated arms; the bivalves and gastropods with their coloured shells
-that recall some of the most familiar objects of our shores; and the
-cephalopods with their groups of siphonated chambers, straight as in
-the orthoceras, or gracefully coiled as in the goniatite. The seas
-swarmed, too, with fishes belonging to the two great orders of ganoids
-and placoids, the latter represented now by our sharks and rays,
-though the exact type of the ancient genera is retained only by the
-cestracion or Port-Jackson shark; the ganoids, with their strong armour
-of bone, represented by but two genera, the lepidosteus of the American
-rivers, and the polypterus of the Nile,--two fishes that seem but as
-dwarfs when placed side by side with the gigantic holoptychius of the
-coal-measures. The rivers and estuaries of the same period seem to have
-been frequented by immense shoals of the smaller ganoidal fishes that
-fed on decaying matter brought down from the land, and perhaps, too,
-on the minute Crustacea that lay strewed by myriads along the bottom.
-Into these busy scenes the bulkier monsters from the sea made frequent
-migrations, perhaps in some cases ascending the rivers for leagues to
-spawn, and returning again to their places at the mouth of the estuary
-or in open sea. The rivers and lakes swarmed with small crustaceous
-animals, and nourished, too, shells like those of our pearl-mussels.
-The land--so luxuriantly clothed with vegetable forms--was hummed over
-by beetles, chirupped over by grasshoppers and crickets, and crawled
-over by four-footed reptiles, that united in their structure the lizard
-and the frog. But of the general grade and proportions of its denizens
-we still remain in ignorance. From all that yet appears, the scenery
-of these forests must have been dark, silent, and gloomy, buried in a
-solitude that was startled by no tiger's roar, no cattle's low, and
-neither cheered with the melody of birds nor gladdened by the presence
-of man.
-
-We have lingered, perhaps, too long over the remains of these old
-carboniferous animals. But the delay may be not without its use if, by
-thus bringing before us some of the more marked points in the structure
-of creatures that for ages peopled our planet, it broaden our view of
-creation; and by lifting the curtain from off a dim, distant period of
-our world's long history, it show, amid all diversities of arrangement,
-and all varieties of form, still the same grand principles of design,
-and the same modes of working as those which we can see and compare
-among the living forms around us. It is something to be assured that
-the race of man has been preceded by many other races, lower indeed
-in the scale of being, but manifesting, throughout the long centuries
-of their existence, ideas of mechanism and contrivance still familiar
-to us, and serving in this way to link the human era with those that
-have gone before, as parts of one grand scheme carried on by one great
-Creator.
-
-
-
-
-CHAPTER VIII.
-
-
-  Sand and gravel of the boulder--What they suggested--Their
-       consideration leads us among the more mechanical operations
-       of Nature--An endless succession of mutations in the economy
-       of the universe--Exhibited in plants--In animals--In
-       the action of winds and oceanic currents--Beautifully
-       shown by the ceaseless passage of water from land to
-       sea, and sea to land--This interchange not an isolated
-       phenomenon--How aided in its effects by a universal process
-       of decay going on wherever a land surface is exposed to
-       the air--Complex mode of Nature's operations--Interlacing
-       of different causes in the production of an apparently
-       single and simple effect--Decay of rocks--Chemical
-       changes--Underground and surface decomposition--Carbonated
-       springs--The Spar Cave--Action of rain-water--Decay of
-       granite--Scene in Skye--Trap-dykes--Weathered cliffs of
-       sandstone--Of conglomerate--Of shale--Of limestone--Caverns
-       of Raasay--Incident--Causes of this waste of calcareous
-       rocks--Tombstones.
-
-From the blackened plants that darkened the upper layers of the
-boulder, the transition was natural to the matrix in which they lay.
-The whole rock consisted of a fine quartzy sand more or less distinctly
-laminated, and showing in its lower parts well-rounded pebbles of
-quartz, green grit, and felspathic trap. The contemplation of these
-features suggested the existence of some old land with elevated ranges
-of hills, and wide verdant valleys traversed by rivulets and rivers
-which bore a ceaseless burden of mud, sand, and gravel, onwards to
-the sea. The pebbles afforded some indication of the kind of rocks
-that formed the hill-sides. Perhaps the higher grounds exhibited that
-grey wrinkled appearance peculiar to the quartz districts of the
-north-western Highlands, with here and there a bluff crag of felspathic
-trap shooting up from among the fern-brakes of the valley, or cutting
-across the channel of some mountain stream that tumbled over the pale
-rock in a sheet of foam. And there may have been among these uplands
-smooth undulating districts, dotted over with dark araucarian pines,
-and densely clothed with a brushwood of rolling fern, but which showed
-in all their ravines the green grit that formed the framework of the
-country,--its beds twisted and contorted, jointed and cleaved, like
-the grits and slates along the banks of many a stream, beloved by
-the angler, in the classic ground of the Ettrick and the Yarrow. But
-whatever may have been the special features of its scenery, there can
-be no doubt of the land's existence. The carbonized plants stand up to
-tell us of its strange and luxuriant vegetation. We have listened to
-their story, and suffered them to lead us away into forest, and lake,
-and sea, to look on the various forms of life, vegetable and animal,
-which abounded in that far-distant age. We return again to the boulder,
-and shall now seek to learn the lessons which the sand and pebbles have
-to teach us. Their subject belongs to what is called physical geology,
-and will bring before us some of the more mechanical operations of
-nature, such as the slow but constant action of air, rain, and rivers,
-upon hard rock, the grinding action of the waves, and the consequent
-accumulation of new masses of sedimentary rock.
-
-In all the departments of nature that come under the cognizance of man,
-there is seen to be an endless succession of mutations. According to
-the Samian philosopher--
-
-    "Turn wheresoe'er we may by land or sea,
-    There's nought around us that doth cease to be.
-    Each object varies but in form and hue,
-    Its parts exchange; hence combinations new.
-    And thus is Nature through her mighty frame
-    For ever varying, and yet still the same."
-
-In the world of life we see how animals are sustained by a constant
-series of chemical changes in their blood, every respiration of air
-adding, as it were, fresh fuel to the flame of life within. In plants,
-too, there is an analogous process. The atmospheric air is by them
-decomposed, part of it being given off again, and part retained to
-build up the organic structure. Plants withdraw mineral matter from the
-soil, animals feed upon plants, and thus the earthy substances, after
-having formed a part, first of rock masses, then of vegetable, and
-subsequently of animal organizations, are returned again to the soil,
-whence to be once more withdrawn and undergo new cycles of mutation.
-But this perpetual interchange is not confined to the vital world. We
-see it in the action of winds, when heated air rises and moves in one
-direction, and the colder parts sink and travel the opposite way. The
-same principle is exhibited by the oceanic currents, the removal of a
-body of water, from whatever cause, always necessitating the ingress of
-a corresponding quantity to supply its place. But perhaps one of the
-most beautiful instances of these interchanges in the whole inorganic
-world is the ceaseless passage of water from the land to the sea, and
-from the sea to the land. The countless thousands of rivulets, and
-streams, and gigantic rivers, that are ever pouring their waters into
-the great deep, do not in the least raise its level or diminish its
-saltness. And why? Simply because the sea gives off by evaporation
-as much water as it receives from rain and rivers. The vapour thus
-exhaled ascends to the upper regions of the atmosphere, where it forms
-clouds, and whence it eventually descends as rain. The larger part of
-the rain probably falls upon the ocean, but a considerable amount is
-nevertheless driven by winds across the land. This finds its way into
-the streams, and so back again to the sea, only, however, to be anew
-evaporated and sent as drizzling rain across the face of land and sea.
-This interchange is constantly in progress, and seems to have been as
-unvarying during past ages.
-
-But the ceaseless passage of water between land and sea is not a mere
-isolated and independent phenomenon. Like all the rest of Nature's
-processes, even the simplest, it produces important and complicated
-effects. And the reader may, perhaps, think it worth looking at for a
-little, when he reflects that to this seemingly feeble cause we owe no
-small part of our solid lands, whether as islands wasted by the sea,
-or as part of vast and variegated continents, wide rolling prairies
-covered with verdure and roamed over by herds of cattle, or wintry
-Alpine hills lifeless and bare.
-
-The truth of this will appear when we reflect that the moisture which
-rises from the sea and falls on the land as rain, is free from any
-admixture of impurities; but by the time it again reaches the sea,
-after a circuit of perhaps many miles down valley and plain, it has
-grown turbid and discoloured, carrying with it a quantity of mud, sand,
-and drift-wood. The sediment thus transported soon sinks to the bottom,
-where it eventually hardens into rock, and in course of time is raised
-above the waves as part of a new land. Such I conceive to have been the
-origin of the sand, gravel, and imbedded plants of our boulder. It may
-be well, however, in going into the details of the subject, to take a
-wider view of this interesting branch of geology, and look for a little
-at the forms and modes of the decomposition of rocks, and the varied
-manner in which new sedimentary accumulations are formed.
-
-All over the world, wherever a land surface spreads out beneath the
-sky, there goes on a process of degradation and decay. Hills are
-insensibly crumbling into the valleys, valleys are silently eroded,
-and crags that ever since the birth of man have been the landmarks of
-the race, are yet slowly but surely melting away. It matters not where
-the hill or plain may lie, the highest mountains of the tropics and
-the frozen soil of the poles, yield each in its measure and degree
-to the influence of the general law. It might seem that so universal
-a process should be the result of some equally prevalent and simple
-cause. But when we set ourselves to examine the matter, we find it far
-otherwise. The waste of the solid lands, in place of arising from some
-single general action, is found to result from a multiform chain of
-causes, often local in their operation and variable in their effects.
-Such an investigation affords a good illustration of the general mode
-and fashion in which Nature delights to work. It shows us that what
-may seem a very simple process may be in reality a very complicated
-one; that in truth there exist in the world around us few if any
-simple, single processes, which stand out by themselves unconnected
-with any other; that, on the contrary, all become intimately linked
-together, the effects of one often forming part of the chain of causes
-in another, and producing by their combined action that complex yet
-strikingly harmonious order that pervades all the operations of Nature.
-To an extent of which Cicero never dreamed, there runs through all
-the world "such an admirable succession of things that each seems
-entwined with the other, and all are thus intimately linked and bound
-together."[51] Man separates out these various processes, classifies
-and arranges them, because from the imperfection of his mental powers
-he cannot otherwise understand their effects; all would seem but
-chaos and confusion. But the formal precision and the sharp lines of
-demarcation exist only in his mind. They have no place in the outer
-world. There we see process dove-tailing with process, and spreading
-out over the material world in an endless network of cause and effect.
-We feebly try to trace out these interlacing threads, but we can follow
-them far in no direction. Proteus-like, they seem to change their
-aspect, blending now into one form, now into another, and so eluding
-our keenest pursuit.
-
-[Footnote 51: Cicero, _De Nat. Deor._ lib. i. 4. So, in Bacon's _Wisdom
-of the Ancients_, under the fable "Pan or Nature:"--"The chain of
-natural causes links together the rise, duration, and corruption; the
-exaltation, degeneration, and workings; the processes, the effects,
-and changes, of all that can any way happen to things." Such is the
-philosopher's explanation of the Destinies as sisters of Pan. In no
-part of his writings can the thorough practical character of Bacon's
-philosophy be more conspicuously seen than in his treatment of these
-ancient fables. Glancing over the titles of the different papers, you
-are tempted to wonder what an intellect which could only appreciate
-poetry as a mode of narrating history or as a vehicle for the teaching
-of truth, will make of such fairy tales as those of Pan, Orpheus,
-Proteus, Cupid, and many others. They seem like so many airy Naiads
-crushed within the iron grasp of a hundred-banded Briareus. But a
-perusal of those delightful pages will show that the giant has really
-no malevolent intentions towards his fair prisoners; nay, that he only
-wishes, by stripping them of their paint and finery, to show that,
-with all their lightness and grace, they are nevertheless strong buxom
-dames, of the same doughty race with himself.]
-
-As an instance, therefore, of this remarkable interlacing of different
-causes in what we call a single process, the disintegration of rocks
-deserves our attention. In ordinary language, we say a stone rots
-away, and its debris is washed down by the rains and streamlets, and
-the process does not at first sight seem at all more complex than the
-expression used to describe it; yet if we examine the subject, we shall
-ere long find that there are in nature many simpler things than the
-rotting away of a stone. To effect such a result, there come into play
-a whole category of agencies, chemical and mechanical, so combined in
-their operation, and so intimately blended in their effects, that it
-becomes no easy task to tell where one set ends and another begins.
-
-A rock is said to undergo a chemical change, when one or more of its
-component parts passes from one state of combination to another--as,
-for instance, when a mineral absorbs oxygen, and, from the condition
-of a protoxide, changes into that of a peroxide; or when, parting with
-its silicic acid, it takes an equivalent amount of carbonic acid, and
-in place of a silicate becomes a carbonate. Now these, and similar
-metamorphisms, are chiefly produced by water permeating through the
-rocky mass, and thus no sooner does the old combination cease, than the
-new one which replaces it is dissolved by the slowly filtering water,
-and carried away either to greater depths, or to the surface. Every
-drop of water, therefore, that finds its way through the rock, carries
-away an infinitesimal portion of the mineral matter, and the stone is
-consequently undergoing a continual decay. This condition of things may
-go on either at some depth in the earth's crust, or on the surface.
-In the former case, springs and percolating water are the agents in
-effecting the change; in the latter, it is produced chiefly by rain and
-streams. But wherever the process goes on, the results, unless where
-counteracted by some opposite agency, are ultimately the same. It may
-be of use to look at some examples of these changes, and, by dividing
-them in a rough way, into underground and surface actions, we shall be
-enabled to mark more clearly their effects.
-
-A common source of the decay of rocks arises from the percolation
-through them of water charged with carbonic acid. Decomposing
-vegetation gives off a large amount of this gas, which is readily
-absorbed by rain-water. The water sinks into the ground filtering
-through cracks and fissures in the rocks, whence it afterwards
-re-emerges in the form of springs. Now wherever, in its passage through
-these subterranean rocks, the water meets with any carbonate, the
-carbonic acid contained in the liquid immediately begins to dissolve
-out the mineral matter, and carries it eventually to the surface. There
-the amount of evaporation is often sufficient to cause a re-deposit of
-the mineral in solution. If it be lime, a white crust gathers along
-the sides of the stream, delicately enveloping grass-stalks, leaves,
-twigs, snail-shells, and other objects, which it may meet with in its
-progress. Such "petrifying" springs, as they are popularly termed,
-occur abundantly in our limestone districts. It should be borne in
-mind, however, that they only produce an incrustation round the organic
-nucleus, and do not petrify it. That alone is a true petrifaction
-where the substance is literally fossilized, or turned into stone.
-A familiar instance of a similar chemical process may be seen under
-many a bridge, and along the vaulted roofs of many an old castle.
-Numerous tapering stalactites hang down from between the joints of the
-masonry, resembling, so to speak, icicles of stone, often of a dazzling
-whiteness. They are formed by the percolation of carbonated water
-through the mortar of the joints, the carbonate of lime thus withdrawn
-being re-deposited where the water reaches the air and evaporates. A
-little pellicle of lime first gathers on the roof, and every succeeding
-drop adds to the length of the column. In some cases, where the supply
-of water is too great for the amount of evaporation, part falls on the
-floor, and, being there dissipated, leaves behind a slowly-gathering
-pile of lime called stalagmite. In some of the Eastern grottos, the
-pillars from the roof have become united to those on the floor, forming
-the most exquisite and fairy-like combinations of arch and pillar.
-An example of a calcareous grotto has now become pretty familiar to
-our summer tourists, under the name of the Spar Cave. It lies on an
-exposed cliff-line along the western shores of Skye, against which
-the surge of the Atlantic is ever breaking. You approach it from the
-sea, and enter a narrow recess between two precipitous walls of rock,
-open above to the sky, and washed below by the gurgling tide. Crossing
-the narrow, shingly beach, you find the ground thickly covered with
-herbage, while, grouped along the dark walls, are large bunches of
-spleenwort, hart's-tongue fern, and other plants that love the shade.
-Soon after entering the cave, all becomes sombre and cold; and the few
-candles, with which the party have furnished themselves, only serve
-to heighten the gloom. After scrambling on for a time across dank,
-dripping rocks, and over a high bank of smooth marble, on which it is
-difficult to creep, almost impossible to stand, you arrive at a deep
-pool of clear, limpid water, which extends across the cave from side to
-side, barring all farther passage. The scenery at this point will not
-readily be forgotten. The roof towers so high that the lights are too
-feeble to show it, while the walls, roughened into every form of cusp
-and pinnacle, pillar and cornice, all glittering in the light, resemble
-the grotto of some fairy dream. On returning again to the light of day,
-if you ask the cause that has given rise to all this beauty, it will
-be found a very simple one. The cleft occupied by the cave has been
-once filled by a wall of igneous rock called a trap-dyke. Atmospheric
-influences, aided probably by the waves, have caused the decomposition
-and removal of this intruded rock, and the calcareous sandstone on
-either side 'now stands up in a wall-like form. The upper part of
-the dyke remains as a roof to the cave, but it has become completely
-covered over with the calcareous deposits left by the carbonated water
-that filters through the adjacent limy sandstone. The amount of water
-is considerable, and consequently every part of the cavern--roof,
-walls, and floor--has been incrusted with a white crystalline carbonate
-of lime. In volcanic countries, where the springs often come to the
-Surface in a highly heated state, charged, too, with various chemical
-ingredients, they produce no slight amount of physical change on the
-surrounding districts, and must be regarded as important geological
-agents.
-
-But perhaps the most common and widely-diffused form of decomposition,
-is that produced on the surface of the earth by the action of
-rain-water, in slowly dissolving out the soluble parts of rocks, and
-washing away the loose, incoherent grains that remain behind. It is
-hard to say whether this process is more chemical or mechanical.
-The solution of the mineral matter belongs to the former class of
-changes, while the removal of debris must be ranked among the latter.
-The results of these combined forces form one of the most important
-branches of investigation which can occupy the attention of the
-physical geologist, and in contemplating them, we are at a loss whether
-most to admire their magnitude, or the immense lapse of time which
-they must have occupied. It may be worth while to look at the progress
-of this kind of disintegration, that we may see how wide-spread and
-constant is the waste that goes on over the world, and how materially
-the effects of running water are by this means increased. A volume
-might be written about the decay of rocks, and a most interesting one
-it would be, but its authorship would devolve rather on the chemist
-than the geologist.[52] We can do no more here than merely glance at
-one or two illustrative examples.
-
-[Footnote 52: A German chemist, Bischoff by name, has written two
-learned volumes in which this subject is discussed (translated into
-English, and published by the Cavendish Society), valuable for their
-facts, but not always very safe in their deductions.]
-
-Among the mineral substances that most readily yield to the action of
-the weather, are the silicates and the carbonates. The rocks containing
-the former belong in large measure to what we call the igneous class,
-such as the granites and traps; while those containing the latter
-form the bulk of our useful stones, such as limestone and sandstone.
-The removal of alkaline silicates is due to their conversion into
-carbonates, which are readily soluble in water. Rain falling on a rock
-in which they are largely present, dissolves a small portion, and
-carries it into the soil or into streams, and thence to the ocean.
-Every shower in this way withdraws a minute amount of mineral matter,
-and tends to leave the harder insoluble grains of the rock standing out
-on the surface in the form of a loose pulverulent crust, easily washed
-away. The debris thus formed, where allowed to accumulate, makes an
-excellent kind of soil known to the Scottish farmers as "rotten rock."
-
-The tourist who has visited any of our granitic districts, such as the
-south-western parts of Cornwall, the rugged scenery of Arran, or the
-hills of the Aberdeenshire Highlands, must be familiar with some of the
-forms of waste which the rocks of these regions display. Mouldering
-blocks, poised sometimes on but a slender base, and eaten away into the
-most fantastic shapes, abound in some localities, while in other parts,
-as for instance at the summit of Goatfell in Arran, the rock weathers
-into a sort of rude masonry, and stands out in its nakedness and ruin
-like some crumbling relic of Cyclopean art. In other districts, as in
-Skye and in the adjoining island of Raasay, the granitic hills are
-of a still more mouldering material. Their summits, white and bald,
-sometimes rise to a height of fully two thousand feet above the sea,
-while down their sides are spread long reddish-yellow tracks of debris
-intermingled with patches of stunted herbage. Every winter adds to the
-waste, and lengthens the lines of rubbish. Some of these hills form a
-good field wherein to study the disintegration of granitic rocks, such,
-for instance, as Beinn na Cailleaich, that rises from the shores of
-Broadford Bay. Around the eastern base of that mountain there stretches
-a flat moory district, with a few protruding blocks that have rolled
-down into the plain. The earlier part of the ascent lies over a region
-of metamorphic limestone, where the grey weathered masses of the
-calcareous rock, often like groups of mouldering tombstones, are seen
-protruding in considerable numbers through the rich soft grass and the
-scanty brushwood of hazel and fern. Leaving this more verdant zone, we
-enter a district of brown heath that slowly grows in desolation as we
-ascend. Huge blocks of syenite--a granitic rock of which the upper part
-of the mountain entirely consists--cumber the soil in every direction,
-and gradually increase in numbers till the furze can scarcely find a
-nestling-place, and is at last choked altogether. Then comes a scene
-of utter desolation. Grey masses of rock of every form and size are
-piled upon each other in endless confusion. Some of them lie buried in
-debris, others tower above each other in a rude sort of masonry, while
-not a few perched on the merest point seem but to await the storms of
-another winter to hurl them down into the plain. The ascent of such a
-region is no easy task, and must not unfrequently be performed on hands
-and knees. But once at the top, the view is enough to compensate a
-tenfold greater exertion. Far away to the west, half sunk in the ocean,
-lie the isles of Eigg, Coll, and Tiree, with the nearer mountains of
-Rum. North-west, are the black serrated peaks of the Coolins, that
-stand out by themselves in strange contrast with every other feature
-of the landscape. Northward, stretches the great range of syenitic
-hills, with the sea and the northern Hebrides beyond. Away to the east,
-across the intervening strait, lie the hills of the mainland, with
-all their variety of form and outline, and all their changing tints,
-as the chequered light and shade glide athwart the scene. Southward,
-the eye rests on the grey wrinkled hills of Sleat, and far over along
-the line where earth and sky commingle, are the mountains of Morven,
-stretching westwards till they end in the bold weather-beaten headland
-of Ardnamurchan, beyond which lies the blue boundless ocean. The top of
-Beinn na Cailleaich is flat and smooth, surmounted in the centre by a
-cairn. Tradition tells that beneath these stones there rest the bones
-of the nurse of a Norwegian princess. She had accompanied her mistress
-to "the misty hills of Skye," and eventually died there. But the love
-of home continued strong with her to the end, for it was her last
-request that she might be buried on the top of Beinn na Cailleaich,
-that the clear northern breezes, coming fresh from the land of her
-childhood, might blow over her grave.
-
-I have already alluded to the wasting away of a trap-dyke. This
-decomposition arises from the same cause as among the granites--the
-solution, and removal of the silicates. All these trap-rocks are
-igneous, and seem to have risen from below through open fissures and
-rents. As they contain a large percentage of felspar--the same mineral
-that gives to many granites their mouldering character--they may be
-seen exhibiting every form and stage of decay. Often they stand out in
-prominent relief from some cliff of soft shale, with a brown surface,
-picturesquely roughened into spherical masses of all sizes, that give
-to the rock somewhat the appearance of a hardened pile of ammunition
-in which ponderous shells lie intermingled with round shot, grape, and
-canister. Each of the concretionary balls when examined is found to
-exfoliate in concentric pellicles like the coats of an onion, and you
-may sometimes peal off a considerable number before arriving at the
-central core, which consists of the hard rock still undecomposed. In
-this case the process of degradation is aided by the decay of another
-mineral called augite, which contains a variable percentage of iron,
-and imparts the peculiar yellowish-brown tint to the weathered rock.
-Trap-dykes may also be seen in a still more wasted condition, where,
-in place of protruding from a cliff-line, they recede to some depth
-and give rise to deep clefts and fissures. An instance of this kind
-has been referred to in the case of the Spar Cave, and many others may
-be seen along the same coast-line. The shore there for miles is formed
-of a low cliff of white calcareous sandstone, fissured by innumerable
-perpendicular clefts of greater or less width, and sometimes only a
-yard or two apart. Each of these has once been filled by a dyke of
-trap, which originally rose up in a melted state, and after having
-solidified into a compact stony mass, began to yield to the process of
-decay. In all these and similar cases, the primary cause of the waste
-lies in the decomposition of the felspar. Rain-water acts in removing
-the soluble portions, and the harder grains that remain, deprived of
-the cementing matrix, ere long crumble down and are washed off by the
-rains. In this way the rock insensibly moulders away, every frost
-loosening its structure, and every shower carrying away part of its
-substance.
-
-Among the many objects of interest along a rocky coast some of the more
-striking are certainly to be found in the curious and often grotesque
-forms assumed by the weathered cliffs. Above high-water mark and thus
-away from the dash of the waves, we can often trace the progress of
-decay among such sedimentary rocks as sandstones and conglomerates.
-Worn into holes and scars, projecting cusps and tapering pinnacles, or
-eaten away into the rude semblance of a human form, headless perchance,
-or into the shape of a huge table poised on a narrow pedestal, the
-rock affords an endless variety of aspects and a continual source of
-pleasure. If we chance to light upon any building constructed out of
-the sandstone of such cliffs, it is worth noting that the removal of
-the stone has not deprived it of its mouldering qualities; nay, that
-houses erected within the memory of people still living already begin
-to wear an aspect of venerable antiquity. I remember meeting with an
-interesting example in the case of an old castle built on a similar
-rocky coast-line. It stood on a little ness or promontory of dull red
-stone, washed on all sides save one by the wild sea. The walls, of
-which but a fragment remained, were built of a dark red sandstone; but
-the lapse of centuries had told sadly on their masonry. The stones
-rose over each other tier upon tier, corroded sometimes into holes
-and hollows, sometimes into a close honey-combed surface, but the
-mortar that had been used to cement them together still stood firm and
-protruded from between the tiers to show, by no doubtful or ambiguous
-sign, how silently yet how surely the wasting forces had been at
-work. The scutcheon over the only remaining gateway had been carved
-out of another kind of stone of a lighter colour and harder texture,
-and so its grim lions looked nearly as fresh and formidable as when
-first raised to the place of honour which they still occupied. In
-this case, as before, the decomposition was owing to the presence of
-a considerable proportion of soluble matter, which the rains of four
-centuries had carried away along with the loosened incoherent sandy
-grains.
-
-Conglomerate or pudding-stone has often a picturesque outline in its
-decay, more especially if its included fragments have a considerable
-range of size. Large tracts Of this rock exist in various parts of
-Britain, particularly in Scotland, where the basement beds of the Old
-Red Sandstone consist of a coarse conglomerate, sometimes several
-thousand feet in thickness. Such enormous masses form the scenery of a
-large part of East Lothian, and are found in detached patches across
-into Peeblesshire and Lanark. In the north, too, the neighbourhood of
-Inverness and other parts of the same district display conspicuous
-conglomerate hills. Unless where laid bare by streams or by the action
-of breakers, the contour of these hills is rounded and tame, with a
-scanty covering of short scrubby grass and very few protruding bosses
-of rock. But where a mountain torrent has cut its way down the hill
-side, the ravine thus formed exhibits broken walls and pillars of
-rock made up of rounded balls of every shade and size, cemented by a
-dark-red or green paste. The cementing material is sometimes clay,
-sometimes lime, and its variable nature gives rise to a corresponding
-inequality in the amount and form of decomposition. Where the rounded
-pebbles are bound together by clay, rains act with rapidity in washing
-away the cement, and the component balls fall out by degrees, leaving
-a cliff strangely roughened by protruding knobs, and eaten away into
-clefts and hollows. When the pebbles are held in a crystallized matrix
-of lime, they usually remain longer together, and may sometimes be
-seen standing up in the form of detached rugged pillars that defy
-all regularity of size or outline, and remind one of a sort of rude
-grotto-work. Such irregularities become still more marked where to the
-action of the rains there has been added the spray of the ocean. A
-coast-line of conglomerate, where the rock rises into cliffs, is always
-a romantic one; caves, pillars, and ruined walls, all in the same rough
-grotto style, meet us at every step. Here, too, we can mark the varying
-effect of the waves upon the lower portions of the rock, eating it into
-cavernous holes and leaving rugged projecting pinnacles to which the
-mottled colours of the included pebbles give an additional and peculiar
-effect.
-
-A cliff of shale seldom shows much of the picturesque, though often a
-good deal of the ruinous. The rock is easily undermined by streams,
-and a shale ravine usually exhibits in consequence either heaps of
-crumbling rubbish, or, where the stream comes past with a more rapid
-current, perpendicular walls, jointed and laminated, but without much
-variety of outline. Such cliffs, however, merit the careful attention
-of the observer, for from their friability they are most easily
-decomposed and washed down by streams, to form new accumulations of
-similar soft argillaceous matter. A shale coast-line sometimes shows
-cliffs of considerable altitude, as in some parts of Skye and Pabba,
-where the Lias shales may be seen piled over each other often to a
-height of seventy or eighty feet, and spreading out along the shore as
-low flat reefs and skerries, brown with algæ at their seaward ends,
-and showing on the higher slopes of the beach the characteristic
-fossils of the Lias--_ammonites_, _belemnites_, and _gryphææ_--crowded
-together by hundreds. The action of the decomposing forces has operated
-more effectually on the soft material of the shale than on the hard
-crystalline lime of the included shells, so that the latter stand out
-in relief from the dull-brown surface of the rock, and from their
-numbers and prominence form one of the most marked features of the
-coast-line.
-
-Probably few have ever visited a limestone district without marking
-the manner in which that rock yields to the action of the elements,
-whether in an inland part of the country where rivers have cut deep
-gullies through the rock, or along some exposed shore where the stone
-has been wasted by a still ruder assailant. An exposed cliff of hard
-homogeneous limestone weathers into deep clefts and holes; the entire
-surface assumes a pitted appearance, somewhat like a sandy beach after
-a showier of rain, and the planes of stratification, or lines formed
-by the parallel junction of the beds are often worn away until the
-rock looks not unlike a piece of old masonry, in which the mortar has
-decayed and dropped out, leaving the angles of the stones to get wasted
-and rounded by the action of the weather. In many districts, too, where
-the rock is richly fossiliferous, the broken joints of encrinites along
-with corals and shells may be seen crowded together by myriads, their
-hard skeletons protruding from the wasted rock in such a way as to show
-that the stone can contain very little else. By this means we often
-learn that a limestone bed is nothing but an old sea-bottom, where
-the calcareous sediment was mainly derived from broken stone-lilies,
-corals, and shells, though if we break off a piece of the rock the
-internal fracture may show very little or no trace of any organic
-structure. And hence if the geologist would form an accurate conception
-of the origin and structure of many of the stratified rocks, he must
-study them not in hand specimens neatly trimmed and arranged along the
-shelves and drawers of a cabinet, nor even in the ponderous blocks
-daily exhumed by the quarryman, but along some surf-beaten cliff-line
-or down some precipitous ravine where the rock for centuries has been
-exposed to the wear and tear of the elements.
-
-Limestones and other calcareous formations are liable to more than
-ordinary decay, for, as we have seen above, percolating rain-water
-constantly carries away mineral matter from their subterranean
-portions. Accordingly, in some parts of the country, as for instance in
-Yorkshire, the interior of such rocks has been eaten away into great
-caverns by this form of decomposition.
-
-Some remarkable examples occur in the island of Raasay, one of the
-north-eastern Hebrides. Its eastern margin shoots up from the sea to a
-height of over 900 feet, the cliff-line being formed of a calcareous
-grit as perpendicular as a wall, and fissured by deep chasms and rents.
-The narrow table-land between the edges of this cliff and an abrupt
-ridge that rises behind, is perforated by innumerable holes and clefts,
-into which if a stone be thrown it may be heard for several seconds
-rumbling far below. The edges of these pitfalls are often fringed
-with ferns, rushes, and long grass, so as to be nearly hidden, and it
-requires no little caution to traverse this elevated region in safety.
-Innumerable sheep have been lost by falling into the subterranean
-abysses, and even the wary natives seem to have sometimes lost their
-footing. A story is told of a woman who had crossed to the other side
-of the island for the purchase of some commodities, and returning
-by the high grounds had got nearly within sight of her own cottage,
-when by some unlucky accident she took a false step and instantly
-disappeared. Unfortunately her errand had been performed alone, so that
-some time elapsed ere she was missed. The search continued unremitting
-for two days, but no trace of the missing traveller could be found. At
-last on the third day her figure was seen creeping slowly along the
-road not many hundred yards from her own door. It appeared that she had
-first slid down a sheer height of about fifty feet, when her further
-passage was intercepted by the sides of the fissure. During the earlier
-part of her confinement she strove hard to re-ascend the chasm, and it
-was not until, the effort seeming fruitless, she had begun to resign
-herself to despair, that a glimmering of light from below induced her
-to attempt a descent. This proved no easy matter, and occupied many
-weary hours of labour and suspense; but at length she succeeded in
-worming herself to the bottom, and crawled out more dead than alive
-only a little way from her home. There still stand perched on some of
-these precipitous cliffs the remains of a few villages, the inhabitants
-of which were accustomed to tether their children to the soil, whence
-one of the hamlets received in Gaelic the soubriquet of Tethertown.
-Many a valuable commodity disappeared by rolling over the cliff, and
-I have been assured that it was no unfrequent occurrence for a pot of
-potatoes capsized at the doorway to tumble down the slope and make no
-stop until safely esconced at the sea-bottom.
-
-The process whereby these fissures and caverns originate is the same as
-that noticed already in the Spar Cave. Water containing an impregnation
-of carbonic acid filters down through cracks and fissures of the
-calcareous rock, dissolving out in its passage a portion of the lime
-which it eventually carries back to the surface, and either deposits
-there or transports into streams, and thence to the sea. Thus atom
-by atom is removed wherever the percolating water reaches, until in
-the course of ages an irregular cavern of greater or less extent is
-produced. The decomposition of limestone at the surface results from
-the same kind of action, that of carbonated water. Every shower of
-rain insensibly carries away a fraction of the constituent parts of
-the rock, so that the size and form of detached blocks as well as of
-exposed cliffs is constantly changing. How often do we see the same
-decay going on with a melancholy rapidity among the exposed marble
-tombstones of our churchyards. In a few years the tablet gets worn
-and furrowed as though it had stood there for centuries. Eventually,
-too, the inscription becomes effaced, and perhaps ere the bones of the
-deceased have mouldered away and mingled with their kindred dust, the
-epitaph that recorded for the admiration of posterity his many virtues
-and his vigorous talents, has faded from the stone--often, alas! only
-too fit an emblem of how speedily the memory of the dead may fade away
-out of the land of the living.
-
-
-
-
-CHAPTER IX.
-
-
-  Mechanical forces at work in the disintegration of rocks--Rains
-       Landslips--Effects of frosts--Glaciers and icebergs--Abrading
-       power of rivers--Suggested volume on the geology of
-       rivers--Some of its probable contents--Scene in a woody
-       ravine--First idea of the origin of the ravine one of primeval
-       cataclysms--Proved to be incorrect--Love of the marvellous
-       long the bane of geology--More careful examination shows the
-       operations of Nature to be singularly uniform and gradual--The
-       doctrine of slow and gradual change not less poetic than that
-       of sudden paroxysms--The origin of the ravine may be sought
-       among some of the quieter processes of Nature--Features of
-       the ravine--Lessons of the waterfall--Course of the stream
-       through level ground--True history of the ravine--Waves and
-       currents--What becomes of the waste of the land--The Rhone
-       and the Leman Lake--Deltas on the sea-margin--Reproductive
-       effects of currents and waves--Usual belief in the stability
-       of the land and the mutability of the ocean--The reverse
-       true--Continual interchange of land and sea part of the
-       economy of Nature--The continuance of such a condition of
-       things in future ages rendered probable by its continuance
-       during the past.
-
-The forms of decomposition noticed in the last chapter were chiefly
-of a chemical kind. Their effects were observable alike on the
-surface of the earth and below ground; in the latter case we saw them
-excavating caverns and long irregular chasms, in the former we noted
-the production of debris which if undisturbed went to the formation
-of soils. It must be borne in mind however, that in these operations
-other forces than simply those of a chemical kind come into play. The
-percolation of water and the removal of insoluble particles on the
-exposed parts of rocks rank as mechanical processes. So also do those
-by which new surfaces of mineral masses are brought within the sphere
-of the chemical agencies, such as the action of frosts, rains, rivers,
-and waves. In short, as already noticed, any subdivision of the forces
-at work in effecting the decomposition of rocks must ever be more or
-less arbitrary; but it remains nevertheless useful, if we bear in
-mind that the exactly defined boundary lines are of our making, not
-Nature's. With this caution we may proceed to examine what are termed
-the mechanical agencies in the disintegration of mineral masses, and in
-so doing, we shall find that the chemical forces are not less helpful
-to the mechanical than the latter to the former.
-
-First, we may notice the effect of rains in washing away the
-disintegrated particles to lower levels or into river-courses whereby
-fresh portions of rock become exposed to the decomposing forces. Rains
-also act powerfully in altering the form of cliff-lines and steep
-declivities, especially where these consist more or less of friable
-earthy matter. After a long continuance of wet weather, I have seen
-the abrupt sides of a river-channel that were formed of a stiff blue
-clay completely cut up by rents of various dimensions, whereby large
-masses had subsided many feet, while others had rolled down altogether
-and lay in the bed of the stream where they were undergoing a rapid
-abrasion. The cause of this alteration was obvious. The rains pouring
-down from the sloping grounds on either side of the river had excavated
-deep channels on the abrupt face of the cliffs, while a considerable
-quantity of water finding its way through the soil, had permeated
-through joints and crevices in the clay some feet from the edge of the
-bank. By the combined operation of these causes, masses of clay several
-yards in extent lost their cohesion and either settled down a few
-feet, or found their way to the bottom. Such landslips are of frequent
-occurrence where large masses of rock of a hard compact nature rest
-upon loose shales and clays more or less inclined. Whole hills have
-been known to be hurled in this way into the valleys below.
-
-But these results become perhaps still more marked where to the
-ordinary operations of water there are added those of intense frost.
-The effects of a severe winter (such, for instance, as a Canadian one),
-in loosening the particles of rocks and facilitating the breaking-up
-of large masses, must be ranked among the most powerful agencies of
-nature. In such a season, the percolating water with which nearly every
-surface-rock is charged becomes frozen, and in the act of congelation
-expands. The result of this dilatation is to exert great pressure on
-the particles of the rock, and thereby loosen their cohesion. When thaw
-comes the frozen liquid contracts again, but the loosened particles
-have no such elastic power, and so, having lost hold of each other,
-crumble down. If the season be a changeable one, frost and thaw quickly
-alternating, the amount of waste produced becomes very great. Not only
-is the outer surface of the stone decomposed, but the water filtering
-through the joints of the rock freezes there, and thus on the arrival
-of milder weather vast masses become detached from the cliffs, and
-roll down, to be worn by the grinding action either of waves or of
-rivers, as the case may be. Spring at last sets in with its warmth and
-its showers; the snow rapidly melts away; the whole country streams
-with water; every valley and hollow has its red turbid rivulet, that
-bears a burden of muddy sediment into the nearest river; and thus the
-loosened portions of the rocks get washed away down to sea, leaving a
-new surface for the action of next winter. We can easily understand,
-therefore, that in certain regions the combined effects of frost and
-thaw may work in the course of ages changes of almost inconceivable
-extent, and that the agency of ice must be not less varied and
-important on the land than, in the case of the boulder clay, we found
-it to be in the ocean.
-
-Besides this action in winter, which goes on more or less in every
-country wherever the temperature sinks sufficiently low to permit of
-the freezing of water, ice effects many changes on the surfaces of
-rocks when it takes the form of glaciers and icebergs. We have already
-noted the operation of a glacier during its slow progress in crushing
-down large fragments of stone, scratching and abrading the rocks over
-which it passes, and eventually producing a vast quantity of mud, which
-is carried down by streams to form new accumulations either in lakes
-or seas. We have also marked the effects of the drifting iceberg in
-materially modifying the contour of submarine hills, and depositing
-over the ocean-bottom mud, gravel, and boulders. Nothing further,
-therefore, need be done here than simply to keep these agencies in
-view, as playing an important part in the disintegration of rocks.
-
-Another highly interesting aqueous action is that of streams and
-rivers, in scooping out for themselves channels through sometimes
-the hardest and most solid rock. Such effects may be seen all over
-the globe, in the old world and in the new, in the bed of the
-tiniest rivulet, as well as in the course of the mightiest river.
-And accordingly, in all the long list of geological agents, we find
-none so well known and so often described alike by poets, historians,
-and scientific writers, as well in ancient as in modern times. What
-a delightful volume might be written about the geology of rivers! It
-would, perhaps, begin with that "great river," the Euphrates, along
-whose green banks lay the birthplace of the human race, tracing out the
-features of its progress from the ravines and cataracts of Armenia,
-with all their surrounding relics of ancient art, down into the plains
-of Assyria, amid date-palms and Arab villages, onwards to the mounds
-of Nineveh and Babylon, and thence to the waters of the Persian Gulf.
-Well-nigh as remote, and perhaps still more interesting in its human
-history, would be the story of the Nile. We should have to follow that
-river from the mystic region of its birth,[53] marking the character
-of the rocks through which winds its earlier channel, and the effects
-upon them of the floods of untold centuries; it would be needful, too,
-to note the influence of the waters on the lower grounds, from where
-the stream flows over the cataracts of Syene, down through the alluvial
-plains of Egypt; and lastly, the concluding and perhaps most onerous
-part of our labour would be the investigation of the delta, marking its
-origin and progress, its features in ancient times, as made known to us
-in the graphic chapters of Herodotus, and the changes which the lapse
-of more than twenty centuries has since wrought in its configuration.
-The rivers of Europe would detain us long, not less perhaps by their
-historic interest than by the variety and attractiveness of their
-physical phenomena. One could scarce help lingering over the Rhine,
-with its source among Alpine glaciers, its lakes and gorges, its
-castles and antique towns; and when once the narrative entered the
-classic ground of Italy, it would perhaps become more antiquarian than
-geological. The ravine of Tivoli, for instance, would certainly lay
-claim to a whole chapter for itself, with its long-continued river
-action, its ancient travertin, its beautiful calcareous incrustations,
-and above all its exquisite scenery.
-
-[Footnote 53: "Fontium qui celat origines Nilus" a description not less
-true now than in the days of the Sabine bard.]
-
-           "Domus Albuneæ resonantis,
-    Et præceps Anio, ac Tiburni lucus, et uda
-      Mobilibus pomaria rivis."[54]
-
-[Footnote 54:
-
-    "Albuna's grey re-echoing home,
-    And Anio, headlong in his foam,
-      And grove of Tivoli,
-    And orchards with their golden gleam,
-    Whose boughs are dipping in the stream
-      That hurries to the sea."
-
-Hor. _Carm._ L vii. 12.]
-
-And when could we exhaust all, that might be said about the rivers of
-our own land?
-
-        "Of utmost Tweed, or Ouse, or gulfy Dun,
-    Or Trent, who, like some Earth-born giant, spreads
-    His thirty arms along the indented meads
-    Or sullen Mole, that runneth underneath;
-    Or Severn swift, guilty of maidens' death;
-    Or rocky Avon, or of sedgy Lee;
-    Or coaly Tyne, or ancient hallow'd Dee;
-    Or Humber loud, that keeps the Scythian's name;
-    Or Medway smooth, or royal-towered Thame."
-
-Passing to the new world, a vast field would spread out before us: the
-Mississippi, the Atchafalaya, the Ohio, the St. Lawrence, the Amazon,
-and many other rivers that in some cases rise high among the regions
-of perpetual snow, and after traversing large areas of country in the
-temperate zone, fall into the waters of tropical seas. By studying such
-examples of river-action and delta-formation as are presented by these
-gigantic streams, we should arrive at some conception of the conditions
-anciently at work in producing our present coal-fields. Nor would our
-researches assume aught like completion until after a scrutiny of all
-the larger and more important rivers of the globe. Such a work could
-be undertaken, perhaps, only by another Humboldt. Its successful
-accomplishment would certainly insure the highest renown to its author,
-and incalculable benefits to science.
-
-From what we have seen of the wide waste and decay everywhere in
-progress on the solid lands of our planet, it becomes no difficult
-matter to perceive what a number of agencies must be at work in the
-formation of a river channel. Let the reader take his stand in some
-wooded ravine, where the shelving rocks on either side are hung all
-over with verdure, and a tiny streamlet murmurs on beneath with a
-flow so quiet and gentle as scarcely to shake the long pendant willow
-branches that dip into its surface, while the polished pebbles that
-strew its bed lie unmoved by the rippling current that glides over
-them. If in the midst of such a scene the question were to arise in
-his mind, How came this deep, narrow ravine into existence? what
-answer would in all likelihood be the first to suggest itself? His eye
-would scan the precipitous walls of the dell, with their rocks cleft
-through to a depth of perchance fifty feet. It would require no great
-scrutiny to assure him that the beds on the one side formed the onward
-prolongations of those on the other, and that consequently there must
-have been a time ere yet the ravine existed, when these beds stretched
-along unbroken. Satisfied with these results, his first impulse might
-be to bethink him of some primeval earthquake, when the solid land
-rocked to and fro like a tempested sea, and broke up into great rents
-and yawning chasms. Into one of these clefts he might suppose the
-little streamlet had eventually found its way, moistening the bare and
-barren rocks, until at length their surface put on a livery of moss, or
-lichen, or liver-wort, and the birch, the alder, and the willow, found
-a nestling-place in their crevices. Such a view of the origin of the
-woody dell would be certainly a very natural one, and in some instances
-might be sufficiently correct, but in the present case it will not
-explain the phenomena. If the reader will kindly permit me to visit the
-locality in his company, perhaps we may be able to light upon the true
-explanation, and see a few appearances worthy our attention.
-
-First, then, how can we make sure that no convulsion of nature has
-produced a rent in the rocks, and so helped the streamlet to a channel?
-a simple question that may be well-nigh as simply answered. We stand
-in the centre of the dell on a broad ledge of stone, round whose
-well-worn sides the rivulet is ever eddying onwards. The block consists
-of a pale sandstone lying in a bed about three feet thick, that dips
-gently down the stream and underlies a seam of dull, soft, blue shale,
-full of small shells. We trace the edge of this sandstone bed across
-to the left-hand side of the ravine, and away up into the precipitous
-cliff, till it is lost amid the ferns and brushwood. There can be no
-doubt, therefore, that the ledge on which we were but now standing is a
-continuous portion of the rocks that form the left side of the ravine.
-Returning again to the centre of the stream, we proceed to trace out
-the course of the other end of the same bed, and find that it, too,
-strikes across to the rocks on the right-hand side without a break
-or fissure, and passes up into the cliff, of which it forms a part.
-Clearly, then, the sandstone bed runs in an unbroken, unfissured line,
-from the one side to the other, and the rocks of either cliff form
-one continuous series. There occurs no break or dislocation, which,
-of course, there must have been had the ravine owed its origin to any
-subterranean agency. And so we come to conclude that no great cataclysm
-in primeval times, no yawning abyss, or gaping chasm, has had anything
-whatever to do with the formation of our deep sequestered dell. What
-then? "Whither shall we turn," you ask, "to find another agency equally
-grand and powerful in its operation and mighty in its results?"
-
-Stay, gentle reader. That craving for the grand and the sublime, that
-hungering after cataclysms and convulsions, that insatiable appetite
-for upheavals, and Titanic earth-throes, and all the mightier machinery
-of Nature, has done no little mischief to geology. Men have reasoned
-that gigantic results in the physical structure of the earth must
-have had equally gigantic causes operating in sublime conflict and
-in periodic paroxysms, now heaving a mountain chain to the clouds
-of heaven, now swallowing up a continent in the depths of the sea.
-Happily such extreme notions are fast passing away, though the old
-tendency in a modified form still abounds. A closer scrutiny of Nature
-as she actually shows herself, not as theorists fancy she should be,
-has revealed to us that her operations are for the most part slow,
-gradual, and uniform, and that she oftentimes produces the mightiest
-results by combinations of forces that to us might seem the very
-emblems of feebleness and inactivity. In place of sudden paroxysms
-she demands only an unlimited duration of time, and with the aid of
-but a few of these simple, tardy agents, she will eventually effect
-results perchance yet more gigantic than could be accomplished even
-by the grandest catastrophe. Nor in thus seeking to explain the past
-by defining what seems the usual mode of Nature's operations in the
-present, do we, as is sometimes alleged, deprive them of their high
-poetic element. Assuredly there is something thrilling to even the
-calmest imagination in contemplating the results of vast and sudden
-upheavals, in picturing the solid crust of the earth heaving like a
-ground-swell upon the ocean, in tracing amid
-
-    "Crags, knolls, and mounds, confusedly hurl'd,
-    The fragments of an earlier world;"
-
-and in conjuring up visions of earthquakes, and frightful abysses from
-which there ever rose a lurid glare as hill after hill of molten rock
-came belching up from the fires below. But while far from denying that
-such appearances may have been sometimes seen during the long lapse
-of the geological ages, and that they give no little vividness and
-sublimity to a geological picture, we claim for the doctrine of the
-tranquil and uniform operation during past time of existing laws and
-forces, an element not less poetic. In the former case the pervading
-idea is that of unlimited expenditure of power, in the latter that of
-unlimited lapse of time. In the one case the action is Titanic but
-transient, in the other it is tranquil but immensely protracted. The
-two doctrines in this way counterbalance each other; yet I cannot but
-think that however impressive it may be to stand in some lone glen, and
-while gazing at its dark jagged precipitous cliffs, to dream about the
-paroxysmal convulsions of some hour far back in the distant past, the
-scene becomes yet more impressive when we look on its nakedness and
-sublimity not as the sudden and capricious creation of a day, but as
-the gradual result of a thousand centuries. These cliffs may once have
-been low-browed rocks rising but a little way out of a broad grassy
-plain, and serving as a noon-tide haunt for animals of long extinct
-races. Thousands of years pass away and we see these same rocks higher
-and steeper in their outline, brown with algæ and ever wet with surf,
-while around them stretches a shoreless sea. Ages again roll on, and
-we mark still the same rocks shooting up as bleak crags covered with
-ice and snow. Another interval of untold extent elapses, and rock,
-snow, and ice have all disappeared beneath a broad ocean cumbered
-with ice-floes and wandering bergs. Again the curtain drops upon the
-scene, and when once more it rises, the cliffs stand out in much the
-same abrupt precipitous aspect with that which they now present, save
-that their bald foreheads look less seamed and scarred than now, and
-their dark sides show no trace of bush or tree. The white cascades that
-to-day pour down from their summits and sides--seeming in the distance
-like the white hairs of age--are insensibly deepening the scars and
-furrows on these ancient hills, and thus slowly but yet surely carrying
-on the process of degradation and decay. Musing on all this long
-series of stages in the formation of one single cliff-line, is there
-not something more sublime, something yet more impressive than if we
-pictured but the chance random result of the gigantic paroxysm of an
-hour?
-
-Let us not be deterred then from seeking an explanation of the origin
-of the ravine among some of the quieter and more unobtrusive forces
-of Nature. Give them but an unlimited period to work in and they will
-abundantly satisfy all our demands.
-
-We return again to the rocky ledge in mid-channel, and proceed to
-ascend the course of the stream, marking as we go the changes in the
-character and features of the stone that forms the cliff on either
-hand. We come to a bare part of the ravine where brushwood and herbage
-find but a scanty footing and where accordingly the rocks can be
-attentively studied. The face of the escarpment shows a number of beds
-of pale grey sandstone alternating with courses of a dark crumbly
-shale. The sandstones being harder and firmer in texture stand out
-in prominent relief while the shales between have been wasted away,
-covering the bottom of the slope with loose debris. We can mark too
-that, as this decay goes on, the harder beds continually lose their
-support, cracking across chiefly along the lines of joint, and rolling
-down in huge angular blocks into the stream. In truth we cannot doubt
-that every year adds to this decay and thus slowly widens the dell, for
-the broken fragments do not form in heaps over the solid rock below
-so as to protect it from the weather, but are evidently carried away
-by the stream and hurried down the ravine onwards to the sea. From
-what has been said above relative to the disintegration of rocks by
-percolating water, frosts, and other causes, the reader will easily
-see how this rotting away of the sides of the ravine must be carried
-on; and he will not fail to mark that here we have at work an agency
-not yet considered, that of running water. The effects of the weather
-are seen in the crumbling, ruinous cliffs overhead; the effects of
-the streamlet are observable in the continual removal of the rubbish
-whereby a fresh surface is ever exposed to the decomposing forces,
-while at some points we can mark the water actually undermining an
-overhanging part of the cliff from which there are ever and anon vast
-masses precipitated into the channel where eventually they get worn
-down and carried away out to sea. "Still," you may remark, "these
-forces are at work only in widening a channel already made. How was the
-ravine formed at first?"
-
-We continue our ascent. A scrambling walk through briars and
-hazel-bushes, sometimes on rocky ledges high among the cliffs,
-sometimes among the prostrate blocks that dam up the stream, brings
-us at last full in front of a sparkling waterfall that dashes over
-a precipitous face of rock some twenty feet high. The appearances
-observable here deserve a careful attention. Our eyes have not been
-long employed noting the more picturesque features of the scene ere
-they discover that the dark-brown band of rock forming the summit of
-the ledge over which the water tumbles is continuous all round the
-sides of the dell. There is consequently no break or dislocation here.
-Approaching the cascade we note the rock behind it so hollowed out that
-its upper bars project several feet beyond the under ones. In this
-way the body of water is shot clear over the top of the cliff without
-touching rock till it comes splashing down among the blocks in the
-channel. And yet this hollowed surface is never dry; the spray of the
-fall constantly striking on it keeps it always dank and dripping. In
-some parts the rock stands out bare and worn, while on the less exposed
-portions there gathers a thick green scum which is replaced on the
-drier ledges by the soft cellular leaves of the liver-wort. Now our
-examination of the influence of percolating water upon even the hardest
-rocks teaches us that this moist soaked surface is just the very best
-condition for favouring the decay of the rock. Nay more, the green
-vegetation that mantles over the stone serves to prevent the water from
-running off too rapidly, and keeps the rock in a still more moist state
-than would otherwise happen. So that the portion of sandstone behind
-the cascade comes to be in a still more favourable situation for speedy
-decay than the ledge over which the water is rapidly driven. We can
-see, therefore, how in the lapse of years the corrosion may go on until
-the upper projecting part of the cliff loses its support and falls with
-a crash into the rocky pool below, while the form of the waterfall
-becomes thus greatly altered, and new surfaces are exposed to the wear
-and tear of the stream.
-
-But we have not yet exhausted all that the rocks at the cascade can
-teach us. By dint of some exertion we climb the cliff and gain the
-upper edge of the fall. The rocks that form the bed of the stream are
-now seen to be deeply grooved and worn, every exposed surface having
-a smoothed blunted aspect. We can mark how the stone has split up
-along the natural lines of joint, whereby great facility is given to
-the removing power of the current, and how large irregular angulated
-blocks become detached and are swept down the stream. In not a few
-parts, too, we may notice circular holes of greater or less depth, in
-the bottom of each of which lie perhaps a pebble or two, that with a
-constant gyratory movement, caused by the eddying water, have eaten
-their way downwards into the solid rock. When the stream is in flood
-and comes roaring down the rocky gorge bearing along with it a vast
-amount of mud, gravel, and stones, one can easily see how the friction
-of the transported material must wear down the hard bed and sides of
-the channel, and how this process repeated month after month and year
-after year, must aid the decomposing forces in scooping out a deep
-ravine. From the cascade the ascent of the stream becomes steeper and
-the run of water is consequently more rapid. Soon however we emerge
-from the woody copse, and find ourselves on a flat alluvial cultivated
-plain through which the rivulet winds in a tortuous meandering course,
-bending back upon itself into loops that almost meet and well-nigh
-form broad flat islets. Strolling along this winding route we can mark
-the effects of the stream in eating away the soft clay and sand at one
-part of the bend and piling them up at another. Such loose material
-can present but little resistance to a stream swollen with rains, and
-consequently a large quantity of the mud and gravel along with the
-interspersed boulders must be swept away down into the dell at every
-season of flood. The matter thus removed will of course be still
-further comminuted in its passage, and at the same time will help to
-grind down the hard rock surfaces over which it is driven.
-
-Here then may be found the whole history of the ravine. Originally the
-streamlet wound its devious course through a flat alluvial country with
-a channel sunk but a foot or two below the level of the plain. Such
-continued its character till it reached a low bluff, down which the
-water flowed more rapidly to gain a second level undulating region.
-The part of this bluff crossed by the stream was ere long bared of
-its covering of soil and clay, and the rock below came to be washed
-by a group of little cascades. Once exposed to the decomposing and
-disintegrating forces, the stone soon began to decay and the cascades
-ere long merged into one. By slow degrees the rock gave way and the
-waterfall retreated from the bluff. For perchance thousands of years
-the same process has been going on, now with greater, now with less
-rapidity, according to the nature of the rocks encountered and other
-modifying causes, until the fall has eaten its way back for well-nigh
-three miles and scooped out a wild rocky gorge some fifty or sixty feet
-deep. This is but a solitary and insignificant instance of what may be
-seen all over the world, for the process remains the same whether we
-stand beside a tiny rivulet in some lone Highland glen or listen to the
-roar of the falls of Niagara.
-
-There is but one other principal agency at work in the demolition of
-rock-masses, the waves and currents of the ocean. But we have already
-noted the effects thus produced, and need not now retrace our steps
-further than to recall the vast amount of devastation which can be
-shown to have been effected in our own country by marine causes, both
-in breaching the existing shores and in scooping out valleys and
-grinding down hills at former periods when the land was either rising
-above or sinking below the level of the sea.
-
-Having now satisfied ourselves that there goes on all over the world an
-incessant waste of the solid lands, that the disintegrated debris is
-washed down by rains and transported seawards by rivers, and that the
-waves are ever eating their way into the iron-bound coast-line as well
-as into the low alluvial shore, we naturally come to ask the result
-and end of all this decay. What becomes of that vast amount of mineral
-matter annually removed from the land? To be able to answer this
-question clearly and distinctly, let us look for a little at what takes
-place in lakes, at river-mouths, and in open sea.
-
-The river Rhone rises among the Bernese Alps, and after a course of
-about 100 miles through the Canton of Valais, it enters the upper end
-of the Lake of Geneva. Its waters, where they mingle with those of the
-lake, are muddy and discoloured, but where they pass out at the town of
-Geneva are limpid and clear. The mud, therefore, which they bring into
-the lake must be deposited there, and as the stream may have continued
-to flow for thousands of years, we may reasonably expect to find some
-trace of the large amount of sediment necessarily deposited during the
-whole or part of that long period. Accordingly, careful examination of
-the Lake of Geneva has shown that such accumulations have really been
-formed, and that their progress and amount during part of the historic
-period can be approximately calculated. Where the turbid current of the
-Rhone enters the still water of the lake, the mud slowly sinks to the
-bottom. In the lapse of centuries layer after layer has been thrown
-down, rendering the lake at this part sensibly shallower, until a large
-area or delta has been filled up and converted into a flat alluvial
-plain. Thus, a town which in the time of the Romans formed a harbour
-on the water's edge, now stands more than a mile and a half inland.
-This new-formed land is entirely the work of the stream, and if we
-could obtain a complete section of it from the surface to the bottom,
-"we should see a great series of strata, probably from 600 to 900 feet
-thick (the supposed original depth of the head of the lake), and nearly
-two miles in length, inclined at a very slight angle." These strata,
-which are said to have taken about eight centuries to form, "probably
-consist of alternations of finer and coarser particles; for, during the
-hotter months, from April to August, when the snows melt, the volume
-and velocity of the river are greatest, and large quantities of sand,
-mud, vegetable matter, and drift-wood, are introduced; but, during the
-rest of the year, the influx is comparatively feeble, so much so that
-the whole lake, according to Saussure, stands six feet lower."[55] If
-the present conditions continue for a sufficient length of time, the
-lake may be eventually filled up with mud, sand, and gravel, deposits
-that would eventually harden by pressure into shale and sandstone. So
-that the day may yet arrive when the blue waters of the Leman lake
-shall have passed away, when the Rhone perchance may have ceased to
-flow or found its way by some other channel, when the peasant may guide
-the plough where now the boatman plies the oar, and when the geologist
-shall trace out in quarries and excavations the successive deposits of
-hardened sediment with their lacustrine shells and drift-wood, and,
-musing on the changes of which they are the silent yet impressive
-witnesses, may sit down to pen a record of the gradual extinction of
-the Leman lake on that classic ground where an immortal historian
-described the decline and fall of the empire of Rome.
-
-[Footnote 55: Lyell's _Principles of Geology_. Ninth edition, p. 252.]
-
-The alluvial matter deposited by the Rhone at its entrance into the
-Lake of Geneva suffers perhaps no change when it once reaches the
-bottom. Layer after layer accumulates tranquilly, without disturbance
-from surface currents or other causes, so that the renovating effects
-of the stream have here every advantage. It is otherwise, however,
-where a delta gathers at the mouth of a river upon the sea-margin.
-There tides and currents are ever demolishing what the stream has
-piled up. Often, too, owing to the prevalence of high winds from
-seawards, the river is dammed up for leagues, and the waters of
-the ocean encroach far on the delta, mingling in this way marine
-remains with those that are fluviatile or terrestrial. But with these
-modifications the process of delta-formation remains essentially the
-same, both in lakes and at the sea. The vast quantities of sand and
-gravel transported by rivers during the flood-season sink to the bottom
-as soon as the motion of the water will permit. This takes place at
-the shore, where eventually wide tracts of low alluvial land encroach
-upon the sea, covered with marshes and overgrown with vegetation. A
-section of any of these deltas, obtained in boring for water, shows a
-succession of sands and clays, with occasionally a few calcareous beds
-and quantities of peaty matter formed of vegetation either drifted
-or that grew on the spot.[56] If, now, a sufficient amount of matter
-were piled over these loose incoherent strata, they would eventually
-become as hard and compact as any of our ordinary building stones. The
-sand would subside into a firm compact sandstone; the clay, in like
-manner, would consolidate into fissile shale; the peat would become
-chemically altered into coal; the calcareous seams would take the form
-of layers of limestone; while the leaves, twigs, branches, and trunks,
-dispersed through all the beds, would get black and carbonized, so as
-precisely to resemble the lepidodendra, calamites, stigmariæ, &c., of
-the carboniferous rocks. And thus might a mass of fossiliferous strata,
-thousands of feet deep and thousands of square miles in extent, be
-amassed by the prolonged operation of a single river.
-
-[Footnote 56: The structure of maritime deltas, especially their
-relation to the growth and entombment of forests, will be more fully
-alluded to in a subsequent chapter, when we come to inquire into the
-origin of a coal-field.]
-
-It often happens that a delta is prevented from extending further
-seawards owing to the prevalence of some marine current that comes
-sweeping along the coast-line and cuts away the accumulations thrown
-down by the river. The sediment thus removed is often carried to great
-distances, and eventually settles down as a fine mud along the floor of
-the sea, entombing any fucoids, infusoria, shells, corals, fish-bones,
-or other relics that may lie at the bottom.
-
-He who has witnessed a storm along a rocky coast-line, has marked the
-breakers battering against the weather-bleached cliffs, and heard the
-thunder-like rattle of the shingle at the recoil of every wave, needs
-not to be told how vast an amount of sediment must in this way be
-formed. The pebbles of the beach are ground down still smaller, the
-sand produced by their friction finds its way to a lower level, while
-the finer particles taken up by the water are borne out to sea, and if
-a current traverse the locality may be transported for leagues, till
-they at last settle to the bottom. The floor of the sea is consequently
-always receiving additions in the form of fine mud--the waste of the
-land--derived either from breaker-action, rivers, or icebergs, so
-that a series of marine deposits exactly similar to those we find
-among the rocks of our hills and valleys, must be constantly in the
-course of formation. If circumstances be favourable, the shingle of
-the beach may eventually either be covered over or reach a part of
-the sea undisturbed by currents or waves, and then consolidate into
-what we call conglomerate or pudding-stone. The sand, as before,
-becomes sandstone, and the mud laminated shale or hardened clay. These
-deposits may go on forming for thousands of years, until at last some
-slow elevation or some sudden upheaval of the ocean bed brings them to
-the light of day as part of a new continent. Thus exposed they would
-differ in no respect from rocks of a similar kind now visible, and
-the geologist, in tracing out their origin and history, would have no
-hesitation in ranking them among the ordinary marine formations of the
-globe.
-
-In fine, we cannot quit the subject without being convinced that
-these ceaseless changes afford one of the grandest examples of that
-continuous series of mutations--cycle and epicycle--which has been
-already alluded to as a distinguishing feature in all the operations
-of Nature. We are accustomed to think and speak of "the everlasting
-hills." We look on the solid lands whereon we dwell as the emblem of
-all that is stable and steadfast, and on the boundless ocean as the
-type of all that is unsteady and changeful. The traveller who stands
-on those plains where the human race was cradled, marks still the same
-valleys with their winding rivers, still the same rocks and hills,
-still the same blue sky overhead. The dust of centuries has gathered
-over the graves and the dwellings of the early races, yet the covering
-is but thin, and if we could conjure from their resting-place some
-of these venerable patriarchs, they might perhaps see little or no
-change on the haunts of their boyhood. We feel it otherwise, however,
-when we contemplate the ocean. In sunshine and in storm its surface
-never rests. The wave that now breaks against some bald headland of
-our western shores may have come sweeping across from the coast of
-America, and the broad swell that rolls into surf along the shores
-of Newfoundland may have travelled from the frozen seas of the North
-Pole. And so it has ever been; the "far resounding sea" of Homer is the
-"far resounding sea" still; and the "countless dimpling of the waves,"
-invoked in his agony by the chained Prometheus, remains restless and
-playful as ever.
-
-"Firm as a rock," and "fickle as the sea," have therefore become
-proverbs of universal acceptance. Yet when we investigate the matter
-as we have done in this and the preceding chapter, it appears that an
-exactly opposite arrangement would be nearer the truth. It is the sea
-that remains constant--
-
-    "Time writes no wrinkle on its azure brow;"
-
-while the land undergoes a continual change. Hills are insensibly
-mouldering away, valleys are ever being widened and deepened, rocky
-coasts and low alluvial shores suffer a constant abrasion, while
-even within the bowels of the earth the process of decomposition
-uninterruptedly proceeds. And thus, in place of remaining unchanged
-from the beginning, we know of nothing more mutable than the land on
-which we dwell, so that if the waste everywhere so apparent were to
-go on unchecked or unmodified, island and continent would eventually
-disappear beneath the waves. Here, however, another principle comes
-into operation. The debris removed from the land, as we have seen,
-is not annihilated. Slowly borne seawards, it settles down at river
-mouths or on the floor of the ocean as an ever-thickening deposit,
-which eventually hardens into rock, as solid and enduring as that
-whence it was derived. But it does not always remain there. Owing to
-the action of subterranean agencies with which we are but slightly
-acquainted, different parts of the sea-bottom are continually rising.
-Sometimes this process goes on very slowly, as along the shores
-of Sweden, where the coast has been ascertained to emerge in some
-localities at the rate of about thirty inches in a century; sometimes
-with prodigious rapidity, as on the coast of Chili, where the land
-was upheaved from two to seven feet in a single night. There can thus
-be no doubt that the mysterious agency which produces earthquakes and
-volcanoes on the land affects equally that portion of the earth's crust
-covered by the waters of the ocean, and must be ceaselessly employed
-in elevating large areas of sea-bottom into new continents, that will
-ere long become clothed with vegetation and peopled with animals.
-In contemplating, therefore, the constant decay in progress on the
-surface of the land, we see not a mere isolated process of waste, but a
-provision for future renovation. The sandstone cliffs of the shore are
-battered down and their debris carried out to sea, but when sea-bottom
-comes to be land-surface, they may be sandstone cliffs again, lashed
-once more by the breakers, and once more borne as sediment to the
-depths of the sea. And thus, in what may seem to us sublime antagonism,
-land is ever rising in the domain of ocean, and ocean ever encroaching
-on the regions of land. No sooner does a new island, or mountain peak,
-or wide area of continent, appear above the waves, than the abrading
-agencies are at work again. Rain, air, frost, rivers, currents,
-breakers, all begin anew the process of destruction, and cease not
-until the land has utterly disappeared, and its worn debris has sunk
-in mid-ocean to be in process of time once more dry land, and suffer
-another slow process of obliteration.
-
-Such is the economy of nature around us now, and that such will
-continue to remain the condition of things in the future, we can affirm
-with probability from a consideration of the history of the past. The
-geologist can point to masses of rock several miles in thickness, and
-occupying a large area of the globe, formed entirely of the worn debris
-of pre-existing formations. The very oldest rocks with which he is
-acquainted are made up of hardened sediment, pointing to the existence
-of some land, even at that early period, worn down by rivers or
-wasted by the sea. During all the subsequent ages the same principles
-were at work, and now well-nigh the only evidence of the geological
-periods is to be gathered from the layers of sediment that successively
-settled down at the sea-bottom. The records which it is the task of
-the geologist to decipher, are for the most part written in sand and
-mud--the deposits of the ocean, for in by far the larger number of
-formations into which the stratified part of the earth's crust has been
-divided, and which form his only guide to the history of the past, he
-can detect no trace of land. Hill and valley have alike disappeared,
-and the character of their scenery and inhabitants he can often but
-dimly conjecture from the nature of the sediment and of the drifted
-terrestrial relics that may chance to be found among strata wholly
-marine.
-
-
-
-
-CHAPTER X.
-
-
-  The structure of the stratified part of the earth's
-       crust conveniently studied by the examination of a
-       single formation--A coal-field selected for this
-       purpose--Illustration of the principles necessary to such
-       an investigation--The antiquities of a country of value in
-       compiling its pre-historic annals--Geological antiquities
-       equally valuable and more satisfactorily arranged--Order
-       of superposition of stratified formations--Each formation
-       contains its own suite of organic remains--The age of
-       the boulder defined by this test from fossils--Each
-       formation as a rule shades into the adjacent ones--Mineral
-       substances chiefly composing the stratified rocks few
-       in number--Not of much value in themselves as a test of
-       age--The Mid-Lothian coal-basin--Its subdivisions--The
-       limestone of Burdiehouse--Its fossil remains--Its probable
-       origin--Carboniferous limestone series of Mid-Lothian--Its
-       relation to that of England--Its organic remains totally
-       different from those of Burdiehouse--Structure and
-       scenery of Roman Camp Hill--Its quarries of the mountain
-       limestone--Fossils of these quarries indicative of an ancient
-       ocean-bed--Origin of the limestones--Similar formations still
-       in progress--Coral-reefs and their calcareous silt--Sunset
-       among the old quarries of Roman Camp Hill.
-
-Among the standard jokes of ancient Athens was that of the simpleton
-who, with the intent of selling his house, carried about a brick as a
-specimen. In this and the following chapter I propose to follow his
-example, and, for the purpose of giving my reader a correct notion of
-the structure displayed in the stratified portion of the earth's crust,
-to select therefrom a single formation whose details will connect
-together the subjects discussed in the previous pages. And in so doing
-it will, I trust, be found that what was ludicrous in the hands of
-the Greek becomes sober sense in those of the geologist. The "brick,"
-then, which I would humbly present to the thoughtful consideration of
-the reader as really a specimen of the house of which it forms a part,
-has been termed the "Carboniferous System," and consists of a series
-of stratified rocks sometimes nearly 15,000 feet thick. The plants
-and animals found in these strata have been already described somewhat
-in detail, and we have turned aside to look at the processes whereby
-such masses of sedimentary rock came to be accumulated. But we shall
-probably better understand the habits of the animals and the general
-aspect of the vegetation, as well as the agencies at work in depositing
-vast beds of mineral matter, if we take a coal-field and analyse it
-stratum by stratum, marking as we go their varied and ever-changing
-character, and the corresponding diversity of the included organic
-remains. Such an examination will bring before us some of the more
-striking and important laws of geological research, and while of use
-to the young observer, may be not without some share of interest
-to the general reader. Before beginning, however, let me endeavour
-to illustrate the principles that will guide us by a simple though
-hypothetical story.
-
-Suppose the bed of the Firth of Forth were raised above the level of
-the sea and covered over with verdure, and that, in ignorance of the
-previous topography of the locality, a mason were to excavate on the
-lately-born land the foundation for a dwelling-house. Immediately
-below the grass he would com? upon layers of hardened mud containing
-oyster-beds, with detached valves of cockles, mussels, fish-bones, and
-perhaps the tooth of an anchor or the timber of some old herring-boat.
-Now, if he were gifted with but ordinary intelligence, what would he at
-once conclude from these remains? Plainly, that the spot on which he
-stood had once been the bed of the sea. And if in place of appearing
-as dry mud and sand these deposits had got hardened into shale and
-sandstone, and the shells, too, had become hard and stony, this would
-not alter his convictions. He would still assert positively that he
-stood upon an old sea-bottom. And suppose further, that all this were
-far away from any sea, still such a circumstance could make no change
-in his opinion; he would rightly assert that the place of sea and
-land might vary, and that the ocean's being now many miles distant
-could be no argument against the waves having once rolled over the
-site of the intended dwelling-house. Let us further imagine that he
-continues his trench, and in sinking deeper comes to a bed of dark
-peat with snail-shells and bones of sheep, deer, and oxen. What will
-he infer from these? Clearly that they represent an old land-surface,
-once covered with vegetation and browsed over by ruminant animals, and
-that this old land-surface has at some distant period been submerged
-beneath the sea. Suppose, moreover, that below the peat there were a
-thin bed of reeds and rushes intermingled with the mouldering remains
-of fresh-water shells. He would in that case infer that before the
-formation of the peat the locality was occupied by a lake.
-
-Putting now all these deductions together, our mason would have evolved
-a very interesting history. He would have ascertained that in a bygone
-age the spot on which he stood was the site of a lake, tenanted by
-delicate shells and fringed with reeds and rushes, where the coot and
-the mallard may have reared their young; that in process of time the
-vegetation gained upon the water, choking up the lake, so as gradually
-to form a soil firm enough to support sheep, deer, and oxen, and
-yielding shady coverts whither the antlered stag could retire and lay
-him down to die; that in after years the sea had encroached upon the
-peat-moss, and oyster-beds begun to form where cattle had been wont to
-browse; that again the ocean receded, and the land emerged to assume
-new verdure and receive new inhabitants.
-
-Now, in all this reasoning there is no hypothesis or speculation. The
-mason proves himself an intelligent, honest fellow, and uses his eyes
-and his head where many other men would perchance see very little need
-for the use of either. There can be no setting aside of his story;
-he can appeal to facts. "There," says he, "is a layer of peat with
-the rush-stalks and moss-fibres matted together in the soft brown
-mouldering substance, exactly as I have seen them a hundred times in
-the peat-cuttings on the moors, and I cannot but believe that they
-must both have had the same origin, that is, that they grew in swampy
-hollows of the land. There, too, lies a stratum of fresh-water shells
-identical with those that occur in our ponds and marshes. Although
-mouldering now, they are evidently not fragmentary, but entire and
-unbroken; some of them are young, others full-grown, and they lie
-grouped together as in our present lakes. Such shells could only live
-in fresh water, therefore the spot where I stand must have been at one
-time a fresh-water lake. There, again," he continues, "is a bed of
-oysters which cannot have been transported hither, for their valves are
-together, lying just as they do in our present oyster-beds. This green
-field, therefore, must have been at one period a muddy sea-bottom."
-
-After this manner and upon this kind of evidence must all inquiries
-into the past changes of the earth's surface be conducted. And provided
-only we proceed cautiously, reasoning from positive facts, and
-striving as far as possible to exhaust what Bacon calls the "negative
-instances," our deductions possess all the certainty of truth. For in
-much the same fashion do we derive no small part of our acquaintance
-with the early history of our own land, as well as with the arts
-and customs of other nations. The scattered relics turned up by the
-operations of the farmer--wooden canoes, flint hatchets, gold torques,
-bronze pots, fragments of pottery, and rusty coins--all have their
-bearing upon the annals of the country, and so clear is the evidence
-which they read out that an eminent antiquary has divided the early
-ages of Scotland into three periods, distinguished, from the character
-of their relics, as the "Stone Period," the "Bronze Period," and the
-"Iron Period."[57] But in such a classification the historian has
-little to guide him save the nature of the relics themselves. He places
-the rudest first, and groups the rest in succession, according to the
-degree of advancement in civilisation which they respectively indicate.
-And the grouping seems just, though in some cases objects belonging
-to two of these periods may have been to some extent contemporaneous,
-just as thatched roofs gave way to tiles, tiles to slates, and slates
-partly to lead, though at the present day a walk of half an hour in
-some localities will bring before us specimens of all these styles
-still in use. If, however, the relics of geological history lay
-scattered about like those of early Scottish history, all hope of
-ever attaining to anything like a correct chronology and arrangement
-would have to be abandoned in despair. In truth, it would then be
-impossible to conjecture whether any succession of ages preceded man,
-during which other tribes of plants and animals lived and died, or
-whether the whole mass of fossiliferous rocks had been accumulated
-since the human era, or perhaps created just as we find them. But all
-this uncertainty and confusion has been obviated simply by the fossils
-being ranged in beds vertically above each other, the oldest at the
-bottom and the latest at the top. So that if we find in a low cliff
-along the shore blown sand and broken whelks immediately beneath the
-vegetable mould, and oyster-valves in a clayey bed three feet below, we
-pronounce the oysters to have lived before the whelks, and that between
-their respective lifetimes a sufficient interval must have elapsed to
-allow three feet of sand, clay, and gravel, to accumulate. What is thus
-true on the small scale holds equally so on the large. The stratified
-formations in which organic remains occur are found to be grouped
-regularly over each other in a settled invariable order. If A be below
-B in England it will be below B all over the world, and if C be above
-D at the North Pole it will be so at the South Pole too, and at every
-locality where the two rocks lie together. This order of superposition
-forms one of the grand tests for the age of different rock masses. By
-means of this simple rule the geologist has been enabled to arrange
-the different stratified formations, supplying the missing portions of
-one locality from the more complete series of another, so as to form a
-chronological table of no small part of our planet's primeval history.
-
-[Footnote 57: See Dr. Daniel Wilson's deeply interesting work _The
-Pre-historic Annals of Scotland_.]
-
-But this is not all. We must attend to the character of the organisms
-as well as to their order of occurrence. We must distinguish the animal
-from the vegetable, the terrestrial from the marine, and scrupulously
-examine the peculiarities of each so as to recognise them again in
-other strata. By such careful scrutiny we may trace out the successive
-changes in the physical aspect of a district during past times,
-viewing in terrestrial plants (when clearly occupying their original
-site) evidence of an old land-surface; in _cyprides_, _unios_, and
-_paludinæ_, traces of a former lake; and in corals and marine shells,
-unmistakable proofs of an ancient sea-bottom. Still further, by marking
-the specific character of such fossils we obtain a key to the age of
-many rocks that otherwise would be unintelligible, for it is found that
-each of the stratified formations, from the oldest upwards, has its own
-peculiar and characteristic organisms recognisable all over the world.
-This test of the geological position and age of any fossiliferous rock
-has a peculiar value, for it can be applied with infallible success
-where every other fails. The order of superposition is often obscured
-by dislocations and other causes, and the mineralogical texture of a
-formation may change entirely in a short space; but if the imbedded
-fossils remain, we can be at no loss as to the relationship of the rock
-which contains them. And hence, if in some lone island of the Hebrides,
-haunted only by the screaming sea-fowl, we find a patch of shale
-containing ammonites, belemnites, and a host of other shells in large
-measure identical with those occurring among the clays and limestones
-of Gloucestershire, we infer that they must all belong to one series
-and be of the same age; that, as we know the English beds to form part
-of a formation called Lias, of which, the exact place in the geological
-scale has been ascertained, so in like manner the Scottish beds must
-occupy a position in the same series; and that consequently there was
-a time when the site of Cheltenham and part of the Hebrides lay each
-beneath a sea which teemed with ammonites, belemnites, and many other
-mollusca, along, too, with the bulky saurians of the Lias. And yet
-no study of the surrounding rocks in the northern locality, even if
-carried on for a thousand years, could ever have thrown one ray of
-light upon the subject. In an earlier page our grey rounded boulder
-was introduced to the reader as a mass of sandstone belonging to the
-Carboniferous group of rocks. How could one be sure of the precise
-geological age of a loose water-worn block that might have journeyed
-all round the world? Simply by its included fossils. The calamite,
-lepidodendron, and stigmaria, revealed the date of the stone as clearly
-and unmistakably as if we had seen it lifted from its original bed
-by the lever and crane of the quarryman. These plants are peculiarly
-characteristic of the Carboniferous strata, and they consequently
-stamp as undoubtedly of carboniferous age the rock which contains
-them, whether it be sandstone or conglomerate, limestone or shale, and
-whether we meet with it among the newly-raised blocks of the quarry,
-or among the pebbles of the sea-shore. Each geological formation, I
-repeat, beginning at the oldest known to us, and ending with those that
-are still forming in our lakes and seas, has its own set of organic
-remains whereby we can detect it wherever it may chance to occur, from
-the equator to the poles. Each has its _style_, so to speak, just as
-we can at once tell whether a drawing represents a Hindoo, Egyptian,
-Assyrian, Greek, or Gothic temple, simply from the general _style_ of
-the architecture.
-
-Could we but voyage back in time as we can sail forward in space,
-we should find each of the geological formations not less clearly
-defined than are the different nations and countries of the present
-day.[58] Were the reader suddenly set down in an out-of-the-way street
-of Paris, he would probably not be long in discovering that he stood
-on French ground. Or if spirited away in his sleep he should awake on
-the banks of the Nile, he would soon ascertain himself to be in the
-land of the Ptolemies. And so if you transported a geologist blindfold
-into a quarry where ammonites and belemnites abounded, mingled here
-and there with bones of ichthyosaurs and plesiosaurs, he would tell
-you at once that the quarry lay among liassic strata. Or if he were
-placed in a ravine where the rocks on either hand displayed fern-stems,
-lepidodendra, stigmariæ, and sigillariæ, he would tell you that the
-surrounding district was one of carboniferous rocks, and that probably
-at no great distance there might be found smoking engines and dozens
-of coal-pits. Or could you set him down in some dark night upon a
-wild coast-line, and show him, perchance by the flare of torch-light,
-bones and scales of osteolepis, pterichthys, and dipterus, lying on
-the rocks around, he would tell you that the grim crags which shot up
-into the gloom were as ancient as the era of the Old Red Sandstone. In
-any case the character of the rock would signify nothing, nor would
-he care about the general features of the landscape, though these too
-become important characteristics in certain cases. Show him but a few
-recognisable fossils, and you give him, as it were, an "Open Sesame" to
-which the rocks unfold their gates and reveal a store of wonders yet
-more varied than those in the cave of Ali Baba.
-
-[Footnote 58: See _ante_, pp. 31, 32, and the Table of Rocks at the end
-of the volume.]
-
-But though the geological systems stand thus strongly marked off from
-each other when viewed as a whole, their boundary lines can often be
-only approximately drawn, thereby reminding us that the divisions are
-of man's device, and can have had no place in the plans of Him who
-needs not to chronicle His working by years and ages, but with whom
-there is no past and no future. One formation insensibly passes into
-another just as one nation merges into those around it. There are
-sometimes gaps, however, between the formations, serving to mark out
-strongly the limits of each,[59] precisely as intervening seas and
-mountain-chains serve to mark put the boundaries of different peoples
-and tribes.
-
-[Footnote 59: Such cases, however, are probably merely local, and may
-have originated from some features in the ancient physical geography
-of the districts where they occur. For instance, it has always been
-thought that palæozoic ages were marked off by a strong line of
-demarcation from succeeding secondary times. But the gap which occurs
-in England, France, and Germany, is being slowly filled up from the
-evidence furnished by other countries, and we shall probably find in
-the end that the Permian dovetailed with the Trias as closely as the
-Silurian with the Old Red, or the Lias with the Oolite. In truth, the
-longer we study the past history of our planet the less do we see of
-hiatus and chasm and sharp clearly defined boundary line; while the
-doctrine of a uniform system of laws and arrangements in the physical
-world, first philosophically propounded in the immortal "Principles" of
-Sir Charles Lyell, is ever receiving fresh confirmation.]
-
-The mineral substances of which these formations consist are
-comparatively few in number, being chiefly varieties of sandstone,
-shale, conglomerate, and limestone. One sandstone can often be scarcely
-distinguished from another, and so also with the other rocks; hence
-such tests as mineralogical texture supplies can seldom be relied
-on to determine the age of rocks. We can prove, for example, that a
-series of limestones in England may be identical in age with a set of
-sandstones in Sweden, and with a group of shales in America, because
-they all contain the same or representative genera and species of
-organic remains. They occupy the same position in the geological scale;
-that is, the animals whose fossilized remains lie buried in these rocks
-were all living at the same time, while lime was gathering at the
-sea-bottom over the site of part of England, and sand was being thrown
-down upon a portion of what is now Sweden, and mud was accumulating
-over a submerged area of America. In such cases the differences of
-mineralogical character go for nothing in determining the age of the
-rocks; we have to rely solely on the embedded fossils, and on the order
-of superposition.
-
-Keeping in view, then, that the formations into which the geologist
-has grouped the stratified portion of the earth's crust have a settled
-and invariable order of occurrence, that each of them contains its own
-peculiar and characteristic group of organic remains whereby it can
-be recognised in any part of the world, and that such remains form
-often the sole test at once of the geologic age and of the origin of
-the rocks wherein they lie, we may return to the plan above proposed
-and endeavour to understand the structure of a coal-field. For this
-purpose it may be well to select one of the northern coal-fields of
-Britain, since these perhaps display a greater variety in their organic
-contents, and bear evidence of more diversified changes in their mode
-of formation than can be seen in those of the south. The strata that
-compose the coal-basin of Mid-Lothian will probably best suit our
-purpose, as they are free from the disturbing effects of those igneous
-intrusions which play so important a part among similar rocks to the
-north and west.
-
-The Mid-Lothian coal-field comprises a mass of stratified beds of
-sandstone, shale, coal, ironstone, and limestone, the united depth of
-the whole being above 3000 feet. By reference to the annexed Table it
-will be seen that the lowest beds of the section are chiefly sandstones
-and shales, extending downwards to an unknown depth, without any coal
-that can be profitably worked. These under-strata form the Lower
-Carboniferous group. Above them comes a middle zone in which the
-characteristic beds are of limestone, comprising the middle portion or
-Mountain Limestone of the Scottish Carboniferous rocks. The third and
-highest subdivision forms the Upper Carboniferous group or true Coal
-Measures, and constitutes the whole of what is properly the Mid-Lothian
-coal-field. For the sake of noting some of the remarkable changes
-exhibited in the character of the rocks, it may be well to begin our
-survey among the upper beds of the under group. Let us take as our base
-the famous limestone of Burdiehouse, and work our way upward through
-the four thousand feet of strata that lie piled above it.
-
-
-VERTICAL SECTION OF THE MID-LOTHIAN COAL-FIELD.
-
-  UPPER CARBONIFEROUS
-    OR COAL-MEASURES.
-    /                      / |         | A series of sandstones, shales,
-    |                      | |         |  and fire-clays, with interbedded
-    | =Flat Coal Group.=  /  |         |  seams of coal occupying the
-    | (Above 1000 feet.)  \  |         |  central area of Mid-Lothian
-    |                      | |         |  coal-field.
-    |                      \ |         |
-    |                        |—————————|
-    |                      / |         |
-    |                      | |         |
-    |                      | |         | A great series of sandstones
-    |                      | |         |  and shales with three seams of
-   /  =Roslyn Sandstone   /  |         |  marine limestone (marked here
-   \       Group.=         \  |·········|  by dotted lines), With the
-    | (About 1500 feet.)   | |         |  exception of one or two thin seams
-    |                      | |·········|  it contains no coal, and serves in
-    |                      | |         |  this way to mark off the coal-
-    |                      | |         |  bearing beds above from the still
-    |                      | |         |  richer coal-bearing beds below.
-    |                      \ |·········|
-    |                        |—————————|
-    |                      / |         |
-    |                      | |         | A group of sandstones and
-    | =Edge Coal Group.=  /  |         |  shales similar to those at the
-    \  (800-900 feet.)    \  |         |  top, and like them abounding in
-                           | |         |  coal seams, some of which are
-                           \ |         |  thick and valuable.
-  ————————————————————————————————————————————————————————————————————————
-  CARBONIFEROUS LIMESTONES.  |         |
-    /   =Roman Camp        / |         | A set of marine limestones
-    |    Limestones.=      | |         |  intercalated with sandstones,
-    \  (150-200 feet.)     \ |         |  shales, and a few seams of coal.
-  ————————————————————————————————————————————————————————————————————————
-  LOWER  CARBONIFEROUS.      |         |
-    /                        |         |
-    |                        |         |
-    |    =Burdiehouse      / |         | Sandstones and shales extending
-    |      Limestone.=     | |·········|  to an unknown depth, often
-    |      (27 feet.)      \ |         |  with seams of dull-grey compact
-   /                         |         |  limestone, rarely of coal. The
-   \  Thickness of Lower     |         |  beds become very red towards
-    |  Carboniferous Rocks   |         |  the base, and wholly devoid of
-    |  unknown, but          |         |  fossils.
-    |  probably greater      |         |
-    |  than that of the      |         |
-    \  upper.                |         |
-
-The Burdiehouse limestone is twenty-seven feet thick, of a yellowish
-or bluish-grey colour, very compact, splintery, and often fissile
-in structure, with a finely striped and laminated appearance, which
-probably indicates a slow and tranquil origin. It is Crowded with
-fossils, every fragment when taken up showing its seed-cone, fern-stem,
-fish-scale, or minute _cyprides_. All the plants seem to belong to
-terrestrial species, and have a broken and often a macerated look.
-Manifestly they never grew where we now find their remains; they must
-have come drifting down from swamp, or jungle, or hill-side. And so
-we come to know that during the later ages of the Lower Carboniferous
-period, there lay somewhere in the neighbourhood of Burdiehouse a land
-clothed with ferns and club-mosses, and through whose swampy hollows
-there spread a network of stigmariæ, while sigillariæ waved their
-fronds high overhead. From what has been said on a previous page we may
-infer that the climate of the old land was moist and equable like that
-of New Zealand, nourishing a prolific growth of ferns and other plants
-comparatively low in the botanical scale. The scenery of the vegetation
-displayed perhaps no great variety of outline, but exhibited rather an
-endless succession of the same graceful forms.
-
-But the limestone presents us with other remains than merely those of
-terrestrial plants. It displays in abundance the minute dissevered
-cases of _cypris_, the small crustaceous animal described above.
-Recent species of this genus inhabit stagnant ponds or the bottoms of
-gently-flowing rivers, and we hence infer that the ancient species must
-in like manner have possessed a similar habitat, and consequently that
-the rocks which preserve their remains must have been deposited in
-fresh (or, perhaps, brackish) water. Tried by this test the Burdiehouse
-limestone must be regarded as a lacustrine, or more probably a
-fluviatile formation, which gathered slowly on an undisturbed bottom
-swarming with crustaceans and plentifully covered with leaves,
-branches, rootlets, and other fragments of terrestrial plants brought
-down by streams from the adjoining land. Thus the inferences drawn from
-the numerous plants, and from the countless multitude of cypris-cases,
-come to be mutually corroborative. The former tell us of some
-neighbouring forest-covered country; the latter lead us, as it were,
-into its river-mouths, whence we can descry the waving woods on either
-side.
-
-Still we have not exhausted all the fossil remains of the Burdiehouse
-rocks. Mingled among the stems of ferns and lepidodendra, and the
-scattered valves of the cyprides, lie the scales, teeth, and bones,
-of several large ganoidal fishes, along with entire specimens of the
-smaller genera. The scales of holoptychius are especially abundant,
-often crowded together by dozens, and probably not far out of the
-arrangement they had when grouped on the body of the living animal.
-Detached teeth of the same fish also frequently occur along with
-disjointed internal bones. The remains of the contemporary megalichthys
-likewise abound, more particularly the scales, which have a fine
-nut-brown colour, and dot the surface of the rock with their bright
-glittering enamel. Several other smaller ganoids may be met with,
-especially a small and elegant species of Palæoniscus (_P. Robisoni_),
-and one of Eurynotus, a fish remarkable for the great size of its
-dorsal fin. Not uncommon, too, are the ichthyodoralites of a gigantic
-placoid--the _Gyracanthus formosus_--with all their delicately-fretted
-ornament and a peculiar crystalline glistening surface when broken
-across, whereby the smallest fragment can be easily distinguished from
-any other bone in the limestone. Such are the ichthyic remains of the
-Burdiehouse beds; what deductions can be legitimately drawn from them?
-
-As before, we must have recourse to the analogy of living nature. The
-existing ganoidal fishes chiefly inhabit lakes and rivers, especially
-near the confluence of the latter with the ocean. They feed on
-the decaying matter brought down from the land, or on the minute
-Crustacea that swarm upon the river-bottom. If, as seems probable,
-the ancient ganoids had habits similar to those of their present
-representatives, then the rocks wherein their remains occur abundantly
-may have originated on river-bottoms, and such may have been the case
-at Burdiehouse. So that here again we have corroborative evidence
-of the fluviatile origin of the limestone in question. But besides
-the remains of ganoidal fishes there occur the defensive spines of
-placoids. Now, the placoids are emphatically marine fishes, and the
-sole living representative of the most ancient genera of this order
-is the Port-Jackson shark, that haunts the seas round Australia. The
-ichthyodorulites of Burdiehouse, therefore, if we would apply analogy
-consistently, must be regarded as the relics of marine species. And
-this conclusion, too, will be found in entire harmony with those
-already obtained, for if we are right in assuming the Burdiehouse
-strata to have originated at a river-bottom, particularly near the sea,
-we may expect to find the remains of marine predaceous fishes imbedded
-in the sediment that gathered there, just as the teeth of the shark may
-be preserved among the mud forming in the upper reaches of many British
-estuaries, seeing that not a few instances are known where that fish
-has been stranded on such shores as those of the higher parts of the
-Firth of Forth. These Burdiehouse ichthyodorulites give positive proof
-that the limestone could not have originated in a lake, and the only
-explanation left is that of a river-bottom.
-
-But it may perhaps be objected that, after all, these fish-remains
-are for the most part fragmentary, and may consequently be drifted
-specimens, so that no conclusion as to the source of the rock can be
-based on their occurrence there. The imbedded land-plants confessedly
-came from some distance, why may not the same have been the case with
-the bones and scales of the river-haunting ganoid fishes? And, indeed,
-did we regard these fish-bones and scales merely in themselves, the
-argument might not perhaps be very easily answered, although the great
-numbers and perfect outline of the bones, teeth, and scales, afford
-pretty strong evidence that the owners lived and died in the locality
-where their remains are found. But there is a curious kind of evidence
-to be gleaned from the rocks around them whereby this objection can be
-at once set aside. In the limestone itself, and especially in some of
-the shales above, there occur vast numbers of small oblong coprolitic
-concretions of a dirty yellow or brown colour, full of scales and
-fragments of bone. There can be no doubt that these are the excremental
-remains of predaceous animals, while their great number and perfect
-preservation assure us that they could not have been drifted from a
-distance, but must rather have been deposited on the spot where we now
-find them. And thus we conclude that the site of Burdiehouse must have
-been a favourite haunt of these bone-covered fishes; that the bulkier
-forms, armed with pointed teeth or barbed-spines, preyed upon their
-humbler congeners, while these in turn may have fed on the cyprides
-that swarmed by millions at the bottom of the estuary. I have often
-detected in these coprolites the peculiarly-sculptured scales of the
-palæoniscus. These graceful little animals must, therefore, have died
-that their lordlier brethren might dine.
-
-On a survey, then, of the whole evidence from fossils, we are led to
-conclude that the Burdiehouse limestone was slowly elaborated at the
-bottom of an estuary, into which the remains of terrestrial plants were
-drifted from the land, while bone-covered fishes haunted the waters,
-and into these busy scenes huge sharks ascended from the sea to share
-in the decaying putrescent matter ever brought down from the interior.
-
-The upper part of the limestone is shaly and argillaceous, and rests
-below a series of shales and thin sandstones. If the question were
-asked, what caused the change from limestone to shale, from the
-deposition of a calcareous to that of a muddy sediment, several
-answers might be given. The most probable seems to be the following.
-The limestone on weathered surfaces displays the mouldering casts of
-cypris-cases sometimes in such abundance as to show that the rock must
-be largely made up of them. The cyprides of the present day probably
-cast their shells annually; the integuments thus thrown off forming
-under favourable circumstances a thin mouldering calcareous marl at
-the bottom of the pond or marsh, along with the decaying shells of
-_paludina_, _planorbis_, _limnea_, or other fresh-water molluscs. We
-may conceive the Burdiehouse limestone to have had a similar origin.
-The cyprides, inhabiting water that contained little argillaceous
-matter, must have propagated by myriads, and during a long period of
-repose, in which the conditions of land and sea, and the directions of
-tidal currents and river-courses, appear not to have greatly varied
-in the neighbourhood of Burdiehouse, the calcareous exuviæ of these
-minute animals, along perhaps with the remains of other estuarine or
-fluviatile organisms,[60] would form each year a scarce appreciable
-stratum, until by slow aggregation a bed twenty-seven feet deep was
-elaborated. Each successive annual layer would hardly settle down more
-perceptibly or more rapidly than "the flickering dust that mottles the
-floor of some old haunted chamber."
-
-[Footnote 60: Though I have never observed molluscan remains in the
-limestone of Burdiehouse, they are abundant twelve miles to the west,
-in the equivalent strata around Mid-Calder, one little gastropod
-being especially plentiful near the base of the calcareous rock in a
-seam known to the quarrymen as the "Buckie fake." I have not met with
-specimens sufficiently perfect for identification, the hard splintery
-nature of the rock seldom allowing anything but a cross-section to be
-seen save on weathered specimens, where the general contour of the
-shells has sometimes reminded me of _Paludina multiformis_ grouped
-together in a recent fresh-water marl. In the shales above the
-Burdiehouse limestone, Dr Hibbert states he found a _unio_ (?), called
-by him _U. nuciformis_. _Trans. Roy. Soc. Edin._ vol. xiii. p. 245.]
-
-At last, however, this condition of things came to be modified. The
-direction of the river channel along some part of its course had
-varied, or some analogous change had taken place, so that muddy
-sediment transported from the land sank down amid the cyprides at
-the bottom. In circumstances so uncongenial these tiny denizens
-of the estuary diminished in numbers until the silt and sand came
-down so rapidly and in such abundance that they eventually died out.
-Alluvial matter still darkened the water and covered the river-bottom,
-enveloping now the fronds of a delicate fern that had waved along
-the margin of some sequestered lake far inland, anon a seed-cone
-that had been shaken by the breeze from the spiky branches of some
-tall club-moss. Among these muddy beds occur numerous coprolites and
-fish-scales, along with cypriscases and a few shells of unio (?),
-showing that though the cyprides were decreasing, the water still
-presented the old estuary conditions and still swarmed with life.
-
-Eventually there came other changes in the direction or rapidity of
-river currents, and the accumulations of mud and silt were succeeded by
-a long protracted deposition of yellow sand, now forming the sandstone
-of Straiton. It enclosed many stems of stigmaria, lepidodendron, &c.,
-and in certain limited areas these plants matted together in such
-quantities that their remains now form thin irregular seams of coal.
-It would appear, therefore, that notwithstanding these changes in the
-matter transported and deposited at the locality in question, the
-estuary character of the locality remained essentially the same. The
-sand was at length replaced by fresh accumulations of mud and sandy
-silt, which went to form the beds of shale and shaly sandstone now
-found above the Straiton rock.
-
-When in the course of many long centuries a depth of strata amounting
-to fully 300 feet had been amassed, the area of Mid-Lothian underwent
-a total change. Owing to a depression of the earth's crust, that seems
-to have been general over the whole of central Scotland, the estuary
-in which the Burdiehouse limestone and superincumbent strata were
-deposited became open sea. As the evidence of this change rests solely
-on the character of the imbedded organic remains, we shall pursue our
-induction by examining the beds somewhat in detail.
-
-Rather more than 300 feet above the limestone of Burdiehouse there
-occurs in the Mid-Lothian coal-field a series of shales and seams
-of limestone. The former are sometimes black and hard, sometimes
-bluish-grey, soft, and frequently imbedding the remains of several
-genera of mollusca and other organic remains. The limestones vary
-considerably in the thickness and general aspect of their several
-seams, some being highly crystallized and about two or three feet in
-depth, others dull, compact, and ranging up to twenty and thirty feet
-thick. The shales and limestones are intercalated with and sometimes
-pass into each other, through the gradations of shaly limestone and
-calcareous shales. The whole series may measure 150 to 200 feet,
-resting on the Straiton sandstone below, and passing upwards into
-the under part of the coal-bearing strata of Mid-Lothian known as
-the _Edge series_. These limestones form the northern _marine_
-equivalents of the mountain limestone of England, while the sandstones
-and shales on which they rest, including the Burdiehouse beds and
-all the Lower Carboniferous group, must probably be regarded as
-_estuarine_ equivalents of the same formation. That is to say, while
-marine limestones were accumulating over the site of central England,
-sandstone, shale, and drifted plants, were slowly gathering in a wide
-estuary over what is now central Scotland, and only at the close of the
-period did marine limestones form simultaneously at both localities.
-
-In examining these Mid-Lothian beds we are struck at once with the
-great dissimilarity that obtains between their organic remains and
-those of the underlying strata. All the land-plants disappear--ferns,
-lepidodendra, sigillariæ, and stigmariæ. The cyprides, too, no longer
-occur, though the shales seem, at a first glance, to differ in no
-respect from those underneath, in some of which the cypris-cases were
-seen to abound. Neither can we detect the glittering scales and teeth
-that stood out in such strong relief upon the rocks below. Yet the
-fossils are scarcely less numerous than they were in the lower beds.
-Nay, in some of the limestones they lie so crowded together that the
-rock seems entirely made up of them. Plainly such a total renovation
-of organic life points to some equally extensive change of a physical
-kind. Let us examine for a little some of the fossil remains occurring
-in the mountain limestone series of Mid-Lothian, and read off, if we
-can, the revolutions which they chronicle.
-
-[Illustration: Fig. 32.--Section from Gilmerton to Crichton; _a_, Lower
-Carboniferous; _b_, Mountain Limestone; _c_, Edge Series; _d_, Roslyn
-Sandstone Group; _e_, Flat Coals; _y_, Drift.]
-
-The neighbourhood of Edinburgh affords many facilities for the study of
-these rocks. They can be seen, for instance, at many points along the
-ridge of the Roman Camp Hill, near Dalkeith, exposed in the operations
-of quarrying. That ridge is formed by what is known technically as
-an anticlinal axis (Fig. 32); in other words, the lower beds of the
-coal-measures rise up here into a sort of broad wave-like undulation,
-round the sides of which the higher parts of the series are folded. The
-elevated area has either been pushed up from below, or the more level
-country around has subsided into two trough-like hollows, so that now
-the strata, which geologically speaking are lowest, come to occupy the
-highest ground in the district. Seated on some of the opener spots
-of this woody eminence the observer has a noble prospect on which to
-expatiate. The ground around him is rich in historic associations,
-and links itself to many a varied page in the annals of Scotland. The
-hill on which he rests is crowned by the mouldering mounds of what
-tradition reports to have been a Roman station, but which may perhaps
-belong to a still earlier era. A few hundred yards north rise the
-wooded slopes of Carberry Hill, where the hapless Mary surrendered to
-her rebel lords, and whence she was led into her own capital amid the
-insults of an infuriate rabble. Northward, too, lies the fatal field
-of Pinkie, and eastward the less deadly but not less decisive field
-of Prestonpans. To the west the eye can mark the grey smoke of the
-Scottish metropolis, with its dusky towers and its lion-shaped hill,
-and then the blue waving outline of the Pentlands that sweep away
-south and lose themselves among the distant hills which girdle in the
-coal-basin of Edinburgh and Haddington. The course of the Esk--that
-_fabulosus amnis_--passes by many a time-honoured spot, from Habbie's
-Howe and the scene of the Gentle Shepherd down by the haunted scenery
-of Roslyn, the cliffs of Hawthornden, the grounds of Newbattle, and
-the old Roman station of Inveresk. East, west, and south, the broad
-expanse of green field and clustering wood swells upward to the distant
-hills that encircle the landscape with a wavy line of softest blue.
-Northward the eye rests on the Firth of Forth with its solitary sails,
-bounded by the bosky heights of Fife, and opening outwards by the May
-Island and the Bass Rock into the far-off hazy ocean. On every side
-objects of historic interest lie crowded together, about which many
-pleasant volumes have been and might still be written. If the observer
-be a lover of geological science he will find an examination of the
-structure of the hill to impart an additional interest to the scene.
-From the wide panorama of hill and dale, river and sea, with all its
-battle-fields, castles, and abbeys, and all its memories of the olden
-time, let him turn into one of the quarries that indent the flanks
-of the hill, and try to decipher there the records of a still older
-history. An hour or two thus spent will pass swiftly and pleasantly
-away, and on quitting the quarry he will have gained a new light in
-which to look on the landscape that lies spread out below.
-
-The mountain limestone of Mid-Lothian consists, as has been mentioned,
-of several seams interbedded with black and calcareous shales. The
-quarries on Roman Camp Hill have been opened in several of the thickest
-of these seams. Let us enter one of the excavations. A vertical face
-of rock forms the background, overhung above by long dangling tufts of
-withered grass, and washed below by a pool of water having that milky
-green tint peculiar to old lime-quarries. The lowest rock visible is
-a dull grey limestone with a yellowish weathered surface. Above it
-rests a mass of hard yellow calcareous shale, known to the workmen
-as "bands." This rock is worthless as a source of lime, nor from its
-irregular laminations and shivery structure has it much value in any
-other way. A few inches of surface-soil form the upper part of the
-section. It requires but a glance over the weathered surface of the
-limestone to mark that the rock abounds in fossils. Of these by far
-the most numerous are the joints of the stone-lily, for the most part
-of small size, and when broken across, with their minute central
-apertures, looking like so many fractured stems of tobacco-pipes. Other
-organisms also occur, such as a small delicately-plaited productus,
-a larger and more boldly-ribbed spirifer, a small cyathophyllum or
-cup-coral, and the fragile interlacing meshes of one of the net-like
-bryozoa--the fenestella. Of rarer occurrence are the whorled shells
-called bellerophon, the long chambered shells of orthoceratites, and
-the grooved tapering shells of pinnæ. Many of the same fossils can be
-detected in the beds above, which thus evidently all form part of one
-series with the rock below. What, then, were the circumstances under
-which these strata originated?
-
-The answer to such a question is not far to seek. The corals and
-crinoids are exclusively marine families, and so any stratum in which
-their remains occur must have had a submarine origin. It matters not
-in this case though the specimens be fragmentary, showing a broken and
-drifted appearance. For even supposing that they did not live at the
-spot where their petrified relics are now exhumed by the operations of
-the quarryman, granting that they were drifted from a distance, still
-they could only have been drifted from one part of the sea-bottom to
-another. The state of keeping of the specimen often tells vastly on the
-value of its evidence when it belongs to a land or fresh-water tribe.
-Thus, in one of the limestones of West-Lothian I have found a black
-carbonized stem of sigillaria. Now, the sigillaria was a land-plant
-as much as any of our hazels or willows, and where the evidence from
-the associated organisms coincides, furnishes its own testimony as
-to the origin of the rock which imbeds its remains. But the stem in
-question was a mere fragment, and showed moreover a worn macerated
-surface. Such a fossil had evidently no value as a test of the origin
-of the limestone, which might have been elaborated either in an inland
-lake or in open sea. That it had really a marine origin, and that the
-sigillaria actually was, as it seemed to have been, a drifted plant,
-I ascertained beyond a doubt by detecting on the same slab hundreds
-of encrinal stems along with the shells, and thin, delicate, silvery
-spines of productus. Thus, then, the organisms of the land may be
-carried into the sea, and in dealing with their fossilized remains
-in the deposits of former ages we must be very careful in the use of
-evidence derived from fragmentary and drifted specimens. But no such
-caution is needed in regard to the productions of the sea. If they be
-fragmentary and drifted, we may believe they were rolled about by tides
-and currents previous to their final entombment; but still they remain
-as good a test as ever of the marine character of the rock in which
-they occur.[61]
-
-[Footnote 61: The exceptional instance, of the accumulation on the land
-of blown sand imbedding the broken remains of marine shells, needs only
-to be noticed here.]
-
-The fossils of Roman Camp Hill are not drifted specimens. They must
-have lived and died where the quarryman now finds them. We recognise
-them as all unequivocally marine; corals, crinoids, and brachiopodous
-molluscs, are all clearly the denizens of the sea, and hence we
-conclude that they mark the site of an ancient ocean. The snail-shells
-that swarm about the fruit-trees of our orchards not more unmistakably
-indicate a land-surface than do these petrified relics evidence an old
-sea-bottom. We can argue, too, from the crowded way in which they lie
-grouped together, that life must have been prolific in these primeval
-waters. Every fragment of the rock shows its dozens, nay, hundreds,
-of stone-lily joints, disjointed indeed, yet easily recognisable.
-They must have swarmed as thickly along the floor of the sea as the
-strong-stemmed tangle that darkens the bottom of many a picturesque
-bay along our western coasts, yet with a gracefulness of outline such
-as none of our larger sea-weeds can boast. Less numerous but not less
-markedly _in situ_ are the shells of productus and spirifer, the former
-with its finely-striated surface fresh as if the creature had died but
-yesterday, while the slender spines with which it was armed lie strewed
-around. In short, the whole suite of organisms points to a period of
-tranquil deposition in a sea of probably no great depth, where the
-lower forms of the animal kingdom flourished in abundance, contributing
-by their calcareous secretions to form continuous layers of limestone.
-
-Such a condition of things finds a parallel in many parts of the globe
-at the present day. Thus, the shores of the islands of the Pacific
-are white with fine calcareous mud, that results from the action
-of breakers on the surrounding coral-reefs. This mud, enveloping
-fragments of coral, shells, sea-weed, drift-wood, and other extraneous
-substances, hardens on exposure, and becomes eventually a limestone,
-travertine, or calc-sinter. We may believe that the same process goes
-on out at sea, around the edges of atolls or circular coral-reefs,
-and that the sediment thus thrown down will enclose any zoophytes
-or molluscan remains that may lie at the sea-bottom, along perhaps
-with _fuci_, and occasional water-logged fragments of wood that have
-been drifted from land. Along the shores of Guadaloupe a bed of this
-calcareous silt has formed since America was colonized by man, for it
-has been found to contain fragments of pottery, arrow-heads, and other
-articles of human workmanship.[62] The same rock has yielded, besides,
-the partially-petrified bones of several human skeletons, one of which,
-though without the head, forms a prominent object among the fossil
-treasures of the British Museum. The rock in which these remains are
-embedded is described as harder than statuary marble, notwithstanding
-its recent origin. By supposing the same process to be carried on over
-a large area and for a long period, we may see how a continuous stratum
-of limestone could be elaborated, full of fossil relics of corals,
-molluscs, and other marine productions. And in some such way, we may
-be permitted to believe, the seams of limestone on Roman Camp Hill
-were accumulated. The billows of that old carboniferous ocean may not
-have sent up their white surf against the margin of snowy coral-reefs,
-but the currents below did their work of demolition as effectually,
-and by sweeping through the submarine groves of stone-lilies and
-cup-corals, as the night winds of autumn sweep athwart the heavy-laden
-fields, would prostrate many a full-grown stem and scatter its
-loosened joints among the thickening lime that covered the bottom.
-Stone-lily, cup-coral, net-coral, productus, spirifer, pinna, nautilus,
-orthoceratite, all would eventually be entombed amid the decaying
-remains of their congeners, and thus produce a slowly-increasing seam
-of limestone.
-
-[Footnote 62: Lyell's _Manual of Elementary Geology_, p. 121. Fifth
-edition.]
-
-We still linger in the old quarry on Roman Camp Hill, but the day
-draws rapidly to a close, and the long level beams of the setting sun
-lighten up the higher grounds with a golden flush, while the valley
-below lies deep in shade. The rays fall brightly on the abrupt face of
-limestone at the further end of the quarry, every prominence standing
-out in bold relief, and casting its shadow far behind. Our eye, in
-passing over the sunlit rock, can detect the fractured joint of many an
-encrinite glancing in the light; along, too, with the strongly defined
-outlines of some of the lesser and more abundant molluscs--spirifers
-or producti. Some of them, sorely effaced by the rains, have begun
-to yield a scanty nestling place for creeping fibres of moss; others
-yet bare, afford a rest to the _Vanessa_ whereon to spread its wings
-in the mellow sunset ere flitting homewards among the dewy herbage.
-The bushes overhead scarcely rustle in the light-breathing air that
-comes fitfully across the land, and the long grass nods dreamily on
-the margin of the pool below. There rests a calm stillness on all the
-nearer landscape, and the distant ground blends away into the shades
-of evening. The scene, in short, has about it that solemn impressive
-repose which irresistibly arrests the fancy, and sets it to dress up
-into fantastic shapes the massive clouds that float in the western
-sky, to picture grim forms amid the misty shadows of the valley, or to
-dwell half dreaming upon the memories of the past, that come crowding
-through the mind in quick succession. Our labours among the fossils of
-the old quarry, however, enable fancy to draw her stores from another
-source. We muse on these petrified relics, gilded by the last rays
-of the setting sun, when slowly, like a dissolving view, sunset and
-herbage melt away, and the bottom of the old carboniferous ocean lies
-before us with its corals and shells and stone-lilies, stretching out
-their quivering arms, or expanding and contracting their flower-like
-petals amid a scene of ceaseless animation and activity. Geology
-delights in contrasts, and assuredly the contrast presented to us this
-evening between the present and the past of Roman Camp Hill, will not
-rank among the least striking of those which she has to reveal. There
-is now spread over us the blue sky, richly hung with tinted clouds,
-and melodious with the evening songs of the lark, the blackbird, and
-the thrush. Not less surely did a wide expanse of sea during the
-Carboniferous era roll over the hill on which we stand. And yonder
-silvery moon that mounts up amid the violet twilight of the east, has
-witnessed each scene and all the countless changes that have intervened
-between them. The same pale light that now begins to steal through the
-woods and athwart the fields, must have streamed down upon that old
-sea and illumined its green depths. Oceans and continents, islands and
-lakes, hills and valleys, have come and gone with all their successive
-races of living things, and that same planet has marked them all. She
-has seen, too, as but a thing of yesterday, the appearance of man upon
-the scene, with all the successive centuries that have elapsed since
-then. Truly the "goddess of the silver bow" would have a strange story
-to tell us could we interrogate her about the past. But the days of
-Endymion have gone by, and she now no longer visits in a personal form
-the seat of beings who gaze at her crescent orb and daringly pronounce
-it a scene of blasted ruin and desolation.
-
-
-
-
-CHAPTER XI.
-
-
-  Intercalation of coal seams among mountain limestone beds of
-       Mid-Loihian--North Greens seam--Most of our coal seams
-       indicate former land-surfaces--Origin of coal a debated
-       question--Erect fossil trees in coal-measures--Deductions to
-       be drawn therefrom--Difference between the mountain limestone
-       of Scotland and that of England--Coal-bearing character of the
-       northern series--Divisions of the Mid-Lothian coal-field--The
-       Edge coals--Their origin illustrated by the growth of modern
-       deltas--Delta of the Nile--Of the Mississippi--Of the
-       Ganges--Progress of formation of the Edge coals--Scenery
-       of the period like that of modern deltas--Calculations of
-       the time required for the growth of a coal-field--Why of
-       doubtful value--Roslyn Sandstone group--Affords proofs of
-       a general and more rapid subsidence beneath the sea--Its
-       great continuity--Probable origin--Flat coals--Similar
-       in origin to the Edge coals below--Their series not now
-       complete--Recapitulation of the general changes indicated by
-       the Mid-Lothian coal-field.
-
-Among the old quarries of Roman Camp Hill and down the course of
-several streams in the same county, the limestone beds of the mountain
-limestone series are seen to be associated with strata of shale, some
-of which are highly calcareous, and charged with the same organic
-remains that occur in the limestones. Such shaly intercalations mark
-as before the transport and deposition of muddy sediment around and
-above the corals and stone-lilies of the sea-bottom. All these beds
-must undoubtedly be regarded as marine. But there occur, besides,
-seams of sandstone and black partially-bituminous shale, with layers
-of coal and fire-clay. To this singular intermixture it may be well
-to advert more particularly, since it forms one of the distinguishing
-features of these northern rocks, as contrasted with those of central
-and south-western England, and more especially since it will lead us
-to mark again the value of fossil remains as evidence of the ancient
-changes of land and sea.
-
-The southern part of Mid-Lothian consists of a broad heathy moorland,
-that slopes northward into the more cultivated country, and swells
-upward to the south into the series of undulating ridges that form the
-Moorfoot Hills. It is traversed by several streams which rise high
-among the pasture grounds of the south, and flow some into the valley
-of the Esk, and thence into the sea at Musselburgh; others past the
-ancient fortalices of Borthwick and Crichton, and so by the valley of
-the Tyne into the sea at Tyningham. In their upper course they traverse
-a broad belt of the mountain limestone that stretches across this
-part of the country from east to west, and dips away north under the
-coal-field. Where the streams have been able to cut through the thick
-mantle of heath, sand, gravel, and clay, by which these higher grounds
-are covered, we sometimes obtain a complete section of the strata
-displayed in regular sequence along the bottom of the channels. Thus,
-one of the rivulets that trickles slowly through the swampy ground of
-Middleton Muir, on approaching the line of limestone begins to descend
-more rapidly, and has excavated its course through several feet of the
-rock below. The limestones are well exposed along each side of the
-stream, forming in some places steep walls tapestried with moss and
-overhung with scraggy furze, and offering to the student an instructive
-series of sections. Near the farm of Esperston, where the stream flows
-through a narrow secluded valley, the limestones form a floor which the
-water in the course of centuries has worn smooth, so that the rock with
-its included encrinal stems and shells, polished by the ceaseless flow
-of the current, shows like a sheet of variegated marble. At one point
-on the side of the water-course the observer may notice a low ledge
-of rock jutting out for a short way along the edge of the stream. The
-upper part is a hard compact limestone, full of small crinoidal joints.
-The bed underneath it has been greatly eroded by the rivulet, but
-enough remains to show that the stratum is one of coal. It rests upon
-the series of limestones and sandstones seen in the upper part of the
-water-course, and is surmounted by the thick limestones of Arniston and
-Middleton. A similar seam nineteen inches thick has been worked among
-the limestone about three miles to the west at Fountain. The same bed
-occurs among the quarries on Roman Camp Hill already mentioned, and I
-have seen an equivalent stratum intercalated among sheets of cup-corals
-and stone-lilies on the shore at Aberlady, where the waves have laid
-open perhaps the finest section of Carboniferous limestone strata in
-Scotland. In West-Lothian, too, the same intercalation of coal-seams
-among the mountain limestone beds can be seen in many places. Thus, in
-the bed of the River Almond, near Blackburn, the following section is
-laid bare:--
-
-  Calcareous shale.
-  Limestone (marine), eight feet.
-  Calcareous shale, with _spirifers_, &c.
-  Coal, six to eight inches.
-  Fire-clay.
-  Sandstone.
-
-A short way further down the stream another bed of limestone occurs
-with several seams of coal below it, one of them attaining a thickness
-of six feet.
-
-In addition to the thin seam at Esperston, the Mid-Lothian field
-contains several others. Of these by much the most important is that
-known as the North Greens Seam. It varies in thickness from only a
-few inches to fully 5 feet, and has been extensively worked for the
-_parrot_ or gas-coal which it contains. It rests upon a pavement of
-shale, sometimes of fire-clay, and occurs about midway between two
-thick marine limestones, being from 80 to 90 feet distant from each.
-I have laid open many a block of the parrot-coal at the pit mouth,
-and marked the well-defined outlines of the stigmaria covered with a
-yellowish efflorescence of iron pyrites, like gilded figures upon
-a black velvet ground. The plants lie with their divergent rootlets
-spread out regularly along the stem like teeth on the back of a comb,
-thus seeming to indicate no hurried agglomeration by some tidal wave or
-turbid river, but rather a slow and tranquil deposition.
-
-The fossils of the coal-seams consist for the most part of the
-plants above described, which we saw to belong to _terrestrial
-species_. But the reader will now understand that in dealing with
-organic remains we cannot infer, because a certain stratum contains
-nothing but land-plants, that it must necessarily by consequence be a
-land-formation. For we have seen that the plants of the Burdiehouse
-limestone, though all terrestrial, gave no support to the idea that the
-rock had originated on land. In all such cases regard must be had not
-only to the nature of the imbedded organisms, but their condition and
-mode of occurrence, and to the character of those associated with them.
-Especial care must be taken to distinguish what has been transported
-from what is _in situ_, otherwise, by attending only to one part of
-the evidence, we shall miss the import of the whole, and altogether
-misinterpret the records which we seek to decipher.
-
-For years the subject of the origin of coal formed one of the many
-battle-fields on which geologists delighted to break lances. They
-ranged themselves under two banners, the "drift"-theory men and the
-"growth"-theory men, the former maintaining strenuously that coal
-was simply vegetation transported from the land and deposited in
-large troughs at river-mouths or sea-bottoms, the latter as eagerly
-contending that the vegetation had not been drifted, but grew on
-the very locality where its remains are now exhumed. Neither party
-lacked plausible arguments in support of its doctrines. The "drift"
-combatants stoutly affirmed it to be contrary to all experience that
-a land-surface should be so oscillating as their opponents required,
-that in short it was absurd to hold each coal-seam as marking a period
-of elevation, for there were often dozens of seams in as many yards
-of strata, some of them scarcely an inch thick, and yet, according to
-the "growth" theory, each would have required for its accumulation
-a special uplifting of the land above the sea-level. These and many
-other difficulties were thought to be triumphantly overcome by the
-hypothesis of transport and deposition. The vegetation borne down
-by some ancient Mississippi would collect in vast rafts, and these
-becoming water-logged would sink to the bottom, where, by getting
-eventually covered over with silt and sand, they would in process of
-time be chemically altered into coal. This explanation was, however,
-vigorously resisted by the opposite side. They alleged that the "drift"
-theory could account neither for the wide extent of coal-seams nor
-for their remarkable persistency in thickness. If the vegetation had
-really been hurried out to sea by river-action, it seemed natural to
-expect that the coal-seams should occur in sporadic patches of very
-unequal thicknesses, according as the drifted plants had been more
-densely or more loosely packed. But this was found not to be the case
-in point of fact. The coal-seams were ascertained to be generally
-singularly continuous, and to retain for the most part a pretty uniform
-thickness over considerable areas. And what was still more worthy of
-note, they were, as a whole, markedly free from extraneous matter,
-such as sand and mud. Where these impurities did occur, it was usually
-in the form of intercalated seams or partings, often quite as regular
-and extensive as the coal itself. Had the vegetation, therefore, been
-transported into the sea, it could hardly fail to get mixed up with
-the fine impalpable mud which, like that of the Ganges or Mississippi,
-might have discoloured the ocean for leagues from the river-mouth,
-and settled down as a thickening stratum at the sea-bottom. And many
-other arguments, derived from the nature and arrangement of the strata
-interbedded among the coal-seams, were urged to prove that the latter
-had originated from vegetation which grew on the spot.
-
-[Illustration: Fig. 33.--Section from Cape Breton coal-field, showing
-four planes of vertical stems, and seven ancient soils with their
-covering of vegetation.
-
-_a_, sandstones; _b_, shales; _c_, coal; _d_, fire-clays; _e_,
-arenaceous shales.]
-
-The warfare seems now pretty nearly at an end, and as often happens in
-such cases, it has been found that each party was to some extent in the
-right and to some extent in the wrong. It has been ascertained that
-some coal-seams must have originated from the deposition of drift-wood
-in the mud and ooze of the sea-bottom, while others undoubtedly arose
-from the decay and entombment of vegetation in swampy plains of the
-land. That the latter mode of formation has been the usual one in most
-of our coal-fields has been generally acknowledged since Sir William
-Logan's announcement that each coal-seam, for the most part, rests
-upon a bed of fire-clay, which, with its embedded roots, marks the
-site of an ancient soil. This fact has been abundantly confirmed in
-every part of this country, and indeed wherever an extended series of
-coal-seams has been examined. Not only have the underlying fire-clays
-been found, but in not a few instances erect stems of trees, passing
-down through the coal-seam and spreading out their divergent roots in
-the clay below, exactly as they must have done when they flourished
-green and luxuriant in the times of the Carboniferous system. This was
-especially the case in the Parkfield Colliery, Wolverhampton, where
-seventy-three trunks were laid bare in the space of about a quarter of
-an acre, each with its roots attached. The same appearance was observed
-some years ago in the Dalkeith coal-field, where a group of erect
-trees was encountered covering a space of several square yards. Some
-instructive sections of such fossil-forests are given by Mr. Brown from
-the Cape Breton coal-field.[63] In one of them (Fig. 33) no fewer than
-four planes occur, each supporting its group of erect steins. Now, no
-one can glance over this and the other sections illustrative of the
-same paper, or the descriptions given by Sir Charles Lyell and others
-of the Nova Scotian coal-field, without being compelled to admit that
-the trees in question grew just where their upright stems can still be
-seen, and consequently that the accompanying coal-seams originated not
-from vegetation drifted by river-action, but from vegetation that grew
-upon the spot. And though erect stems do not exist in every coal-field,
-we seldom fail to detect the not less important occurrence of the
-fire-clays and hardened shales that support the coal-seams and prove
-by their embedded rootlets their identity with ancient soils. Thus we
-arrive at the inference that while in certain localities coal-seams
-have resulted from drifted vegetable matter, they have nevertheless for
-the most part been formed from plants that flourished where the collier
-now excavates, amid damp and dripping caverns, their carbonized remains.
-
-[Footnote 63: _Quart. Jour. Geol. Soc._ vol. vi. pp. 120, 130. The cut
-given above (Fig. 33) is taken from one of these sections as modified
-by the late Sir Henry de la Beche (_Geological Observer_, p. 582). In
-the original the beds are inclined at a considerable angle, but for the
-sake of clearness they are here reduced to horizontality.]
-
-Applying, then, this deduction to the strata occurring on the horizon
-of the mountain limestone in Mid-Lothian, we are led to believe that
-the North Greens coal-seam marks the site of a former land-surface.
-It shows no vertical stems, but has all the other accompaniments of
-an ordinary seam, such as the underlying fire-clay and shale, with
-their included stigmariæ. And this conclusion has more than ordinary
-interest, for if it be true, we have evidence of a terrestrial
-formation among strata unequivocally marine; in other words, we see
-proofs either of an elevation or a filling-up[64] of the sea-bottom
-carried slowly on until land-plants grew up in matted swamps where
-once there swarmed corals and encrinites, and then of a gradual
-subsidence, so that marine organisms flourished again in abundance
-over the site of the submerged vegetation. It is not insisted that
-each of the thin coal-seams among the limestone strata marks a former
-terrestrial area. Some of them may possibly have resulted from the
-transport and deposition of plants borne from the land. Yet there are
-others of wide extent resting upon beds of fire-clay which contains
-stigmaria rootlets, &c. These I cannot but regard as the remains of
-plants that grew upon the spot. And so, while we recognise in the beds
-of limestone undoubted evidence of a former sea-bottom, I am persuaded
-we must equally admit that at least several of the coal-seams bear fair
-evidence of a former land-surface, scarcely raised above the sea-level
-indeed, but nourishing nevertheless a thickly matted vegetation. In
-this way we shall see the mountain limestone series of the Lothians
-to be not a purely marine formation, but one partly marine and partly
-deltoid, showing in the succession of its strata proofs of a gradual
-submergence, interrupted by movements of elevation, so that the area
-which at one period formed the ocean-bed became at a later time low
-delta-land, and after continuing perhaps for ages to stretch out its
-verdant surface beneath the open sky, sank again amid the corals of a
-wide-spread sea.
-
-[Footnote 64: If it be correct to set down the North Greens coal-seam
-as really representing a terrestrial surface, that is, of course, a
-flat delta or plain scarcely raised above the sea-level, we must, I
-suspect, call in the aid of a slight elevatory process, or else hold
-that the depth of the sea at the locality where the lower limestone was
-forming did not exceed 80 or 90 feet, and may have been considerably
-less, and that this space came to be eventually filled up by the
-detritus of the river. But the wide extent and sometimes the great
-thickness of the limestone beds seem to indicate a greater depth, and
-thus favour the idea of an elevation of the sea-bottom to form the
-North Greens coal-seam.]
-
-Now this condition of things differs entirely from what is presented
-by the Mountain Limestone group of England. That formation, when
-typically developed, attains a thickness of from 1000 to 2000 feet, and
-gives rise to that green hilly kind of scenery whence it has derived
-its name. It is unequivocally a marine deposit, since it abounds in
-corals, echinoderms, brachiopodous molluscs, and other productions of
-the deep. Northward, however, it undergoes a gradual change, getting
-greatly thinner, and split up by a series of intercalations of shale
-and sandstone. This alteration goes on until, on the border-land
-between the two countries, the massive limestone of Derbyshire has
-dwindled down into a series of thin beds, often widely separated by
-intervening strata, which contain many seams of coal. After crossing
-the Silurian district, and descending the northern slopes of the
-Lammermuir Hills, we get into the Carboniferous system again, and find
-its limestone series still farther diminished. With this decrease
-of marine formations, we can detect an augmentation of coal-bearing
-strata. Thus the Berwickshire coal-field lies in this lower set of
-beds, far under the coal-measures of Newcastle. In the Lothians, too,
-as has been shown, coal is extensively worked in the same series, and
-these seams also find their representatives in Fife and Lanarkshire.
-The gradual change from the kind of strata found on the horizon of
-the Burdiehouse limestone, to those occurring on the horizon of the
-Mountain limestone, indicates, as we saw, a gradual change of the
-conditions of deposition; and the nature of this alteration is shown by
-the difference in the character of the imbedded fossils. The passage
-of the massive Derbyshire limestone into the thin limestones and
-coal-bearing sandstones of the north, as decidedly marks another change
-in the relative position of sea and land. The former was a succession
-in time, the latter was one in space, but the mode of reasoning remains
-the same for both. In the former case, we saw estuarine strata passing
-upward into others wholly marine, and the order of superposition told
-us that the locality was first an estuary, and then slowly became open
-sea. In the latter case, we see marine beds not succeeded by estuarine
-strata, but becoming estuarine strata themselves. The thick limestones
-gradually thin out horizontally into a great series of sandstones and
-shales, with interbedded coal-seams, so that what bears evidence of a
-deep sea at the one end, gives proof of a muddy and sandy delta at the
-other. In other words, during the ages represented by what we call the
-Mountain Limestone, the central and south-western portions of England
-lay far below a wide breadth of ocean, and nourished a luxuriant crop
-of stone-lilies, mingled with the other denizens of the deep, while the
-Border district, and the whole of central Scotland, exhibited all the
-conditions of a vast delta, sometimes spreading out as broad verdant
-jungles, anon showing only scattered irregular groups of low, bare
-mud-banks and sand-spits, which at other times disappeared altogether
-beneath the dun discoloured waves. Now the reader will not fail to
-mark that this curious and interesting fact in the past history of our
-country, is ascertained solely from a comparison of fossil remains.
-The stone-lilies and shells of Derbyshire, and the lepidodendra and
-land-plants of the Lothians, form our sole basis of evidence, and we
-may rest on them with as perfect certainty as if they were so many duly
-attested documents deposited among the archives of our State-Paper
-Office.
-
-In our survey of the coal-field of Mid-Lothian, we have passed from
-the Lower Carboniferous estuary beds of Burdiehouse to the Middle
-Carboniferous marine beds of Roman Camp Hill, and their associated
-terrestrial strata,--the coal-seams and fire-clays. We come now, in our
-upward progress, to the Upper Carboniferous group, or Coal-measures
-proper.[65] These strata rest immediately upon the limestones, and
-attain a depth here of over three thousand feet. They consist of a
-great series of sandstones, shales, coals, and fire-clays, that vary
-in thickness from less than an inch to many feet, or even yards. The
-coal-seams are especially variable, many of them existing as mere films
-of carbonaceous matter; others varying up to a depth of fourteen feet.
-There are from fifty to sixty that exceed a foot, but the average
-thickness throughout the whole series is about three and a half
-feet.[66] They are nearly all underlaid by fire-clay or shale, and very
-generally have a roof of the latter material.
-
-[Footnote 65: These terms--Lower, Middle, and Upper Carboniferous, are
-used for want of others, and for the sake of clearness. They must not
-be regarded, however, as equivalent to similar groupings of the English
-carboniferous rocks, for the Scottish series is probably much older
-than the greater part of the English, and coeval, to a considerable
-extent, with the mountain limestone and millstone grit of the latter
-country.]
-
-[Footnote 66: See Milne on Mid-Lothian Coal-field. _Trans. Royal Soc.
-Edin._ vol. xiv. p. 256, whence the above details are taken.]
-
-By referring to the diagram of this coal-field, given above at p.
-196, the reader will notice that the series is divisible into three
-groups:--1_st_, and undermost, a considerable depth of coal bearing
-strata known as the _edge series_, because they lie along the western
-limits of the coal-basin at a high angle, and sometimes even on
-edge; 2_d_, A great thickness of sandstones nearly barren of coal,
-but containing at least three beds of limestone this may be termed
-the Roslyn sandstone group; 3_d_, and highest, another series of
-coal-bearing strata, commonly called the _flat coals_, because they
-occupy the centre of the basin where the beds repose at a low angle,
-and are in places quite flat. It will be convenient to keep in mind
-this three-fold division, for it will point us to some important
-changes in the ancient conditions of this coal-field.
-
-The edge series, which forms the lowest, and of course oldest of the
-above groups, averages from 800 to 900 feet in thickness. It contains
-about thirty seams of coal above a foot thick, and many more of less
-size. They occur irregularly, some lying only a few inches apart,
-others from eighty to ninety feet, the intervening space being occupied
-by sandstone or shale.
-
-Now as each coal-seam, with its associated under-clay, appears to mark
-a former land surface, it will follow that there must be as many old
-land surfaces in this series of strata as there are such coal-seams,
-and that for every intervening mass of sandstone or shale, the area
-of vegetation must have been submerged. This conclusion would have
-been violently resisted by the supporters of the "drift" theory. They
-would have roundly asserted that such an unsteady surface was a mere
-supposition to suit a hypothesis, unsupported by fact, and contrary
-to the analogy of existing nature; and they would not perhaps have
-hesitated to maintain, that such an oscillating land could be little
-fitted to nourish so rich and luxuriant a vegetation as that of the
-Carboniferous period. But it will not be difficult to show that our
-conclusion, so far from being contrary to analogy, is amply borne
-out by the processes of existing nature, and that its opponents, and
-even its original asserters, failed to perceive that what it demands
-is not a rapidly oscillating crust, but one as steady and uniform as
-that of many of the least disturbed countries at the present day;
-and that we do not require to call in the aid of a special elevation
-and submergence for every coal-seam, but that for the most part the
-hypothesis of a steady sinking of the area of a coal-field, interrupted
-perhaps by occasional elevatory movements, along with an active and
-constant deposition of sediment by the varying currents of a large
-river, is sufficient, if not thoroughly to explain, at least to
-throw great light upon the origin of those enormous masses of strata
-composing our present coal-basins. The oft-recurring variations in
-the nature of the strata that form our coal-measures, sandstones
-alternating with shales, these again with coals and fire-clays,
-together also with the terrestrial origin of the coal-seams, and the
-occasional presence of true marine organisms, make it evident that,
-to obtain any modern analogue to such a condition of things, we must
-examine those localities where large bodies of fresh water, carrying
-sediment and vegetation from the land, mingle with the sea. Let us then
-look for a little at the operations now in progress at the mouths of
-the larger rivers, and mark how far they elucidate the structure and
-history of a coal-field.
-
-"Egypt is the gift of the Nile." Such was the conclusion arrived at by
-one of the most diligent observers of ancient Greece--the venerable
-Herodotus.[67] He sailed up the river marking all the leading features
-in its scenery, and noting the more apparent evidences of ancient
-physical changes. His remarks on these subjects form one of the
-earliest specimens of scientific reasoning that have come down to us,
-and are remarkable for their correctness and the truly inductive mode
-of thought which they evince. Modern travellers have amply confirmed
-the opinions of the father of history, and we now know that but for its
-central river, Egypt would be a vast dreary expanse of arid sand like
-the neighbouring deserts of Lybia. The Nile, by annually inundating
-the country, deposits over it a stratum of rich loam, and thus not
-only waters the land, but continually renews the soil. The sediment
-in this way brought down has gradually encroached upon the waters of
-the Mediterranean, being heaped up at the river mouth into shifting
-sand-banks, islets, and great tracts of low, swampy ground, slightly
-raised above the sea-level. Through this series of silting deposits,
-the river sends a number of branches, often winding in labyrinthine
-convolutions, and ever changing their course, by wearing away the silt
-at one place, and throwing it down at another. The area traversed by
-the mouths of the Nile was called by the Greeks the Delta, from its
-similarity in form to the Greek letter, and the name has since been
-given to all such fluviatile deposits, whether they have this general
-form or not.
-
-[Footnote 67: _Euterpe_, 5.--His words are very emphatic. "To one of
-ordinary intelligence, who has not heard of it before, but sees it,
-Egypt is manifestly land acquired by the inhabitants, and a gift from
-the river--δωρον τον ποταμον." The 10th and 12th chapters of the same
-book deserve especial study for the admirable inductive style in which
-the historian compares the phenomena observable in Egypt with what were
-well known as the results of river action in other lands. The passages
-might be quoted word for word in the most rigid scientific argument of
-any modern geologist.]
-
-The sediment annually deposited by the Nile varies in thickness in
-different years. The mean thickness of the annual layers at Cairo has
-been calculated not to exceed that of a sheet of thin pasteboard, so
-that "a stratum of two or three feet must represent the accumulation
-of a thousand years."[68] Such thin laminæ must resemble greatly some
-of the more fissile shales in the Carboniferous system, which were,
-perhaps, formed by as slow a process, and in their aggregate depth
-probably took many thousand years to accumulate. But those fluviatile
-depositions of the Nile vary little in kind, for when cut through they
-are found regularly stratified down to their base, which rests upon the
-great underlying sand. They show us how the argillaceous seams of the
-coal-measures may have originated; but the diversity of character in
-these Carboniferous rocks indicates a more varied kind of sediment, and
-probably more rapid and active transporting currents. A closer analogy
-to such a condition of things meets us on the shores of the New World.
-
-[Footnote 68: Lyell's _Principles_, p. 262.]
-
-The Mississippi, so magnificent in all its proportions, has raised
-a delta which covers a tract of about 14,000 square miles, equal to
-almost half the area of Ireland. The lower parts of this delta are
-formed of low, shifting banks, traversed by innumerable streams that
-diverge from the main river, and alternately throw down and remove vast
-quantities of earthy sediment, intermingled with rafts of drift-wood.
-These swamps are covered with a rank growth of long grass and reeds,
-and for about six months of the year are more or less submerged below
-the waters of the river, while liable at the same time to continual
-inundation and encroachment from the sea. The higher parts of the
-delta, though also subject to a similar periodical submergence,
-nourish a more luxuriant vegetation. Vast tracts of level sandy soil
-are densely overgrown with pine, which is used extensively for making
-pitch. Large districts of the swampy ground are covered with willows,
-poplars, and thickets of the deciduous cypress, an elegant tree that
-rises more than 100 feet above the soil. When in hot seasons these
-swamps get dried up, "pits are burnt into the ground many feet deep,
-or as far down as the fire can descend without meeting with water,
-and it is then found that scarcely any residuum or earthy matter is
-left. At the bottom of all these 'cypress swamps' a bed of clay is
-found, with roots of the tall cypress, just as the underclays of the
-coal are filled with stigmaria."[69] In this way a thick accumulation
-of vegetable matter goes on forming for years, until either the river
-changes its course, and inundating the swamp gradually covers it over
-with sand and mud, or until, owing to oscillations of the earth's
-crust, the district is either permanently submerged, so as to be silted
-over, or elevated to nourish a new and different kind of vegetation.
-
-[Footnote 69: Lyell's _Elements_, p. 386.]
-
-That such changes have taken place in the past history of the river we
-have several interesting proofs. Thus, owing to the great earthquakes
-of 1811, 1812, an area of more than 2000 square miles was permanently
-submerged.[70] Since then it has gone under the name of the "Sunk
-Country;" and Sir Charles Lyell, who visited the locality in 1846, that
-is, thirty-four years afterwards, tells us that he saw innumerable
-submerged trees, some erect, others prostrate. Now, it is easy to see
-how such an area may, when the climate suits, become the receptacle of
-vast accumulations of peat, which, by pressure and chemical action,
-will ultimately pass into coal. If we suppose the submergence carried
-on more rapidly at some periods, the plants might have been unable to
-keep pace with the ever-increasing inroads of sand and mud. In such
-cases the layer of vegetation would become eventually entombed beneath
-succeeding deposits of earthy matter. Were the amount of sediment thus
-thrown down sufficient in the end to counteract the downward motion of
-the earth's crust, and so raise the bottom of the river or lake to the
-level of the water, vegetation would spring up afresh and clothe the
-new raised surface as densely as in former years. This alternation,
-according as the amount of sinking or the amount of sediment
-predominated, might go on for thousands of years, until a series of
-strata many thousand feet thick were accumulated, and tranquilly
-carried down bed after bed below the level of the waters.
-
-[Footnote 70: See Sir Charles Lyell's _Second Visit to United Stales_,
-chap, xxxiii.]
-
-It is interesting to know that the case supposed here has actually
-been realized in the delta of the Ganges. Some years ago an Artesian
-well was attempted to be made near Calcutta, and the auger was sunk
-to a depth of 481 feet.[71] The material passed through consisted of
-sand, clay, and nodules of argillaceous limestone, and at various
-depths, from 50 to 380 feet, several seams of decaying wood and peat
-were found, along with bones of various animals, such as deer and
-fresh-water tortoises, and fragments of lacustrine shells. Each of
-these vegetable layers evidently formed at one time a forest-covered
-swamp like those of the surrounding delta at the present day; and
-hence it follows, that during the accumulation of the Gangetic delta,
-the ground in that locality must have undergone a depression of more
-than 300 feet, and that this sinking has been interrupted by slight
-elevations, or by periods when the ground remained stationary, so as
-to admit of a dense and prolonged growth of vegetation, at successive
-intervals, upon the swampy flats and shifting islands. The general
-appearance of these old forests is pretty well shown by the mangrove
-swamps along the mouths of the river. These trees flourish in dense
-jungles on the banks, and extend even below high water mark, being
-covered in places by shell fish. So that were these maritime parts
-of the delta inundated by the ocean, and buried beneath a mass of mud
-and silt, the peaty layer that would be formed would display trunks of
-trees still occupying their original erect position, and spreading out
-their roots in the clay below, exactly as the sigillaria is found to do
-in the coal-seams of the carboniferous rocks, while clustered round the
-carbonized stems, or scattered among the decayed leaves and branches,
-there might be detected limpets and barnacles (as lingulæ and pectens
-occur in the coal-seams), showing, by their mode of occurrence, that
-they lived and died upon the spot.
-
-[Footnote 71: See Lyell's _Principles_, p. 280.]
-
-If my reader will now suppose this sand of the Indian river to be
-hardened into sandstone, the mud in like manner compressed into
-shale, and the peat beds chemically altered into coal, can he fail to
-perceive the striking analogy between the section thus displayed and
-those already given from the Mid-Lothian and Cape Breton coal-fields?
-The differences between the ancient and modern strata are not in kind
-but in degree. The Scottish series reaches to more than six times the
-thickness of the Indian one, and the coal-seams in the one exceed in
-individual thickness the peat-beds in the other. We must remember,
-however, that the climate of Hindustan is not remarkably favourable to
-the accumulation of vegetable matter, the heat being so great that the
-plants decay almost as rapidly as they grow. And it should likewise
-be borne in mind, that were the conditions of subsidence and of the
-gradual accumulation of sedimentary matter to continue even in the same
-ratio as heretofore, the Ganges might, in the course of ages, heap up
-a series of stratified sands, clays, and peat-beds, many thousand feet
-in thickness, and many thousand square miles in extent, rivalling,
-or perhaps surpassing in depth, the largest coal-field in the world.
-The parallelism between this delta and an ordinary coal-field holds
-singularly close, not merely as regards the nature of the stratified
-deposits. The alluvial plain of Bengal has undergone a process of
-subsidence to an unknown depth, whereby successive areas of terrestrial
-vegetation have been carried down to be entombed beneath fluviatile
-sand and mud. It is likewise subject to the more sudden operation
-of earthquakes, whereby large tracts of country become permanently
-altered, and changes are effected on the direction, rapidity, and
-detritus of the streams. It is, moreover, liable to wide-spread
-inroads of the sea, which sometimes covers cultivated districts to
-a depth of several feet, laying waste the fields and destroying the
-inhabitants. These and other features help us to understand the origin
-of such vast masses of sedimentary strata as those of our coal-fields,
-where terrestrial, fluviatile, and marine remains alternate in rapid
-sequence, or sometimes occur together.
-
-The origin of the constant succession of coal seams, sandstones, and
-shales, of the Edge series may be thus accounted for. The area of
-Mid-Lothian formed part of a great delta, which, like that of the
-Ganges, was undergoing a gradual subsidence during the Carboniferous
-era. The rate of this movement probably varied at different times, and
-might even be occasionally interrupted by short periods of elevation.
-When the ever-increasing accumulations of silt brought down by the
-river reached or nearly reached the surface of the water, they would
-become the site of wide tracts of swampy vegetation that flourished
-for hundreds or thousands of years. Eventually, however, these
-jungles, invaded by the changing currents of the river, were buried
-beneath a thick deposit of fluviatile sediment, or more probably the
-vegetation might become unable to keep pace with an accelerated rate
-of submergence, and the forests would then be tranquilly carried
-down beneath the water, and soon covered over with sand and mud. The
-detrital matter might in like manner continue to be deposited over the
-sunk forest for many years, perhaps centuries, until the muddy bottom
-again reached the surface, and once more waved green with sigillariæ,
-calamites, and lepidodendra. Another long interval might here elapse,
-in which a thick bed of vegetable matter might accumulate, much after
-the manner of the formation of peat among the bogs and mosses of our
-own country. The periodical inundations of the river probably gave
-rise to wide marshes and lagoons, often tenanted by lacustrine shells,
-and thickly overgrown with aquatic vegetation. The decaying plants
-decomposed the red ochreous matter with which the water was charged,
-and re-deposited it among the mud and rotting leaves at the bottom as
-a carbonate of iron. Such ferruginous accumulations, often entombing
-fern-stems and other plants, with scales and teeth of ganoidal fishes,
-sometimes _conulariæ_ and _lingulæ_, and, in certain localities, whole
-acres and miles of fresh-water shells, are known now as our _clay-band_
-and _black-band ironstones_. We can easily conceive that, in shallower
-parts of the lagoons, a dense growth of marshy plants might spring
-up, preventing any deposition of iron, and when the whole came to be
-covered over with later accumulations of sand or mud, the deeper parts
-of the old lake would be covered with a seam of ironstone, and the
-shallower portions would display a bed of coal. In some such way we
-may account for the frequent passage of ironstone into coal, and coal
-into ironstone in many of our coal-fields. If undisturbed by the ever
-changing currents of the river, these wide expanses of marsh and lake
-might continue for many long years, the constant evaporation being
-counterbalanced by continual supplies of water from the main stream.
-Eventually, however, owing perhaps to another period of more rapid
-submergence, the water gained the ascendency, and once more rolled over
-prostrate stems and matted thickets of ferns, that sank slowly down
-beneath a deepening sheet of sand and mud. Often, too, the sea must
-have flooded, perhaps for years, the flat delta-lands, carrying with it
-its own productions, such as the lingulæ and cardiniæ, which we find
-among the coal seams. And thus the process went on during the long ages
-of the Carboniferous system. Forest after forest spread its continuous
-mantle of green athwart the low swampy lands of that old delta, and
-each in succession foundered amid the muddy waters, now of the ocean
-and now of the river, that strewed over its site a rich detritus which
-went to form the soil of new jungles and forests.
-
-The Edge series measures from 800 to 900 feet in depth, so that the
-depression must have been carried on till the forest that once grew
-nearly on the sea-level had sunk 800 feet below it This process was
-undoubtedly a very slow and tranquil one. Yet geologists used to regard
-these frequent changes of sedimentary matter as so many proofs of
-repeated catastrophic submergences, when the ocean came rolling over
-the land, prostrating forests, uprooting the hugest trees, and leaving
-the scattered bones and scales of fishes amid vast accumulations of mud
-and sand, where but lately there had bloomed a luxuriant vegetation.
-But the sober and diligent student of geologic fact will read in these
-rocks no such record of cataclysms. He will see in them evidences of
-the same gradual and sure operation which marks the processes of Nature
-at the present day. He will note how during a tranquil and probably
-imperceptible submergence of the river-bottom, forest after forest
-sprang up, flourished perhaps for ages, and eventually settled down
-beneath the waters of the river and sometimes of the ocean, amid ever
-increasing accumulations of mud and sand. Musing on these ancient
-changes he will be lost in wonder at the immense duration of the period
-during which they were in progress; and he will try in some measure
-to realize the features of their scenery. He will picture the delta
-with its ever-varying islets and sand-banks, its lakes and submerged
-forests, its leafless trunks peering above the water and sticking along
-the shoaling mud, and its crowded jungles that cover every drier spot.
-He will cast his eyes to where the delta opens out into the ocean, and
-mark how the waves encroach upon the mud-banks, cutting away what the
-river has piled up, and washing the roots of gigantic trees that wave
-their green coronal of fronds above, and overshadow the rippling of
-the green sea below. He will try to thread the windings of the stately
-river through brakes of ferns and calamites, and banks richly hung
-with tree-ferns and sigillariæ, and then upward through dark shaggy
-pine-woods, silent and gloomy, with the water creeping lazily through
-the shade or dashing in white cascades over dripping rocks, and onward
-still, far away among the distant hills till the fountainhead of the
-great stream is reached, gushing from the splintered sides of some
-lone rock, or pouring perchance out of the glimmering caverns of some
-massive glacier high amid the regions of perpetual snow.
-
-Many attempts have been made to estimate the amount of time which
-some of our coal-fields may have required for their accumulation.
-But so large a number of conjectural elements must necessarily enter
-into such calculations, that the results come to be of very doubtful
-value. By estimating the amount of sediment annually transported by
-such rivers as the Ganges or Mississippi, we may ascertain how long a
-mass of similar sedimentary strata would take to form under similar
-conditions. And if our calculation had to do merely with such detrital
-accumulations, we might hope to arrive at some approach to accuracy.
-But besides these sedimentary strata, the formation of which must have
-been wholly analogous to that of similar deposits at the present day,
-we have to deal with the problems suggested by the coal-seams. We know
-nothing of the climate of the Carboniferous period save what may be
-conjectured from the analogy of existing climates; and in a question
-regarding the accumulation of decaying vegetable matter climate is a
-subject of the first importance. We are ignorant, too, of the rate of
-growth peculiar to the carboniferous flora; and even if we hold that
-it was probably rapid, the process of decay may have been equally
-speedy, and so a forest might go on shooting up fresh trees as the old
-ones rotted away, yet at the end of a thousand years there might be a
-scarcely greater thickness of vegetable matter on the ground than at
-the commencement. A seam of coal two feet thick might thus represent,
-say the accumulation of a hundred years, and another of exactly the
-same thickness might stand as the accumulation of a thousand years.
-Until we know more of the vegetation and climate of the coal period,
-the thickness of a coal-seam can hardly be held as a certain guide to
-the lapse of time required for its formation.
-
-For the sake of illustration, let me take the following fragment of a
-coal-measure section:--
-
-  Shale,      20 feet.
-  Coal,        4   "
-  Fire-clay,   6   "
-  Sandstone,  40   "
-
-Beginning at the bottom, we may compute the period of the forty feet
-of sandstone variously, according to the river selected as the type
-of a transporting agent. Tried by the standard of the Nile, all other
-conditions being similar, such a deposit would require perhaps not
-less than 14,000 years; by that of the Mississippi, 5000; and by that
-of the Ganges, nearly 2000.[72] We come, then, to the superincumbent
-fire-clay and coal, representing an ancient soil and the forest that
-grew on it. The occurrence of these seams shows us that the river-bed
-had become a swampy tract clothed with vegetation; but who shall
-say how long it may have continued so? Like the sunk country of the
-Mississippi, it may have been submerged, and to some extent cut off
-from the sediment-transporting channels of the river, and thus, as
-a vast lake, have nourished a prolific growth of marshy and aquatic
-plants. If the temperature resembled that of our own country, the
-growth of peaty matter, other circumstances being favourable, might
-be comparatively rapid. If, however, as seems probable, the climate
-were more warm and humid, giving rise to a more luxuriant vegetation,
-and at the same time to a more rapid decay, a long interval might have
-elapsed without adding materially to the thickness of the vegetable
-accumulations, and the eventual entombment of peaty matter sufficient
-to consolidate into four feet of coal, might be owing in some measure
-to the submergence of the swamp beneath the waters of the river,
-whereby a quantity of detrital matter was deposited that arrested the
-process of putrefaction, and entombed the thickly matted plants which
-were growing on the spot at the time. Hence, until we know more of
-the conditions under which vegetation may accumulate at river-mouths
-in such a climate as the coal plants are conjectured to have enjoyed,
-calculations of the amount of time required for the formation of a
-great series of coal-bearing strata must be regarded as premature.
-In the present instance, we can but affirm that the growth of the
-four-foot coal-seam probably occupied many long years, even at the most
-rapid rate of accumulation known to us. The forest-covered swamp on
-which the plants grew was eventually invaded by muddy detritus brought
-down by the river; and during another period of indefinite extent--five
-hundred years or five thousand years--fine mud continued to settle down
-over the foundered forest, hardening eventually into twenty feet of
-shale.
-
-[Footnote 72: Some observers have pointed to the occurrence of vertical
-and inclined trunks of trees in the Carboniferous sandstones, and
-deduced therefrom what has seemed to them a triumphant argument in
-favour of the rapidity wherewith our coal-fields must have formed. A
-foundered tree, they say, sank with its heavy-laden roots among the
-sand at the bottom, its stem pointing up into the water like the snags
-of the Mississippi, so that the sand must have come rapidly down to
-entomb the whole before it had time to decay, and thus thirty or forty
-feet of sediment must have been deposited in a few years, perhaps even
-months. But this is somewhat like a begging of the question. We have
-yet to learn how long a water-logged trunk will resist decomposition.]
-
-The Edge coals of the Mid-Lothian coal-field are succeeded by a group
-of sandstones and thin shales, with three or more seams of limestone.
-This group of strata, which we may call the Roslyn Sandstone Series,
-reaches a thickness of from 1200 to 1500 feet, and serves as a middle
-zone to divide the Edge coals below from the Flat coals above. It
-contains only a few thin laminations of coal, and these chiefly at its
-upper and under portions. Such a great intercalation of beds, without
-coal-seams, points, we might readily conjecture, to some change in the
-physical conditions of the ancient delta. The nature of this change can
-be easily made out from an examination of the rocks, and the reader
-will see that here again we are indebted to fossil remains for the most
-conclusive and satisfactory evidence of these old physical revolutions.
-
-The absence of coal-seams suffices to indicate that during the
-formation of the middle group that part of the delta occupying the
-site of Mid-Lothian was continually submerged, and never rose to the
-surface so as to allow a covering of vegetation to form upon it.[73]
-The large beds of sandstone prove a continued transport and deposition
-of detritus during undisturbed periods of considerable length. The
-intercalations of shale, pointing to local changes in the currents or
-other modifying causes, are usually of small thickness and extent,
-while the sandstone beds sometimes attain a depth of 150 or 200 feet,
-and extend over wide areas of country. So far these mechanical rocks
-indicate the deposition of sand and mud under water, but whether at
-river-mouth or sea-bottom is left uncertain. From the fossil remains,
-however, we learn that the deposition took place in the sea, but at
-no great distance from land; in other words, the area of Mid-Lothian,
-which, during the accumulation of the edge coals, had been alternately
-clothed with vegetation and inundated by the river, sank down many
-fathoms, so that the sea rolled over it and all its submerged forests.
-The proof is two-fold, first, from the character of the organic remains
-in the limestones; and second, from that of those in the sandstones and
-shales.
-
-[Footnote 73: Of course, this deduction is founded, as the reader
-will notice, on the assumption that we have now the series, as it was
-deposited, and that no peaty swamp or forest was denuded away, and its
-site occupied by sand and silt. But the assumption is rendered probable
-from the conditions of formation indicated by the Roslyn group.]
-
-In some of the streamlets that flow into the beautifully wooded vale
-of the Esk, south of Penicuik, these limestones can be well seen,
-worn in the water-channel, or crusted over with moss along the banks.
-Their organisms are singularly abundant, and consist of cyathophylla,
-encrinites, spirifers, producti, &c., all exclusively marine. In a
-picturesque brook that falls into the Esk near a saw-mill in the
-grounds of Penicuik House, I have seen the little cup-corals clustered
-by dozens on the weathered rock, showing their delicate striated
-wrinkles in high relief among the scattered valves of productus and
-innumerable joints of the stone-lily. They were all well preserved, and
-in their grouping and general appearance differed in no respect from
-similar organisms in the mountain limestone of Roman Camp Hill. The
-inference to be drawn from them must accordingly correspond with what
-has been deduced from the mountain limestone fossils, viz., that they
-mark the site of a sea-bottom which remained free from mud and sand for
-considerable periods, during each of which there abounded corals and
-shells, whose exuviæ went to form several seams of limestone. But that
-this sea-bottom was at no period very far distant from land, is proved
-by the drifted plants that occur in the sandstones and shales both
-below and above, and which often show so little trace of maceration,
-that we can hardly believe they were carried far, or floated for a long
-while previous to being enveloped in the sand or mud at the bottom. I
-have never detected vegetable remains in the limestones themselves, but
-there seems no reason why they should not be found there.
-
-One of the most remarkable and difficult phenomena presented by these
-limestones is their great persistency. I have traced them over a
-large part of Mid-Lothian, from the highly inclined beds at Joppa to
-the contorted and faulted strata near Carlops. I have found them,
-too, in many parts of West-Lothian and Stirlingshire, from the sea at
-Borrowstounness southwards into Lanarkshire. They likewise occur in
-Fife, and seem to sweep away through Lanark and Ayrshire. The area
-in which I have found them cannot be much under 700 square miles,
-yet they are probably spread over a much greater extent of country.
-Throughout this region they appear to continue on the whole at pretty
-much the same vertical distance from each other, and average three or
-four feet thick each. They vary in number, three being found in parts
-of Mid-Lothian, in other parts only two. Throughout West-Lothian there
-seem to be but two seams in the middle or moor-rock series, and the
-same two seams are found passing over into Perth near Culross. There
-are differences, too, in the structure and composition of the seams,
-one running sometimes as a single bed of dull blue limestone, and
-then gradually splitting up into three layers of a greyer and more
-earthy texture, with soft shale between them. But making all these
-abatements, the observer cannot fail to be struck with the general
-regularity and continuity of these limestones. And the fact becomes
-all the more remarkable when we consider the great irregularity, and
-continual intercalations, and repetitions of the strata, both above and
-below. Marine beds are usually persistent over large areas, especially
-where extensively developed. As they decrease in thickness, their
-continuity for the most part lessens, so that the rule is, on the
-whole, a safe one, the thinner any particular stratum, the less likely
-are we to trace it to a considerable distance. Yet, not only are these
-Mid-Lothian limestones thin, but they occur in regular sequence among
-a set of continually alternating and very irregular beds, and extend
-over several hundred square miles of country. And this, too, not in a
-single seam, but in two, three, or even more, so that the difficulty of
-accounting for such intercalations is proportionately increased.
-
-We have seen above that the area of a delta is often partially
-submerged below the sea, and that such changes may become of the most
-marked kind where the country is liable to be depressed by earthquakes.
-There can accordingly be no difficulty in understanding how the ancient
-carboniferous delta of Mid-Lothian may have likewise subsided. But the
-limestones are unmistakable evidence that not only was the area of
-the delta submerged, but that for a while no sediment was deposited
-over it, and hence marine animals peculiar to clear water flourished
-so long and so abundantly as to form by their remains several beds of
-limestone. Had these beds been merely local we might have regarded them
-as having been deposited in lagoon-like portions of the delta, shut out
-from the detrital matter of the river on the one side and open to the
-sea on the other. But their wide extent and nearly uniform thickness
-preclude such a supposition. The following explanation appears to me
-the most probable:--
-
-After the series of the Edge coals had been brought to a close, the
-coal-fields of Scotland underwent a complete submergence below the sea.
-This depression was probably very gradual, yet more rapid than that
-long-continued one which had been going on during the earlier part of
-the Carboniferous series, and the consequence of this greater rapidity
-was to prevent the growth of stigmaria swamps or reedy jungles, by
-keeping the alluvial surface continually sunk to some depth below the
-water. The amount of subsidence until the deposition of the lowest
-limestone may not have been great, but even a slight depression would
-tell vastly on an area of flat delta land. Mud banks would be brought
-down into the region of waves and surface-currents, and speedily be
-spread out over the floor of the sea. Forest-covered islands would in
-like manner be levelled down, and their trees sent drifting seaward
-or submerged amid the re-formed silt. Thus altered, the delta would
-sink below the sea, and the sediment borne down by the river would
-be scattered out over the older deposits as a slowly-forming sheet.
-By degrees this detrital matter must have been carried less and less
-farther out to sea; in other words, the area of deposit or delta must
-have crept gradually nearer to the land--a result owing partly to the
-recession of the ancient coast-line, and partly perhaps to a greater
-amount of depression inland than at the coast, which would of course
-lessen the velocity of the streams and cause them to deposit their
-burden of sediment at higher levels than before. The consequence
-of this retreat of the delta from the sea would be to purify the
-water over the site of the old swamps, and render it fitted for the
-habitation of corals, molluscs, and other marine animals. A medium thus
-prepared would not be allowed to remain long untenanted, and so we find
-that it came to be densely peopled with the organisms peculiar to such
-a station. Stone-lilies, cup-corals, net-like bryozoa, molluscs of many
-kinds, and large predatory fish, swarmed in these old waters, and their
-calcareous shells and skeletons are now broken up by the quarryman and
-the collier as hard compact limestone.
-
-After these animals had lived and died in successive generations,
-perhaps for thousands of years, the downward movement of the earth's
-crust seems to have ceased for a while or to have become greatly less.
-The effect of this would be just to reverse what had been previously
-done, especially if a slight elevatory movement took place. The streams
-would in such circumstances descend from the uplifted ground with
-renewed velocity and transport their detritus to gradually increasing
-distances. The muddy and sandy sediment thus borne seawards would
-slowly silt over the coral-banks at the bottom, and in conditions so
-ungenial the organisms would dwindle down and finally die out. A great
-thickness of sand and mud would be spread out over their remains so
-long as the currents from the land continued to carry sediment out to
-sea, and thus probably originated the sandstones and shales superposed
-above the lowest limestone.
-
-Eventually the old steady downward movement returned, and with it the
-corals and stone-lilies. The detritus again sank to the bottom much
-nearer the land, forming great banks and shoals that choked up the
-river-mouth. Seaward the water regained its purity, and the bottom
-once more swarmed with living things. Another lapse of many thousand
-years may have here intervened during which the marine exuviæ gathered
-into another seam of limestone, until again the process of subsidence
-either ceased for a time, or what is perhaps more probable, became
-considerably feebler. Detrital matter began to creep seaward as
-before, and eventually entombed the corallines and crinoids to a great
-depth. The calcareous bed thus formed is the second limestone, and the
-superincumbent silt-beds represent the sandstones and shales that rest
-above it.
-
-In some such way as this does the Roslyn sandstone series appear to
-have originated. I have indicated what seems to have been the main
-features in the process, but it was probably a very complex one. There
-may have been a great many oscillations of level of variable effects,
-some of them raising the disturbed area to a much greater height at
-one point than at another. This inequality would of course produce
-marked effects along a low flat country such as that at the mouth of a
-great river. New currents would be produced and the direction of old
-ones changed; great shoals and banks of silt would be worn down only
-to be thrown up again at some new point, where another oscillatory
-movement would expose them afresh to destructive denudation. The
-variations in the amount of elevation and depression would likewise
-modify the transport of detritus to the sea, and give rise to a varied
-and ever-changing sea-bottom. In short, the alternations and variations
-must have been endless, for to the ordinary multiplied interchanges of
-a delta we must add those induced by a constant and unequal oscillation
-of the earth's crust.
-
-The Roslyn sandstone series comes to a close, and passing onward in
-ascending scale we meet with another great group of coal-bearing
-strata. They occupy the central area of the Mid-Lothian coal-field,
-and from their gentle inclination as compared with the lower strata
-that rise up from under them on either side of the basin, are known as
-the _Flat Coals_. Their total thickness--that is to say, all that has
-escaped denudation--amounts to a thousand feet or more. They consist
-chiefly of sandstones, shales, ironstones, and fire-clays, with from
-twenty to twenty-five seams of coal, of which sixteen are thick enough
-to be worked. Their similarity to the Edge coals below points to a
-similarity in the conditions of formation. The frequent alternations
-of sandstone and shale show how the delta gradually pushed outwards
-again and re-occupied its ancient site above the successive forests of
-the Edge series and the successive coral-beds of the Roslyn group. The
-coal-seams indicate the further progress of the detrital accumulations,
-and the eventual formation of vast swampy flats that nourished a rank
-growth of stigmariæ, and tracts of drier ground waving with ferns, and
-shadowed by the spiky foliage of the club-moss and the broader fronds
-of the tree-fern.
-
-The Flat coals are not succeeded by any other palæozoic strata. Above
-them stretches the drift already described: sometimes in the form
-of a stiff blue clay resting on a striated rock-surface; sometimes
-as a coarse gravel containing fragments of all the rocks in the
-neighbourhood; and sometimes as a fine white sand diagonally laminated,
-and often showing dark partings of coal-fragments. From the section
-given above (Fig. 32) at p. 196, the reader, will see that as the
-upper limit of the Flat coals is formed by the drift, a large part of
-that series may have been borne away by denuding agencies. Had there
-been even a seam of limestone above them, it would have sufficed to
-show their true thickness, for we should then have seen, that how
-much soever had been removed in later times from above the limestone,
-nothing had been removed from below it; and so it would mark the true
-original limit of the series. We cannot now tell how much thicker the
-upper part of the Mid-Lothian carboniferous system may have been.
-Probably, during the long ages that intervened between palæozoic and
-post-tertiary times, many hundred feet were borne away and carried to
-other sites, there to grow up into new islands and continents, clothed
-with other types of verdure, and peopled by other races of animals, and
-fitted to become, in a long subsequent period, the dwelling-place of
-man.
-
-In fine, the evidence of these ancient changes in the history of the
-Mid-Lothian coal-field is derived, as we have seen, from two sets of
-facts; first, those of a mechanical, and, second, those of an organic
-kind--the one class explaining and confirming the other. Beginning our
-investigation at the horizon of the Burdiehouse limestone, we saw the
-curtain rise slowly from off a wide estuary, in which there gambolled
-large bone-covered fishes, while huge pine-trees--branchless and bare,
-seed-cones, fern-fronds, and twigs of club-moss, floated slowly away
-out to sea. The panorama moved on, and brought before us the ocean-bed
-of the Roman Camp limestone, with its groves of stone-lilies and
-bunches of coral; its tiny shells moored to the bottom, or creeping
-slowly athwart the limy floor, or spreading out their many arms, and
-rising or sinking at will. This picture passed slowly away, and then
-came the delta of the Edge coals, with its sand-banks and ever-shifting
-currents, its stigmaria swamps, and its forest-covered islets. We saw
-the delta gradually sink beneath the sea, and corals and stone-lilies
-cluster thick over its submerged area, to form the limestones of the
-Roslyn group. Again, the mud-bars of the river crept out to sea, and
-tangled forests waved green as of old, washed by the sea or inundated
-by the river. How this last period came to a close, we shall probably
-never know, and have no possible means of conjecturing. We pass at one
-step from the ancient era of the coal to the comparatively modern one
-of the drift--from a verdant palæozoic land, to an icy post-tertiary
-sea. It is like a leap in history from the days of Pericles and Aspasia
-to those of King Otho, or from the tents of Runnymede to the Crystal
-Palace of Sydenham.
-
-
-
-
-CHAPTER XII.
-
-
-  Trap-pebbles of the boulder--Thickness of the earth's crust
-       unknown--Not of much consequence to the practical
-       geologist--Interior of the earth in a highly heated
-       condition--Proofs of this--Granite and hypogene
-       rocks--Trap-rocks; their identity with lavas and
-       ashes--Scenery of a trappean country--Subdivisions of
-       the trap-rocks--Intrusive traps--Trap-dykes-intrusive
-       sheets--Salisbury Crags--Traps of the neighbourhood of
-       Edinburgh--Amorphous masses--Contemporaneous trap-rocks of
-       two kinds--Contemporaneous melted rocks--Tests for their age
-       and origin--Examples from neighbourhood of Edinburgh--Tufas
-       or volcanic ashes--Their structure and origin--Example
-       of contemporaneous trap-rocks--Mode of interpreting
-       them--Volcanoes of Carboniferous times--Conclusion.
-
-In the previous pages, allusion has been made to the trap-pebbles
-imbedded in the boulder, to the various forms of decay exhibited by
-granitic and trappean rocks, and to the elevation and depression of the
-solid crust of the earth. Will the reader bear with me for but a few
-pages more, while I seek to indicate one or two points of interest in
-a branch of geology that would abundantly reward a diligent observer?
-Since the days of Hutton, the investigation of what are called
-_igneous_ rocks has fallen somewhat into the background, and geologists
-have given themselves, perhaps too exclusively, to the study of organic
-remains, so that while the palæontology of the British islands has
-enjoyed an extensive exploration, but little has been done towards the
-elucidation of our igneous formations and their accompanying phenomena.
-Much remains to be accomplished, even in those districts usually
-regarded as in a manner thread-bare, and he must be but an indifferent
-observer who cannot add a few gleanings to the general stock of
-information upon this branch of British geology.
-
-Many conjectures have been formed, and many theories propounded, as
-to the nature of the internal parts of our globe. Some have supposed
-that there is an outer solid film or crust, some ten or twenty miles
-thick, enveloping a vast ball of intensely heated matter; others have
-attempted to show that the interior must be nearly solid throughout,
-with, however, great lakes, or vesicles of gas and melted rock,
-somewhat after the fashion, we may suppose, of the oil-holes in a
-Gruyère cheese. But whether the heated material occupy the whole or
-only parts of the internal area, is not of much consequence to the
-practical geologist; he is content to believe that it exists, and in
-sufficient quantity, too, to produce the most momentous changes on
-the surface of the earth. We see the effects of this subterraneous
-agent in earthquakes and volcanoes, and the geologist can tell us
-of similar, as well as of other changes, effected by it during past
-ages. Granite hills, and mountainous districts of mica-slate and
-gneiss, bear evidence of what is termed _metamorphism_--a change in
-the mineral structure of rocks, believed to have taken place through
-the agency of heat deep in the interior of the earth; for no analogous
-appearances have been detected in progress at the surface. Such rocks,
-known as _metamorphic_, or _hypogene_, still form a difficult problem,
-not likely to be satisfactorily solved until the chemist shall have
-thoroughly investigated the subject; for it seems likely to be found,
-after all, that long-continued chemical action, without a very alarming
-degree of heat, may have produced even the most intense metamorphism.
-But dropping this part of the subject, in which so much yet remains
-to be discovered, let us look for a little at another branch of the
-geologist's evidence, where we meet with no such hampering hypotheses
-and doubtful conjectures, namely, the _trap_-rocks.
-
-Every one knows that basalt, lava, pumice, scoriæ, and ashes, are
-the various matters ejected from volcanoes. When these materials are
-found interstratified among the various geological formations, they
-are termed _trap_-rocks,--a name derived from the Swedish _trappa_, a
-stair, in allusion to the step-like or terraced appearance which they
-often present. They are of all ages, having been detected in the lower
-Silurians of Wales, and in the deposits of all subsequent periods up
-to the volcanic eruptions of the present day; thus evidencing, that
-from the remotest times there have been Ætnas and Vesuvii slumbering
-perhaps for ages, and then awakening to lay the surrounding districts
-in ruins. I have already said that the rocks from which the geologist
-has to compile his history, are mostly relics of the sea; hence most of
-the trap-rocks which he meets with in his explorations are the products
-of submarine eruptions. Far away down among the Silurian rocks, he can
-trace the floor of a primeval ocean thickly covered with stone-lilies,
-trilobites, and molluscs, and in following it out he marks how ashes
-and lapilli, ejected from some submarine orifice, settled down amid the
-organisms and well-nigh destroyed them, while at other times streams of
-molten matter were poured out along the sea-bottom, and hardened into
-masses of solid rock. He sometimes even encounters what seems the vent
-whence these eruptions proceeded, filled up now by a boss or plug of
-hardened trap, but he never can detect any trace of land. Some of these
-oceanic volcanoes may, like Graham's Island in the Mediterranean, have
-raised their tops above water, sending clouds of steam and cinders far
-and wide through the air, but the waves would eventually wear down the
-new-born land, and scatter its broken fragments along the floor of the
-sea. Among the carboniferous rocks of Scotland, however, we meet with a
-different condition of things. There, too, we can trace out submarine
-lava-streams, and mark how showers of ashes destroyed the delicate
-organisms of the deep; but we encounter, besides, undoubted traces
-of a land, not parched and ruinous as though the igneous forces had
-laid it waste for ever, but thickly clothed with vegetation of a more
-luxuriant type than that which clusters over Vesuvius and Calabria, or
-lies spread out across the "level plains of fruit-teeming Sicily."[74]
-We have looked at the plants and animals of the Carboniferous era; its
-rivers and deltas; its slow elevations and depressions of the ground.
-It may, perhaps, complete the picture of that ancient period, if we
-examine, though but briefly, its igneous eruptions, the more especially
-since these may be regarded as, to a considerable extent, typical of
-trap-rocks belonging to every age and every country.
-
-[Footnote 74: Της καλλικἁρπον Σικελἱας λενροὑς γὑας. Æsch. _Prom.
-Vinct._ 369--a passage graphically descriptive of an ancient eruption
-of Ætna.]
-
-Unless when deeply buried beneath drift-sand and clay, trappean regions
-usually possess scenery of a marked kind. A green undulating country
-stretches out as far as the eye can reach, diversified here and there
-with bold abrupt crags and conical hills. The lower grounds show in the
-winter season their rich brown loam, that waxes green as the spring
-comes on, and ere summer's close spreads out its heavy crops of golden
-grain. The higher ridges are for the most part thickly wooded, yet
-the soil is often scanty, and, among the white stems of the beech, or
-the matted roots of the fir and the elm, we may not unfrequently see
-the rock protruding its lichen-crusted face, mottled with mosses and
-liverworts, while some sluggish runnel collects in stagnant pools,
-or trickles over the blocks with a thick green scum. Sometimes the
-hill has never been planted, but stands up now, as it has done for
-centuries; its western face craggy and precipitous, with bushes of
-sloe-thorn and furze, and stray saplings of mountain-ash clinging to
-the crevices, while its eastern slope sinks down into the rolling
-country around with a green lumpy surface, through which, at many a
-point, the grey time-stained rock may be seen. The whole district
-suggests to the fancy a billowy sea, and, as one casts his eye from
-some commanding hill-top athwart the wide expanse of hill and valley,
-sweeping away in endless undulations, he is apt to bethink him of
-some day far back in the past, when the verdant landscape around lay
-barren and desolate, while the solid earth rocked and heaved in vast
-ground-swells like a wide tempested ocean. Such is the aspect presented
-by some of the more trappean regions of Scotland. But the origin of
-this kind of scenery must be ascribed to the effects of denuding
-currents in scooping out the softer strata into clefts and valleys, and
-leaving the harder trap-rocks in prominent relief, rather than to any
-great inequality of surface produced by the eruption of igneous matter;
-for we shall find that the throwing out of sheets of lava and showers
-of volcanic ashes was often a very quiet process after all.
-
-Trap-rocks generally may be variously classified according to the
-aspect under which we view them. Mineralogically they are _augitic_,
-when the mineral _augite_ enters largely into their composition;
-_hornblendic_, when the _augite_ is replaced by _hornblende_; and
-_felspathic_, where _felspar_ forms the most marked constituent.
-The first class includes all the dark homogeneous compounds called
-_basalts_; the second, the hornblendic _greenstones_, or _diorites_;
-and the third, the _felstones_, _porphyries_, and _tufas_.
-Geologically, they are _beds_ when they are interstratified with the
-contiguous rocks; and _dykes_ or _veins_ when they penetrate them like
-walls, or in an irregular manner. The former class may be either of
-the same age with the rocks among which they lie, or of a later date,
-just as in a pile of books the centre one may either have been placed
-there originally with the rest, or thrust in long afterwards. The
-latter class must always be later than the rocks which they traverse,
-for it is plain the rocks must have been in existence before trap-dykes
-and veins could be shot through them. Hence geologists are accustomed
-to speak of contemporaneous and subsequent trap-rocks: the one list
-including all the tufas, and those melted rocks which can be shown to
-have been erupted during the time when the limestones, sandstones, or
-shales around them were forming; the other embracing all the dykes and
-veins along with those beds of melted rock which have been intruded
-between the strata. These and other distinctions will be better
-understood from a few examples collected chiefly from the carboniferous
-district of central Scotland.
-
-The trap-rocks seen there exhibit a wide range of structure, texture,
-colour, and general aspect. There are two pretty marked kinds--the
-augitic or hornblendic, and the felspathic; the former being usually
-of a more or less crystalline aspect; the latter, commonly dull, and
-often without any crystals.[75] In the augitic traps, the crystals
-are sometimes of large size and well-defined, so that the rock could
-hardly be distinguished at first sight from an ordinary grey granite,
-while at other times, and not unfrequently even in other portions of
-the same mass, the stone assumes a black appearance without distinct
-crystals. The former variety would be called a _greenstone_, the
-latter a _basalt_; the chief components in either case being felspar
-and hornblende, or felspar and augite, with a variable admixture
-of other minerals, the shade of colour varying from a pale blue or
-leek-green, through the different hues of grey, to a deep velvet black.
-There are other traps, however, consisting entirely, or nearly so,
-of felspar, whence they are known as _felstones_. Such rocks enjoy
-a wide range of colour, some of them being pure white, others of a
-bluish grey or dingy brown; and they may be seen graduating from a
-pale yellow, or flesh-colour, to a brick-red or deep purple. When a
-trap displays distinct disseminated crystals, usually of felspar, it
-becomes a _porphyry_; when it shows rounded cavities, like those of
-furnace-slag, it is said to be _vesicular_; and when these globular or
-almond-shaped cavities are filled with carbonate of lime, chalcedony,
-or other minerals, the rock forms an _amygdaloid_. Such peculiarities
-of structure indicate to some extent the origin of the mass, and may
-be found in any kind of trap. Thus we have porphyritic greenstones,
-basalts, or felstones, and the same rocks may be likewise vesicular
-or amygdaloidal. Some of them, such as many greenstones, display on
-weathered surfaces that curious spheroidal structure already alluded
-to; others are built up into geometric columns.
-
-[Footnote 75: This distinction, though a sufficiently safe one in
-some localities, must not be held as by any means universal in its
-application, the felspathic traps being often as crystalline in aspect
-as the augitic, and the augitic, on the other hand, as dull as the
-felspathic.]
-
-Such peculiarities of composition and structure form the basis of
-a mineralogical classification of the igneous rocks, which is of
-use in working out the geology of a district. The most convenient
-subdivision for our present purpose, however, is that which proceeds
-upon the origin and mode of occurrence of the trap-rocks. Viewed
-thus, they resolve themselves into two great groups, the _intrusive_
-and _contemporaneous_, both of which contain greenstones, basalts,
-&c.,--the sole distinction between those of the one class and those of
-the other, being the relation of age and mode of occurrence which they
-bear to the surrounding rocks.
-
-I. The _intrusive_ traps occur in the form of walls and veins,
-sometimes in that of flat parallel beds, and often as huge amorphous
-masses, to which no definite name can be given. But whatever shape they
-may assume, they generally agree in presenting well-marked features,
-whereby their origin can be readily ascertained. The rocks through
-which they pass are more or less hardened, often contorted, and
-sometimes traversed by innumerable cracks and rents, into some of which
-the trap has penetrated in the form of veins.
-
-A trap-dyke is a long wall of igneous matter, cutting more or less
-perpendicularly through the surrounding rocks. Sometimes these dykes
-attain a breadth of many yards, and may not unfrequently be traced for
-miles running in a nearly straight line over hill and valley, easily
-recognisable by a long smooth ridge, with the rock protruding here and
-there from below where the soil is thin. It is interesting to follow
-out one of these long ramparts from its beginning to its close, and
-mark how undeviatingly it cuts through the rocks. No matter what may
-be the nature of the stone encountered, hard conglomerate, friable
-shale, compact limestone, or jointed fissile sandstone, all are broken
-across, and the right line preserved throughout. Nay, I have seen a
-still more curious instance of this persistency, where the dyke ran for
-four miles through a set of mountain limestone and lower coal-measure
-strata, and several enormous sheets of greenstone and basalt. Even
-when passing through these traps the dyke remained perfectly distinct,
-its crystalline structure and external configuration presenting a
-well-marked contrast with those of the surrounding eminences. Of
-course it must have been formed after all the rocks through which
-it passed. The sandstones and shales must have settled down long
-previously on some estuary bed or sea-bottom; the corals and shells
-of the limestones, and the matted plants of the successive coal-seams
-must have lived and died, perhaps thousands or millions of years
-before, and their remains have hardened into stone, ere the continuity
-of the strata was broken across by the long deep wall of greenstone.
-Trap-dykes are accordingly appropriately termed _intrusive_. They
-have been intruded among and must always be later than the rocks in
-which they occur. In tracing out their character, more especially in a
-trappean district, such as that of Linlithgowshire, where they abound,
-we soon find other evidence of their intrusive nature. Where they pass
-through limestone, they sometimes convert it into a white saccharine
-marble; shales they bake into a sort of porcelain or burnt pottery; and
-sandstones become semi-fused into a hard homogeneous quartz-rock. Nor
-are the changes confined to the rocks traversed; the dykes themselves,
-along their sides, become fine grained and hardened; occasionally, too,
-the colour alters from the usual bluish or greenish-grey to black, or
-to a brick-red, or dull-brown, similar to that of the altered shale
-and sandstone, of which detached portions may be found adhering to
-the outer walls of the dyke, or even embedded in its substance.
-The central portion of the dyke may thus be markedly crystalline,
-forming what we should call a greenstone, while the outside parts,
-where the trap comes in contact with the adjacent rocks, are fine
-grained and homogeneous, so as to become a true basalt. Sometimes,
-too, these exterior edges are highly vesicular and amygdaloidal,
-detached fragments closely resembling the slag of an iron-furnace, and
-occasionally the dyke presents a columnar arrangement, the ends of
-the hexagonal or polygonal columns abutting against the sandstone or
-other rock on either side, and losing themselves towards the centre in
-the general mass of the trap. Where the strata traversed are broken
-and jointed, the dykes which cut them through may be seen in some
-places throwing out lateral veins that accommodate themselves to all
-the irregularities of the fissures. These minor portions exhibit for
-the most part the same leading features with the parent mass, and the
-result of the whole is a general baking of the beds, with sometimes not
-a little contortion, and an amount of irregularity and disturbance,
-apparent at once to the most inexperienced observer. (See Fig. 34.)
-
-If the reader will verify these statements by actual exploration in
-the field, he will probably not be long in arriving at the following
-conclusions: trap-dykes must once have been in a melted state, as is
-shown by their vesicular cavities and divergent veins; this liquid
-condition must have been attended with the most intense heat, as may be
-gathered from the burnt and baked appearance of the contiguous rocks;
-they have, for the most part, especially where of large size, risen
-from below along previously-formed dislocations--a circumstance which
-may be inferred from their persistency in a straight line through beds
-of very different resisting power, for had the liquid matter forced
-a way for itself, it would have squirted between the beds along the
-lines of least resistance, and not directly and for miles across them;
-and hence, trap-dykes must be regarded not as themselves the agents
-in dislocating and contorting a district, but merely as signs of the
-parent force at work below.
-
-All the features of these trap-dykes here stated may be observed in the
-central district of Scotland, among rocks of Carboniferous age. But he
-who would study trap-dykes on the great scale without quitting Britain,
-should visit some of the more trappean islands of the Hebrides. He
-will there find them intersecting glen and hill-side, in an intricate
-network, standing up through the heather like ruined walls, and running
-often for considerable distances up bald cliff-line, and across
-precipitous ravine. In some localities, among such limestone districts
-as that of Strath, detached eminences may be seen with congregated
-dykes coursing their sides and summits, while the heathy interspaces
-are cumbered with grey and white protruding blocks of marble, that give
-to these green knolls the aspect of old time-wasted abbeys with their
-clustering tombstones. The magnificent sections laid open in these
-localities by the action of mountain streams, and by the waves of the
-Atlantic, leave the student of igneous rocks nothing to desire save a
-long lease of leisure.
-
-Another form frequently assumed by the intrusive traps, is that of
-wide beds or sheets intercalated with greater or less regularity among
-stratified rocks (Fig. 34 _b_). They may be regarded as horizontal
-dykes, the igneous matter, in place of cutting across the strata,
-having forced a way for itself between them. Viewed in this light they
-will be found exactly to correspond with ordinary dykes; the rocks on
-which they rest, and those which lie above them being both altered like
-those on either side of a dyke or vein. A well-known example of this
-form of trap is that of Salisbury Crags, where a bed of greenstone
-twenty to eighty feet thick is intercalated among sandstones, shales,
-and coarse limestones, belonging to the Lower Carboniferous series. Its
-under surface presents a remarkably even line, broken at intervals,
-however, where the truncated ends of sandstone beds protrude up
-into the greenstone, or where the latter cuts into the sandstone
-below, occasionally enveloping detached fragments, and sending veins
-through them. Along the line of contact both rocks undergo a change.
-The greenstone becomes reddened, finer grained, and of a dull earthy
-aspect. The sandstones and shales are also red, and excessively hard,
-the former resembling a quartz rock, and the latter passing into a sort
-of flinty chert or chalcedony. The sandstones above the trap, where
-they can be examined, are also found to present the same hardened,
-baked appearance, the most intense metamorphism being observable
-in those parts which are completely surrounded by igneous matter.
-These points were noted many years ago during the famous controversy
-between the disciples of Hutton and Werner, the former viewing them
-as demonstrative evidence of the igneous origin of the trap-rock, the
-latter, on the other hand, professing to see nothing in the section
-of the Crags at all militating against the theory that the rocks had
-originated from deposition in water. Many a battle was fought in this
-locality, and not a few of the trap-dykes and hills possess to the
-geologist a classic interest, from having been the examples whence
-some of the best established geological opinions were first deduced.
-The contest between the Huttonians and Wernerians terminated long ago
-in the acknowledged victory of the former; Hutton's doctrines are now
-recognised all over the world. It is interesting, however, to walk
-over the scenes of the warfare, and mark the very rocks among which it
-raged, and from the peculiarities of which it took its rise. Basalts
-and greenstones, sandstones and shales, with all their crumplings and
-contortions, still stand up as memorials of powerful igneous action,
-and of physical changes in the primeval past; and they have become to
-the geologist memorials, too, of changes in the onward progress of his
-science, where, out of conflicts perhaps yet more tumultuous than those
-of ancient Nature, there emerged at last the clear demonstrable truth.
-
-[Illustration: Fig. 34.--Intrusive Trap.]
-
-In the accompanying section (Fig. 34), the more marked characters of
-intrusive traps are exhibited. The main mass of igneous rock is the
-dyke (_d_), rising through a dislocation or fault, which has thrown
-down the beds on one side several feet below those on the other, as
-is shown by the interruption of the shale and ironstone beds (_sh_).
-The dyke gives off two ramifications, one of them cutting across the
-beds obliquely as a vein (_v_); the other passing along the planes
-of the shaly layers as a horizontal bed (_b_). The vein, it will be
-noticed, produces considerable alteration in its progress, carrying up
-and baking a portion of the shale (_sh_), and turning up the edges of
-the beds on both sides, which get cracked and hardened along the line
-of contact. The bed runs with some regularity for a short distance
-through the shales, which show marks of great alteration at their
-junction with the trap. Its under surface at one point is seen to have
-involved a portion of the shale which has become in consequence highly
-metamorphosed, while along the upper surface the bed has sent out a
-short irregular vein that twists and otherwise alters the shales
-above. These circumstances would suffice to show that even though we
-did not find this bed in connexion with a mass of intrusive trap, it
-must, nevertheless, have been thrust among previously-formed strata,
-and could not have been contemporaneous, that is, poured out along the
-sea-bottom before the shales above it were deposited.
-
-But one other form needs to be mentioned here as characteristic of the
-Carboniferous intrusive trap-rocks--that of great amorphous masses
-which cut through the strata irregularly. They have not the wall-like
-form of dykes, nor do they conform to the line of bedding of the rocks
-among which they occur. They are sometimes irregular lumps, lying
-above or among the strata, and probably connected with some vein or
-dyke below. In other localities they look like the upper ends of vast
-pillars which may descend into the very depths of Tartarus, as though a
-great hole had been blown through the crust of the earth, and a column
-of melted matter had risen to fill the cavity. Such masses are often
-called _bosses_, and seem not unfrequently to have been the craters
-of eruption whence great sheets of lava and showers of ashes were
-ejected far and wide over the neighbourhood. They serve to connect
-the intrusive traps, whose age is always more or less uncertain, with
-the bedded traps properly so called, the geological date of which can
-usually be sufficiently ascertained.
-
-II. The bedded or contemporaneous trap-rocks consist of two well-marked
-kinds. There are, 1st, the melted rocks, such as greenstones and
-basalts and 2d, the tufas and volcanic ashes.
-
-Those of the first-named class differ in no respect from the traps
-already noticed, so far as regards mineralogical texture, general
-structure, and appearance. In hand specimens the intrusive and bedded
-greenstones and basalts cannot be distinguished, nor even when examined
-in the field and in masses extending over considerable areas is it
-always possible to say to which division any particular hill or crag
-should be assigned. The reason of this resemblance is obvious. Where a
-trap has either cut through or insinuated itself among rocks of earlier
-date it is called intrusive, in relation to the rocks so traversed,
-and of course we cannot be sure to what geological period it should be
-referred, nor how long an interval may have elapsed between the time
-when these rocks were forming and the time when the trap was intruded
-among them. If, however, the igneous rock passed upward through these
-same strata and then spread out as a flat sheet along the sea-bottom,
-the part that came to the top would be termed contemporaneous
-with the deposits going on at the time. Hence it follows that all
-contemporaneous lava-form trap-rocks are at the same time intrusive as
-regards the strata passed through in their progress to the surface. If
-the sheet of melted matter that spread out below the water were in the
-course of ages worn completely away, along with the strata subsequently
-piled above it, so as to leave merely a neck or dyke filling up the
-cavity through which the lava rose, we should pronounce the remnant
-intrusive, and could form no certain conclusion as to its age or
-as to whether its site had ever been a crater actively at work in
-throwing out lava and ashes. The sole difference, therefore, between a
-contemporaneous and an intrusive greenstone is simply this: the former
-rose through a fissure until it reached the surface, and then rolled
-out as a flat parallel sheet; the latter may have been erupted from
-below at the same time, yet, owing to different circumstances, never
-reached the surface, but spread out among or cut through the strata
-underneath. And so, when we come to examine in quarries, ravines, and
-other exposures, the remains of two such eruptions, we soon ascertain
-the relative age of the former from that of the strata among which it
-occurs, but as to the date of the latter we are wholly at a loss, for
-it gives us no clue by which we can show whether it was erupted before
-or after the other. We can but compare the mineralogical character
-of the intruded with that of the contemporaneous masses in the same
-district, and, from the resemblance which may be traced between them,
-draw at the best but a doubtful inference as to their relative dates.
-
-The contemporaneous traps always assume a bedded form, the intrusive
-occasionally do so; and the question naturally arises here, what are
-the tests whereby a bed of trap may be known to be contemporaneous and
-not intrusive? The answer is happily a simple one. An intrusive mass
-is found to alter to a greater or less extent the rocks in contact
-with it; if it occur as a dyke, then the beds on either side have
-been cut through and probably otherwise affected; if it take the form
-of a bed or sheet, the strata lying above and below it will be found
-to be both altered, showing evidently that a heated mass has been
-interposed between them, and consequently that the igneous rock is of
-later date than any of the strata among which it occurs. In the case
-of a contemporaneous melted trap, however, the appearances presented
-are different; it always takes the form of a flat bed corresponding
-to all the inclinations and curvatures of the sandstones, shales,
-limestones, or other strata among which it lies. If examined carefully,
-it may be found not unfrequently baking and contorting the bed that
-forms its pavement, but producing no change whatever on that which
-composes its roof. It may be capped and underlaid by layers of shale,
-and in such a case we might not improbably find the shale below it
-highly baked, so as to resemble a sort of rude pottery, while the shale
-above would present no sign of such metamorphism, but on the contrary
-might display its delicate plants or shells down to the very surface
-of the trap, and were the latter concealed from view we should never
-suspect, from the aspect of this shale, that any igneous rock existed
-in the neighbourhood. The inference to be drawn from such appearances
-seems very obvious. Had the upper shale been in existence when the
-greenstone or basalt was erupted, it would have suffered an alteration
-similar to that produced on the shale below; and the fact, plain and
-palpable, that it has undergone no such change, shows pretty clearly
-that it was deposited at the bottom of the water after the trap had
-cooled and consolidated, and that consequently the trap must be
-intermediate in age between the beds on which it rests and those which
-lie above it; in other words, that it is a _contemporaneous_ rock.
-Hence, if we know the exact geological position and age of the shales,
-we know also those of the associated trap, and can thus ascertain
-that at a certain definite period in the past history of our planet a
-particular district was the scene of volcanic action.
-
-Examples of such contemporaneous traps abound among the carboniferous
-rocks of central Scotland, especially in Fife and the Lothians (Fig.
-35). I may refer again to the vicinity of Edinburgh as affording some
-excellent illustrations. The eastern part of Arthur's Seat displays
-a series of basalts and greenstones which can be proved to have been
-thrown out during the times of the Lower Carboniferous rocks, at a
-period long anterior to that of the Burdiehouse limestone. The Pentland
-Hills exhibit on a much greater scale vast sheets of felspathic traps,
-such as felstones and tufas, traceable in some cases for six or seven
-miles, which were erupted at a still earlier period.[76] The trap
-pebbles in our boulder consisted of light yellow and pink felstone,
-and were derived, I make no doubt, from these Pentland Hill beds, when
-what forms now the cone of Carnethy, rising well-nigh 1900 feet above
-the sea, existed as one of a scattered archipelago of islets, or as a
-sunken rock battered by the waves that scattered its shingle along the
-floor of what may have been either a shallow sea or a shoaling estuary,
-where eventually the sand and pebbles hardened into that bed of coarse
-grey sandstone whence our boulder was derived.
-
-[Footnote 76: The geology of Arthur's Seat and Pentland Hills was
-admirably worked out more than quarter of a century ago by Mr. M'Laren.
-His work (already referred to) is unfortunately now out of print.]
-
-The second class of contemporaneous trap-rocks are the tufas or
-volcanic ashes. They differ entirely in their aspect and origin from
-any of the rocks already described. Greenstones, basalts, felstones,
-and such like, were all melted rocks, thrust up from below as we see
-lava thrown out by a modern volcano, being styled contemporaneous when
-poured out along the sea-bottom or the land, and intrusive when they
-never reached the surface but cut through the strata below. The tufas,
-however, point to a totally different origin. They are of various
-shades of colour, according to their chemical composition. In East
-Lothian they assume a deep red hue; among the Pentland Hills they
-are often flesh-coloured, while in Linlithgowshire they range from a
-dull-brown to a pale leek-green, green being the prevailing tint. They
-always show a dull uncrystalline surface, irregularly roughened by
-included fragments of various rocks, such as trap, sandstone, shale,
-and many others. These fragments or _lapilli_ vary in size from less
-than a pin-head up to large bombs of several hundredweight, and from
-being generally abundant give to the tufas one of their best-marked
-characteristics. The smaller pieces are usually more or less angular,
-and throughout the carboniferous series of Linlithgowshire consist
-chiefly of a pale felspathic matter, lighter in shade and commonly
-harder in texture than the matrix or paste in which they lie. In
-some localities, where the included pieces are larger, they have a
-rounded form, and often show a honey-combed vesicular surface, like
-balls of hardened slag. Fragments of sandstone have not unfrequently
-a semi-fused appearance, and plates of shale sometimes look like the
-broken debris from a tile-work, although in many instances these
-fragments may be found showing no trace whatever of alteration, being
-undistinguishable from the neighbouring sandstones and shales from
-which they probably came. I have seen in some of the coarser tufas, or
-rather volcanic conglomerates, enormous masses of basalt and greenstone
-buried deep in the surrounding green or red felspathic paste, and
-showing on their more prominent edges the usual vesicular cavities.
-In such conglomerates there is usually no division into beds; the
-whole mass, indeed, forms a bed between lower and higher strata, but
-internally it shows for the most part no trace of stratification. In
-these confused assemblages one may occasionally light upon detached
-crystals of augite or other mineral scattered irregularly through
-the tufa. Their angles will be found often blunted, and the crystals
-themselves broken, appearances which have likewise been noticed among
-the ash of modern volcanoes. When the tufas are finer grained they
-usually exhibit a well-marked stratification, and can often be split
-up into laminæ like an ordinary fissile sandstone. Organic remains not
-unfrequently abound in such laminated beds, and vary in their character
-as widely as in any other stratified rock, being sometimes land-plants,
-sometimes sea-shells.
-
-Such are some of the more obvious characters of the volcanic ashes or
-tufas, as developed among the carboniferous rocks of central Scotland.
-Their great varieties of composition and general aspect render them
-a somewhat difficult set of rocks to master, but when fairly and
-fully understood they soon prove themselves to be by far the most
-interesting section of the traps, for one needs seldom to hesitate a
-moment as to their origin or date, while their fossil contents impart
-to them an interest all their own. By comparing such rocks with the
-consolidated ash or fine dust and _lapilli_ of a modern volcano, a
-remarkable resemblance of external characters is found to subsist; and
-this likeness holds sufficiently close, when pursued into details, to
-show that the ancient and the modern rocks have resulted from the same
-source, that, namely, of volcanic eruption. The ash of active burning
-mountains falls down their sides loosely and incoherently, every
-successive shower of dust or scoriæ settling without much regularity
-on those that have gone before. The ash of the old carboniferous
-eruptions, however, was showered for the most part over the sea or
-across wide shoaling estuaries, at least it is only such portions of
-it as fell there that have come down to our day. Settling down among
-the mud and sand at the bottom, the volcanic matter accumulated in
-wide horizontal beds, every marked inequality being smoothed down by
-the currents until a series of regularly stratified layers came to be
-formed, entombing any organisms that might find their way to the bottom
-or be lying there at the time. The ash of terrestrial volcanoes has no
-marked stratification because thrown out in open air, while that of
-the carboniferous rocks of central Scotland is distinctly bedded from
-having been deposited under water.
-
-Tufas and contemporaneous melted traps are very generally found
-together interstratified regularly with each other, and the inference
-to be drawn from their juxtaposition is of course simply this, that
-at one time liquid lava rolled along the bottom of the water, while
-at another showers of volcanic dust and cinders settled down in
-successive beds. This active play of the igneous forces took place
-at the mouths of estuaries or farther to sea; and it is accordingly
-sometimes not a little interesting to trace, amid the sediment that
-accumulated below the water during the pauses between the eruptions,
-well-preserved remains now of plants that had come drifting from the
-land, anon of slim spirifers, and producti that swarmed upon the
-hardened lava-streams, and amid the thickening volcanic mud that
-slowly sank to the sea-bottom. Such a sequence of events will be made
-plain from the following section, the materials of which are derived
-from different parts of the trappean region of Linlithgowshire. The
-undermost bed here shown (1) is one of marine limestone, abounding
-with encrinal joints, corals, spirifers, and other undoubtedly marine
-organisms. Above it comes a layer of tufa or volcanic ash (2) of a
-dull green aspect, the boundary line between the two rocks lying as
-clear as if the quarryman had marked it off with his foot-rule. The
-upper part of the ash, however, does not show an equally clear line
-of demarcation with the stratum above. On the contrary, it gradually
-changes its character, becomes more calcareous as it goes up, with
-here and there a stone-lily joint or a stray productus, until these
-organisms increase so much in number that the rock insensibly passes
-into an ordinary limestone (3) like that below. Next succeeds a thin
-seam of ash (4) resting sharply on the limestone and overlaid by a bed
-of shale (5) containing the same marine organisms. Another stratum of
-ash (6) resembling those below follows the shale, and is surmounted by
-a close compact greenstone (7) that hardens the ash on which it rests,
-but produces no apparent alteration on the soft fissile shale (8)
-above it. Next is a fourth seam of volcanic ash (9) resembling those
-below it, but without any shells or crinoidal joints, the only fossils
-observable being a few carbonized stems apparently of calamites and
-lepidodendra. Above it comes a bed of white quartzy sandstone (10) with
-similar vegetable remains, and then a layer of white stiff fire-clay
-(11) with rootlets of stigmaria, above which lies a seam of coal (12).
-A thin layer of soft blue shale (13) here intervenes, somewhat baked
-along its upper portions by another bed of compact vesicular greenstone
-(14), which displays in places a well-marked columnar structure. It is
-surmounted by a highly characteristic ash (15) in which there occur
-numerous large bombs chiefly of trap of different kinds, some of them
-highly vesicular. Fragments of shale also occur, mingled here and there
-with black carbonized fragments of coal-measure plants, but without any
-of the shells and other marine organisms so abundant below. The topmost
-bed is a grey carbonaceous sandstone (16), underlying a thin covering
-of vegetable mould.
-
-[Illustration: Fig. 35.--Contemporaneous Trap.]
-
-Such is the skeleton, as it were, of the section; the mere dry bones
-which remain to the geologist, and which he must study closely to
-be able to give them life again. The lowest bed visible, with its
-stone-lilies and molluscs, we readily recognise as marking an old
-ocean-bed, so that the little episode in the primeval records of
-our planet here presented to us opens, like the two great epics of
-antiquity, within sound of the wide-roaring sea. The seam of ash which
-follows shows, from the sharpness of its line of demarcation with the
-limestone, how the denizens of the sea-bottom were suddenly destroyed
-by a thick shower of volcanic dust that settled down over their
-remains. The waters, however, soon cleared, and ere long stone-lilies
-and producti were plentiful as ever, mingling their remains among the
-upper layers of the soft muddy ash, and giving rise therefrom to a
-sort of calcareous ash or ashy limestone, until in the course of time
-the volcanic matter became wholly covered over by a seam of ordinary
-limestone. The corals and stone-lilies were, however, anew destroyed
-by the deposition of volcanic dust that settled over them as a seam
-of ash, after which the water was again rendered turbid and muddy by
-the inroad of foreign matter, which, brought down by rivers or by the
-changing currents of the ocean, sank to the bottom and eventually
-consolidated into a seam of shale. Thereafter the volcanic forces
-began once more to eject a quantity of dust and scoriæ that fell into
-the water and spread along the bottom as a stratum of ash, and to
-pour out a current of lava which hardened into a great sheet visible
-now as the undermost greenstone of the section. The emission of the
-lava seems to have terminated the eruption, for the next stratum is
-one of shale like that below the ash, so that the muddy sediment,
-the deposition of which was interrupted for a while by the volcanic
-products, began afresh to settle down along the sea-bottom. This
-last condition of things seems to have continued for a considerable
-period, seeing that the shale bed is relatively thick, and from its
-fissile laminated structure indicates a slow and tranquil deposition.
-Another eruption of volcanic dust and ashes again interrupted the
-detrital deposits, and gave rise to another seam of tufa. This last
-subterranean movement seems to have considerably altered the general
-contour of the sea-bottom, and so elevated it, at least at one part,
-that a thick accumulation of sand, and subsequently of clay, filled
-it up to the level of the water or nearly so, giving rise to a dense
-growth of the stigmaria and other coal-measure plants whose roots are
-still seen imbedded in the fire-clay on which, as a soft muddy soil,
-they originally grew. It is probable, however, that, notwithstanding
-such elevations of the sea-bed, there was a general subsidence of the
-ground during the accumulation of these strata, for we see that the
-peaty morass, represented now by the coal-seam, ere long sank beneath
-the waters, with the inroads of which it was unable to keep pace, while
-there slowly silted over it a muddy sediment that hardened at length
-into what is now a seam of shale. But this order of things had been in
-existence for but a comparatively short period when the igneous forces
-broke out again, ejecting a stream, of molten lava that spread along
-the bottom of the shallow waters and hardened as before into a sheet
-of greenstone. This was followed by an abundant shower of dust and
-lapilli, along with numerous large masses of greenstone and basalt.
-These falling into the water accumulated on the upper surface of the
-lava-stream, then somewhat cooled, and formed in the end a stratum of
-ash of a rubbly conglomeritic aspect. That the sheet of greenstone
-really spread out along the sea-bottom before the ejection of the ash,
-and was not intruded among the beds at a later period,--that, in short,
-it must be regarded as a contemporaneous and not as an intrusive rock,
-seems sufficiently shown by its great regularity and evenness, and by
-the unaltered condition of the fine soft felspathic matter which covers
-its upper surface. It was assuredly in a highly-heated condition when
-poured out, as may be gathered from the baked aspect of the mud over
-which it rolled; but it had cooled and solidified, at least along its
-upper surface, ere buried beneath the shower of ashes. The last bed
-exhibited in the section is a grey sandstone, with many carbonaceous
-streaks and traces of land-plants, showing a pause in the volcanic
-activity of the district, during which the streams from the land
-brought down sandy sediment, with an abundant admixture of macerated
-leaves, branches, and other drift-wood.
-
-It thus appears that not only were the plains and hills of the
-Carboniferous era richly clothed with vegetation, and its waters
-crowded with animals, but that then, as now, subterranean forces were
-at work, sometimes elevating, sometimes depressing the area alike of
-the land and of the sea; while, not unfrequently, melted lava rose
-from below, rolling along the bottom of the waters, and showers of
-ashes were flung far and wide through the air, settling at last as a
-thickening sediment along the floor of the sea, or athwart the marshy
-swamps of the delta. Whether the interior of the land had burning cones
-among its pine-covered hills we know not yet. Such, however, probably
-existed; nay, there may have been among the higher peaks some "snowy
-pillar of heaven," like the Ætna of Pindar, raising its smoking summit
-among everlasting crags of ice in solitudes lifeless and bare.[77]
-
-[Footnote 77: The highest points of New Zealand, nearly 10,000 feet
-above the sea, are said to be clothed for two-thirds of their height
-with ice and snow. If, therefore, during Carboniferous times, there
-existed somewhere to the west of what is now central Scotland, a chain
-cf hills 5000 or 6000 feet high, their summits might perhaps have been
-as wintry us that of Mont Blanc.]
-
-Our boulder has served us like the minstrels in modern Gothic
-poetry, who appear between the cantos, and give an air of unity and
-completeness to what would otherwise be often rambling and unconnected.
-And now, at the close, it comes again before us, lying in its bed of
-clay, clustered with mosses of brightest green, and overshadowed by its
-flickering canopy of beechen leaves. Silent and senseless, the emblem,
-seemingly, of calm repose and unchanging durability, what could we have
-conceived it should have to chronicle, save the passing, perchance, of
-many a wintry December and many a sultry June. Such, indeed, would be
-the character of its records of the centuries that have passed away
-since the birth of man, did any such record survive in its keeping.
-But it rests there as the memorial of far earlier centuries, and of
-an older creation; and though now surrounded with all that is lovely
-or picturesque--the twinkling flowers on every side, the wide arch of
-boughs overhead, and the murmuring streamlet in the dell below--and
-though forming itself no unimpressive object in the scene, the boulder
-looks out upon us unconnected with anything around. Like a sculptured
-obelisk transported from the plains of Assyria to the streets of
-London, it offers no link of association with the order of things
-around it; its inscriptions are written in hieroglyphics long since
-extinct, but of which the key yet remains to show us that the rocks of
-our planet are not masses of dead, shapeless matter, but chronicles of
-the past; and that all the varied beauty of green field and waving wood
-is but a thin veil of gossamer spread out over the countless monuments
-of the dead. We have raised one little corner of this gauze-like
-covering, and tried to decipher the memorials of bygone creations,
-traced in clear and legible characters on the boulder. First, there
-lies spread out before us a wide arctic sea, studded with icebergs
-that come drifting from the north. Here and there a bare barren islet
-rises above the waste of waters, and the packed ice-floes often strand
-along its shores, while at other parts great towering bergs, aground
-in mid-ocean, keep rising and falling with the heavings of the surge,
-and seem ever on the verge of toppling into the deep. But this scene,
-so bleak and lifeless, erelong fades away, and we can descry a wide
-archipelago of islands, green well-nigh to the water's edge, and
-looking like the higher hill-tops of some foundered continent. The
-waves are actively at work wearing down the shores, which present for
-the most part an abrupt cliff-line to the west. This picture, too,
-gets gradually dim, and when the darkness and haze have cleared away,
-the scene is wholly new. For miles around there spreads out an expanse
-of water, like a wide lake, thickly dotted with islets of every form
-and size, clothed with a rich vegetation. Here a jungle of tall reeds
-shoots out of the water, clustering with star-like leaves; there a
-group of graceful trees, fluted like the columns of an ancient temple,
-and crowned by a coronal of sweeping fronds, spread out their roots
-amid the soft mud. Yonder lies a drier islet, rolling with ferns of
-every shape and size, with here and there a lofty tree-fern, waving its
-massive boughs high overhead. The vegetation, rank and luxuriant in the
-extreme, strikes us as different from anything visible at the present
-day, though, as our eyes rest on the muddy discoloured current, we
-can mark, now and then, huge trunks, branchless and bare, that recall
-some of the living pine-trees. The denizens of the water seem to be
-equally strange. Occasionally a massive head, with sharp formidable
-tusks, peers above the surface, and then the gleam of fins and scales
-reveals a creature some twenty or thirty feet long. Glancing down into
-the clearer spots, we can detect many other forms of the finny tribes,
-all cased in a strong glistening armature of scales, and darting
-about with ceaseless activity. Beyond this scene of almost tropical
-luxuriance, on the one side, lies the blue ocean, with its countless
-shells and corals, its stone-lilies and sea-urchins, and its large
-predaceous fish; on the other side stretches a far-off chain of hills,
-whose nether slopes, dark with pine-woods, sweep down into the rich
-alluvial plains. And then this landscape, too, fades slowly away, and
-thick darkness descends upon us. Yet through the gloom we feel ever
-and anon the rambling earthquake, and see in the distance the glare
-of some active volcano that throws a ruddy gleam amid the pumice and
-ashes, ever dancing along the surface of the sea. And now this last
-scene melts away like the rest, and dark night comes down in which we
-can detect no ray of light, and beyond which we cannot go. The record
-of the boulder can conduct us no further into the history of the past.
-
-The same principles which have been pursued in the previous pages in
-elucidating the history of the Carboniferous system, will conduct
-the reader to the true origin and age of any group of rocks he may
-encounter, whatever its nature, and wheresoever its locality. Let
-him, therefore, in his country rambles, seek to verify them in valley
-and hill-side, by lake and cataract, and along river-course and
-sea-shore. Let him not be content with simply admiring the picturesque
-grouping of rock-masses, but rather seek to interpret their origin
-and history, tracing them step by step into the past, amid ages long
-prior to man. Such a process will give him a yet keener relish for
-the beauties of their scenery, by ever calling up to his mind some of
-those striking contrasts with which geology abounds. In the stillness
-of the mountain-glen, he will see on every side traces of the waves of
-ocean, and when dipping his oars into the unruffled sea among groups
-of wasted rocks, miles from shore, he will bethink him, perchance,
-of some old forest-covered land, of which these battered islets are
-the sole memorials. His enjoyment of the scenery of nature is thus
-increased manifold, and he carries about with him a power of making
-even the tamest landscape interesting. Cowper, in one of his exquisite
-letters, remarks,--"Everything I see in the fields, is to me an object;
-and I can look at the same rivulet or at a handsome tree, every day of
-my life, with new pleasure." Had the sweet singer of Olney lived to
-witness the results obtained by the geologists whom he satirized, he
-would perhaps have sauntered along the Ouse with a new pleasure, and
-have felt a yet more intense delight in casting his eyes athwart the
-breadth of landscape that spreads out around-the "Peasant's nest."
-
-Such, however, are after all only secondary incentives to the study of
-the rocks. As a mental exercise, geology certainly yields to none of
-the other sciences, for it addresses itself at once to the reasoning
-powers and to the imagination, and may thus be made a source both
-of intellectual training and of delightful recreation. Of none of
-the sciences is it so easy to get a general smatter, yet none is so
-difficult thoroughly to master, for geology embraces all the sciences.
-In so wide a field, the student will therefore find ample room to
-expatiate. In beginning the study, he may perhaps think it, as Milton
-pictured the other paths of learning, "laborious, indeed, at the first
-ascent; but else so smooth, so green, so full of goodly prospects and
-melodious sounds on every side, that the harp of Orpheus was not more
-charming." If time and taste disincline him to travel over the whole
-of the broad field, there are delightful nooks to which he may betake
-himself, replete with objects of beauty and interest, where he may
-spend his leisure, and by so doing not merely delight himself, but
-enlarge the bounds of human knowledge. No part of the domain can be too
-obscure or remote to reward his attention; no object too trifling or
-insignificant: for the march of science, though a stately one, proceeds
-not by strides, but by steps often toilsome and slow; and she stands
-mainly indebted for her progress not to the genius of a few gigantic
-intellects, but to the united efforts of many hundred labourers, each
-working quietly in his own limited sphere.
-
-But the highest inducement to this study must ever be that so quaintly
-put by old Sir Thomas Browne: "The world was made to be inhabited by
-beasts, but studied and contemplated by man: 'tis the debt of our
-reason we owe unto God, and the homage we pay for not being beasts;
-without this the world is still as though it had not been, or as it
-was before the sixth day, when as yet there was not a creature that
-could conceive or say there was a world." Geology lifts off for us the
-veil that shrouds the past, and lays bare the monuments of successive
-creations that had come and gone long ere the human race began. She
-traces out the plan of the Divine working during a vast cycle of ages-,
-and points out how the past dovetails with the present, and how the
-existing condition of things comes in as but the last and archetypal
-economy in a long progressive series. By thus revealing what has gone
-before, she enables us more fully to understand what we see around us
-now. Much that is incomplete she restores; much that is enigmatical
-she explains. She teaches us more fully man's true position in the
-created universe, by showing that in him all the geologic ages meet
-that he is the point towards which creation has ever been tending. How
-far the facts brought to light by geology may bear upon the future,
-will not, perhaps, be solved until that future shall have come. There
-is, nevertheless, in the meanwhile, material enough for solemn and
-earnest reflection, and as years go by the amount will probably be
-always increasing. For we must ever be only learners here, and when all
-earthly titles and distinctions have passed away, and we enter amid the
-realities of another world, we shall carry with us this one common name
-alone. It will, perhaps, be then as now, that only
-
-    "In contemplation of created things
-    By steps we may ascend to God."
-
-And it can surely be no unmeet preparation for such a scene, in humble
-faith to read the records of His doings which the Almighty has graven
-on the rocks around us. Many problems meet us on every hand problems
-which it seems impossible for us now to solve and as the circle of
-science ever widens, its enveloping circumference of difficulty and
-darkness widens in proportion. It is, doubtless, well that it should be
-so; for we are thus taught to regard our present state as imperfect and
-incomplete, and to long for that higher and happier one promised by the
-Redeemer to those that love Him, when "we shall know thoroughly even as
-we are thoroughly known."
-
-
-TABLE OF FOSSILIFEROUS ROCKS.
-
-LYELL'S _Elements_, p. 109.
-
-   1. RECENT.               } POST-TERTIARY.
-   2. POST-PLIOCENE.        }
-                                                 }
-   3. NEWER PLIOCENE.       } PLIOCENE.          }
-   4. OLDER PLIOCENE.       }                    }
-                                                 } TERTIARY
-   5. UPPER MIOCENE.        } MIOCENE.           }    or
-   6. LOWER MIOCENE.        }                    } CAINOZOIC.
-                                                 }
-   7. _a_ UPPER EOCENE.     } EOCENE.            }
-   7. _b_ MIDDLE EOCENE.    }                    }
-   8. LOWER EOCENE.         }                    }
-
-   9. MAESTRICHT BEDS.      }
-  10. UPPER WHITE CHALK.    }
-  11. LOWER WHITE CHALK.    }
-  12. UPPER GREENSAND.      } CRETACEOUS.        }
-  13. GAULT.                }                    }
-  14. LOWER GREENSAND.      }                    }
-  15. WEALDEN.              }                    }
-                                                 }
-  16. PURBECK BEDS.         }                    }
-  17. PORTLAND STONE.       }                    } SECONDARY
-  18. KIMMERIDGE CLAY.      }                    }    or
-  19. CORAL RAG.            } JURASSIC           } MESOZOIC.
-  20. OXFORD CLAY.          }                    }
-  21. GREAT or BATH OOLITE. }                    }
-  22. INFERIOR OOLITE.      }                    }
-  23. LIAS.                 }                    }
-                                                 }
-  24. UPPER TRIAS.          }                    }
-  25. MIDDLE TRIAS,         }                    }
-          or                } TRIASSIC.          }
-      MUSCHELKALK.          }                    }
-  26. LOWER TRIAS.          }                    }
-
-  27. PERMIAN,              }
-        or                  } PERMIAN.           }
-      MAGNESIAN LIMESTONE.  }                    }
-                                                 }
-  28. COAL-MEASURES.        }                    }
-  29. CARBONIFEROUS         } CARBONIFEROUS.     }
-        LIMESTONE.          }                    }
-                                                 }  PRIMARY
-  30. UPPER DEVONIAN.       } DEVONIAN, or       }     or
-  31. LOWER    "            } OLD RED SANDSTONE. } PALÆOZOIC.
-                                                 }
-  32. UPPER SILURIAN.       } SILURIAN.          }
-  33. LOWER    "            }                    }
-                                                 }
-  34. UPPER CAMBRIAN.       } CAMBRIAN.          }
-  35. LOWER    "            }                    }
-
-
-       *       *       *       *       *
-
-
-Transcriber Note
-
-Minor typos corrected. Some images moved to nearest paragraph break. A
-paragraph break was added to page 74 and 105 to accommodate placement
-of Figures 17 and 26 respectively. The missing anchor for the footnote
-on page 199 was added.
-
-
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-<div style='text-align:center; font-size:1.2em; font-weight:bold'>The Project Gutenberg eBook of The Story of a Boulder; or, Gleanings from the Note-book of a Field Geologist, by Sir Archibald Geikie</div>
-
-<div style='display:block; margin:1em 0'>
-This eBook is for the use of anyone anywhere in the United States and
-most other parts of the world at no cost and with almost no restrictions
-whatsoever. You may copy it, give it away or re-use it under the terms
-of the Project Gutenberg License included with this eBook or online
-at <a href="https://www.gutenberg.org">www.gutenberg.org</a>. If you
-are not located in the United States, you will have to check the laws of the
-country where you are located before using this eBook.
-</div>
-
-<p style='display:block; margin-top:1em; margin-bottom:1em; margin-left:2em; text-indent:-2em'>Title: The Story of a Boulder; or, Gleanings from the Note-book of a Field Geologist</p>
-
-<div style='display:block; margin-top:1em; margin-bottom:1em; margin-left:2em; text-indent:-2em'>Author: Sir Archibald Geikie</div>
-
-<div style='display:block; margin:1em 0'>Release Date: November 10, 2021 [eBook #66703]</div>
-
-<div style='display:block; margin:1em 0'>Language: English</div>
-
-<div style='display:block; margin:1em 0'>Character set encoding: UTF-8</div>
-
-<div style='display:block; margin-left:2em; text-indent:-2em'>Produced by: Tom Cosmas from materials made available on The Internet Archive and placed in the Public Domain.</div>
-
-<div style='margin-top:2em; margin-bottom:4em'>*** START OF THE PROJECT GUTENBERG EBOOK THE STORY OF A BOULDER; OR, GLEANINGS FROM THE NOTE-BOOK OF A FIELD GEOLOGIST ***</div>
-
-
-
-
-<div class="figcenter" id="cover" style="width: 285px;">
-  <img src="images/cover.png" width="285" height="439" alt="The Story of a Boulder; or, Gleanings from the Note-book of a Field Geologist, by Archibald Geikie" />
-</div>
-
-
-
-
-
-<p><span class="pagenum" id="Page_i"></span></p>
-
-<p><span class="pagenum" id="Page_ii"></span></p>
-
-<p class="caption2">THE STORY OF A BOULDER.</p>
-
-<hr class="chap x-ebookmaker-drop" />
-
-<div class="chapter">
-<p><span class="pagenum" id="Page_iii">- iii -</span></p>
-
-<h1 class="nobreak" >THE STORY OF A BOULDER</h1>
-</div>
-
-<p class="tdc">OR</p>
-
-<p class="caption2">GLEANINGS FROM THE NOTE-BOOK OF A<br />
-FIELD GEOLOGIST</p>
-
-
-
-<p class="tdc pmt2">BY</p>
-
-<h2>ARCHIBALD GEIKIE</h2>
-
-<p class="caption4 pmb2">OF THE GEOLOGICAL SURVEY OF GREAT BRITAIN.</p>
-
-
-<p class="antiqua">Illustrated with Woodcuts.</p>
-
-
-<p class="caption4 pmt2">EDINBURGH: THOMAS CONSTABLE AND CO.<br />
-HAMILTON, ADAMS, AND CO., LONDON.</p>
-
-<p class="tdc"><b>MDCCCLVIII.</b></p>
-
-<p><span class="pagenum" id="Page_iv">- iv -</span></p>
-
-
-<p class="tdc pmt4 pmb4">EDINBURGH: <span class="bdt">T. CONSTABLE, PRINTER TO HER</span> MAJESTY.</p>
-
-<p><span class="pagenum" id="Page_v">- v -</span></p>
-
-
-<p class="tdc pmt4">TO</p>
-
-<p class="caption3nb pmt2">GEORGE WILSON, M.D., F.R.S.E.</p>
-
-<p class="tdc pmb4">REGIUS PROFESSOR OF TECHNOLOGY IN THE<br />
-UNIVERSITY OF EDINBURGH,</p>
-
-<p class="tdc" style="font-size:1.25em;">THESE PAGES</p>
-
-<p class="tdc pmt2 pmb2">ARE</p>
-
-<p class="tdc pmb4">AFFECTIONATELY INSCRIBED.</p>
-
-<hr class="chap x-ebookmaker-drop" />
-
-<div class="chapter">
-<p><span class="pagenum" id="Page_vii">- vii -</span></p>
-
-<h2 class="nobreak" id="PREFACE">PREFACE</h2>
-</div>
-
-
-<p><span class="smcap">The</span> present Volume has been written among the rocks which
-it seeks to describe, during the intervals of leisure of a field-geologist.
-Its composition has been carried on by snatches,
-often short and far apart, some of the descriptions having been
-jotted down on the spot by streamlet and hill-side, or in the
-quiet of old quarries; others, again, in railway-carriage or stage-coach.
-By much the larger portion, however, has been written
-by the village fireside, after the field-work of the day was
-over&mdash;a season not the most favourable to any mental exercise,
-for weariness of body is apt to beget lassitude of mind. In
-short, were I to say that these Chapters have been as often
-thrown aside and resumed again as they contain paragraphs,
-the statement would probably not exceed the truth. But the
-erratic life of an itinerant student of science is attended with
-yet greater disadvantages. It entails an absence from all
-libraries, more especially scientific ones, and the number of
-works of reference admissible into his <i>parva supellex</i> must ever
-be few indeed. With these hindrances, can the writer venture
-to hope that what has thus been so disjointed and unconnected
-to him, will not seem equally so to his readers? Yet if his
-descriptions, written, as it were, face to face with Nature,
-<span class="pagenum" id="Page_viii">- viii -</span>
-are found to have caught some tinge of Nature's freshness, and
-please the reader well enough to set him in the way of becoming
-a geologist, he shall have accomplished all his design.</p>
-
-<p>It cannot be too widely known, or too often pressed on the
-attention, especially of the young, that a true acquaintance
-with science, so delightful to its possessors, is not to be acquired
-at second-hand. Text-books and manuals are valuable
-only so far as they supplement and direct our own observations.
-A man whose knowledge of Nature is derived solely
-from these sources, differs about as much from one who betakes
-himself to Nature herself, as a dusty, desiccated mummy
-does from a living man. You have the same bones and sinews
-in both; but in the one they are hard and dry, wholly incapable
-of action; in the other they are instinct with freshness and
-life. He who would know what physical science really is, must
-go out into the fields and learn it for himself: and whatever
-branch he may choose, he will not be long in discovering that a
-forenoon intelligently spent there must be deemed of far more
-worth than days and weeks passed among books. He sees the
-objects of his study with his own eyes, and not through "the
-spectacles of books;" facts come home to him with a vividness
-and reality they never can possess in the closet; the free buoyant
-air brightens his spirits and invigorates his mind, and he returns
-again to his desk or his workshop with a store of new health
-and pleasure and knowledge. Geology is peculiarly rich in
-these advantages, and lies in a manner open to all. No matter
-what may be the season of the year, it offers always some material
-for observation. In the depth of winter we have the
-effects of ice and frost to fall back upon, though the country
-should lie buried in snow; and then when the longer and
-<span class="pagenum" id="Page_ix">- ix -</span>
-brighter days of spring and summer come round, how easily
-may the hammer be buckled round the waist, and the student
-emerge from the dust of town into the joyous air of the country,
-for a few delightful hours among the rocks; or when autumn
-returns with its long anticipated holidays, and preparations are
-made for a scamper in some distant locality, hammer and note-book
-will not occupy much room in the portmanteau, and will
-certainly be found most entertaining company. The following
-pages&mdash;forming a digest of the Carboniferous rocks&mdash;may, perhaps,
-in some measure, guide the explorations of the observer,
-by indicating to him the scope of geological research, the principles
-on which the science rests, and the mode in which it is
-pursued. But I repeat, no book, no lecture-room, no museum,
-will make a geologist of him. He must away to the fields and
-study for himself, and the more he can learn there he will
-become the better geologist.</p>
-
-<p>He need not burden himself with accoutrements. A hammer,
-pretty stout in its dimensions, with a round blunt face and a
-flat sharp tail; a note-book and a good pocket-lens, are all he
-needs to begin with. Having these, let him seek to learn the
-general characters' of the more common rocks, aiding himself,
-where he can, by a comparison with the specimens of a museum,
-or, failing that, with the descriptions of a text-book. Let him
-then endeavour to become acquainted with some of the more
-characteristic fossils of the district in which he resides, so as to
-be able to recognise them wherever they occur. Private collections
-and local museums are now becoming comparatively common,
-and these, where accessible, will aid him vastly in his studies.
-Having at length mastered the more abundant rocks and organic
-remains of his neighbourhood, let him try to trace out
-<span class="pagenum" id="Page_x">- x -</span>
-the connexion of the different strata across the country, so as
-to understand its structure. For this purpose it will be necessary
-to examine every ravine and natural exposure of the rocks,
-along with quarries, ditches, railway-cuttings, and, in short, the
-whole surface of the district. A general notion of the geology
-of the place will, not perhaps be of very difficult attainment;
-and this done, the observer should attempt to put down the
-connexion of the rocks on paper, for till this is accomplished he
-will have at the best but an imperfect, and perhaps incorrect
-notion of the subject. The best map of the district should be
-obtained, also a clinometer, or instrument for ascertaining the
-angle at which rocks <i>dip</i> with the horizon, and a pocket-compass
-with which to mark the direction of the <i>dip</i> and <i>strike</i> of strata,
-that is, the <i>outcrop</i>, or line which they form when they come to
-the surface. Thus armed, he may commence a geological survey
-of his neighbourhood. Wherever he sees a bed of rock
-exposed, it should be marked down on his map with an arrow
-pointing to the direction in which the stratum is dipping, the
-angle of dip, ascertained by the clinometer, being put alongside.
-The nature of the rock, whether sandstone, shale, limestone, or
-greenstone, must be set down at the same place, and, to save
-room, a system of marks for the different rocks may be conveniently
-used. When a sufficient area of ground has been
-thus traversed, the student may find, say a row of arrows on
-his map all pointing due west, and indicating a set of quarries
-about a quarter of a mile distant from one another, the rock in
-each of them dipping to the west. If there be at the one end
-a limestone containing certain fossils, and at the other end a
-stratum exactly similar, containing the same fossils, while the
-quarries between display the same rock, he will infer, of course,
-<span class="pagenum" id="Page_xi">- xi -</span>
-that the whole is one limestone, and will accordingly draw a
-line from the last quarry on the north to the last on the south,
-connecting them all together. If the bed dips steeply down,
-the line will be narrower,&mdash;if but slightly inclined, it will be
-broader; the breadth of such a line (which may be coloured to
-taste) always varying with the thickness of the stratum and
-the angle which it makes with the horizon. In a district
-where faults and curvatures along with trap-rocks abound, the
-mapping becomes more complex, but the principle remains the
-same&mdash;a curved stratum on the ground making a similarly
-curved band on the map, and a fault or dislocation of a set of
-beds producing, in the same way, a corresponding break in the
-lines traced. In short, a geological map should be as far as
-possible a transcript of the surface rocks of a country. The
-beginner should avoid, however, attempting too much; it will
-be enough for him at first to have mastered the leading features
-of the geology of his district; the details cannot be shown save
-on a map of a large scale, and are better transferred to his
-note-book. The use of such mapping is to enable us to gain a
-correct knowledge of the geological structure of a country, and
-of the relation of rocks to each other as regards age, origin, &amp;c.
-Bacon tells us that "writing makes an exact man;" we may
-say with equal truth that mapping makes an exact geologist.
-It is sometimes easy enough to obtain a notion of the general
-character of a district by taking a few rambles across it; but
-we can never know it thoroughly until we have mapped it.
-And this is done not as mere dry routine, or by a series of hard
-uninteresting rules. In reading off the geological structure
-of a country, we ascertain its history during many thousand
-ages long prior to that of man. We become, as it were,
-<span class="pagenum" id="Page_xii">- xii -</span>
-interpreters of hieroglyphics, and historians of long-perished
-dynasties.</p>
-
-<p>Those who have had experience of field-geology, know how
-vain it is to attempt to compress into a page or two the results
-of years, and that a few vague general directions are about the
-utmost that can be attempted. The practice of the science
-cannot be taught in books, far less in prefaces, neither can it
-be learned from them. And so I once more repeat the advice:
-Get away to the fields. Seek to decipher the geological records
-for yourself, and look with your own eyes into the long series of
-ages whose annals lie inscribed among the rocks. If you can
-secure the co-operation of a few companions, so much the better.
-Half-a-dozen hammers zealously at work in a richly fossiliferous
-stratum will soon pile up a tolerable collection of its treasures.
-But whether singly or in company, use your eyes and your
-hammer, and even though in the end you should never become
-a geologist, you will in the meantime gain health and vigour,
-and a clearness of observation, that will stand you in good
-stead through life.</p>
-
-<hr class="chap x-ebookmaker-drop" />
-
-<div class="chapter">
-<p><span class="pagenum" id="Page_xiii">- xiii -</span></p>
-
-<h2 class="nobreak" id="CONTENTS">CONTENTS.</h2>
-</div>
-
-
-<p class="caption2">CHAPTER I.</p>
-
-<p class="tdr">PAGE</p>
-
-<p class="cont_item">Scene near Colinton in midsummer&mdash;A grey travelled Boulder&mdash;Its aspect
-  and contents&mdash;Its story of the past,</p>
-
-<p class="tdr"><a href="#CHAPTER_I">1</a></p>
-
-
-<p class="caption2">CHAPTER II.</p>
-
-<p class="cont_item">Exterior of the boulder&mdash;Travelled stones a difficult problem&mdash;Once referred to
-the Deluge&mdash;Other theories&mdash;Novelty of the true solution&mdash;Icebergs formed
-in three ways&mdash;Progress and scenery of an iceberg&mdash;Its effects&mdash;Size of icebergs&mdash;Boulder
-clay had a glacial origin&mdash;This explanation confirmed by
-fossil shells&mdash;Laws of the distribution of life&mdash;Deductions,</p>
-
-<p class="tdr"><a href="#CHAPTER_II">6</a></p>
-
-
-<p class="caption2">CHAPTER III.</p>
-
-<p class="cont_item">How the boulder came to be one&mdash;"Crag and tail"&mdash;Scenery of central Scotland:
-Edinburgh&mdash;"Crag and tail" formerly associated in its origin with the
-boulder-clay&mdash;This explanation erroneous&mdash;Denudation an old process&mdash;Its
-results&mdash;Illustration from the Mid-Lothian coal-field&mdash;The three Ross-shire
-hills&mdash;The Hebrides relics of an ancient land&mdash;Scenery of the western coast&mdash;Effects
-of the breakers&mdash;Denudation of the Secondary strata of the Hebrides&mdash;Preservative
-influence of trap-rocks&mdash;Lost species of the Hebrides&mdash;Illustration&mdash;Origin
-of the general denudation of the country&mdash;Illustrative action
-of streams&mdash;Denudation a very slow process&mdash;Many old land-surfaces may
-have been effaced&mdash;Varied aspect of the British Islands during a period of
-submergence&mdash;Illustration,</p>
-
-<p class="tdr"><a href="#CHAPTER_III">18</a></p>
-
-
-<p class="caption2">CHAPTER IV.</p>
-
-<p class="cont_item">Interior of the boulder&mdash;Wide intervals of Geology&mdash;Illustration&mdash;Long interval
-between the formation of the boulder as part of a sand-bed, and its striation
-by glacial action&mdash;Sketch of the intervening ages&mdash;The boulder a Lower Carboniferous
-rock&mdash;Cycles of the astronomer and the geologist contrasted&mdash;Illustration&mdash;Plants
-shown by the boulder once grew green on land&mdash;Traces of that
-<span class="pagenum" id="Page_xiv">- xiv -</span>
-ancient land Its seas, shores, forests, and lakes, all productive of material
-aids to our comfort and power&mdash;Plants of the Carboniferous era&mdash;Ferns&mdash;Tree-ferns&mdash;Calamites&mdash;Asterophyllites&mdash;Lepidodendron&mdash;Lepidostrobus&mdash;Stigmaria&mdash;Scene
-in a ruined palace&mdash;Sigillaria&mdash;Conifer&aelig;, Cycade&aelig;&mdash;Antholites,
-the oldest known flower&mdash;Grade of the Carboniferous flora&mdash;Its
-resemblance to that of New Zealand,</p>
-
-<p class="tdr"><a href="#CHAPTER_IV">30</a></p>
-
-
-<p class="caption2">CHAPTER V.</p>
-
-<p class="cont_item">Scenery of the carboniferous forests&mdash;Contrast in the appearance of coal districts
-at the present day&mdash;Abundance of animal life in the Carboniferous era&mdash;Advantages
-of pal&aelig;ontology over fossil-botany&mdash;Carboniferous fauna&mdash;Actini&aelig;&mdash;Cup-corals&mdash;Architecture
-of the present day might be improved by study
-of the architecture of the Carboniferous period&mdash;Mode of propagation of corals&mdash;A
-forenoon on the beach&mdash;Various stages in the decomposition of shells&mdash;Sea-mat&mdash;Bryozoa&mdash;Fenestella&mdash;Retepora&mdash;Stone-lilies&mdash;Popular
-superstitions&mdash;Structure of the stone-lilies&mdash;Aspect of the sea-bottom on which the
-stone-lilies flourished&mdash;Sea-urchins&mdash;Crustacea, their high antiquity&mdash;Cyprides&mdash;Architecture
-of the Crustacea and mollusca contrasted&mdash;King-crabs,</p>
-
-<p class="tdr"><a href="#CHAPTER_V">59</a></p>
-
-
-<p class="caption2">CHAPTER VI.</p>
-
-<p class="cont_item">Carboniferous fauna continued&mdash;George Herbert's ode on "Man"&mdash;His idea of
-creation&mdash;What nature teaches on this subject&mdash;Molluscous animals&mdash;Range
-of species in time proportionate to their distribution in space&mdash;Two principles
-of renovation and decay exhibited alike in the physical world and the world
-of life&mdash;Their effects&mdash;The mollusca&mdash;Abundantly represented in the carboniferous
-rocks&mdash;Pteropods&mdash;Brachiopods&mdash;Productus&mdash;Its alliance with Spirifer&mdash;Spirifer&mdash;Terebratula&mdash;Lamellibranchs&mdash;Gastropods&mdash;Land-snail
-of Nova Scotia&mdash;Cephalopods&mdash;Structure of orthoceras&mdash;Habits of living nautilus,</p>
-
-<p class="tdr"><a href="#CHAPTER_VI">86</a></p>
-
-
-<p class="caption2">CHAPTER VII.</p>
-
-<p class="cont_item">Classification of the naturalist not always correspondent with the order of
-nature&mdash;Incongruous grouping of animals in the invertebrate division&mdash;Rudimentary
-skeleton of the cephalopods&mdash;Introduction of the vertebrate type into
-creation&mdash;Ichthyolites of the carboniferous rocks&mdash;Their state of keeping&mdash;Classification
-of fossil fishes&mdash;Placoids&mdash;Ichthyodorulites&mdash;Ganoids&mdash;Their
-structure exemplified in the megalichthys and holoptychius&mdash;Cranium of
-megalichthys&mdash;Its armature of scales&mdash;Microscopic structure of a scale&mdash;Skeleton
-of megalichthys&mdash;History of the discovery of the holoptychius&mdash;Confounded
-with megalichthys&mdash;External ornament of holoptychius&mdash;Its
-jaws and teeth&mdash;Microscopic structure of the teeth&mdash;Paucity of terrestrial
-fauna in coal measures&mdash;Insect remains&mdash;Relics of reptiles&mdash;Concluding
-summary of the characters of the Carboniferous fauna&mdash;Results,</p>
-
-<p class="tdr"><a href="#CHAPTER_VII">110</a></p>
-
-<p><span class="pagenum" id="Page_xv">- xv -</span></p>
-
-
-<p class="caption2">CHAPTER VIII.</p>
-
-<p class="cont_item">Sand and gravel of the boulder&mdash;What they suggested&mdash;Their consideration leads
-us among the more mechanical operations of Nature&mdash;An endless succession
-of mutations in the economy of the universe&mdash;Exhibited in plants In animals&mdash;In
-the action of winds and oceanic currents&mdash;Beautifully shown by
-the ceaseless passage of water from land to sea, and sea to land&mdash;This interchange
-not an isolated phenomenon&mdash;How aided in its effects by a universal
-process of decay going on wherever a land surface is exposed to the air&mdash;Complex
-mode of Nature's operations&mdash;Interlacing of different causes in the
-production of an apparently single and simple effect&mdash;Decay of rocks&mdash;Chemical
-changes&mdash;Underground and surface decomposition&mdash;Carbonated
-springs&mdash;The Spar Cave&mdash;Action of rain-water&mdash;Decay of granite&mdash;Scene in
-Skye&mdash;Trap-dykes&mdash;Weathered cliffs of sandstone&mdash;Of conglomerate&mdash;Of
-shale&mdash;Of limestone&mdash;Caverns of Raasay&mdash;Incident&mdash;Causes of this waste of
-calcareous rocks&mdash;Tombstones,</p>
-
-<p class="tdr"><a href="#CHAPTER_VIII">138</a></p>
-
-
-<p class="caption2">CHAPTER IX.</p>
-
-<p class="cont_item">Mechanical forces at work in the disintegration of rocks&mdash;Rains&mdash;Landslips&mdash;Effects
-of frosts&mdash;Glaciers and icebergs&mdash;Abrading power of rivers&mdash;Suggested
-volume on the geology of rivers&mdash;Some of its probable contents&mdash;Scene in a
-woody ravine&mdash;First idea of the origin of the ravine one of primeval cataclysms&mdash;Proved
-to be incorrect&mdash;Love of the marvellous long the bane of geology&mdash;More
-careful examination shows the operations of Nature to be singularly
-uniform and gradual&mdash;The doctrine of slow and gradual change not less poetic
-than that of sudden paroxysms&mdash;The origin of the ravine may be sought among
-some of the quieter processes of Nature&mdash;Features of the ravine Lessons of
-the waterfall&mdash;Course of the stream through level ground&mdash;True history of
-the ravine&mdash;Waves and currents&mdash;What becomes of the waste of the land&mdash;The
-Rhone and the Leman Lake&mdash;Deltas on the sea-margin&mdash;Reproductive
-effects of currents and waves&mdash;Usual belief in the stability of the land and the
-mutability of the ocean&mdash;The reverse true&mdash;Continual interchange of land
-and sea part of the economy of Nature&mdash;The continuance of such a condition
-of things in future ages rendered probable by its continuance during
-the past,</p>
-
-<p class="tdr"><a href="#CHAPTER_IX">157</a></p>
-
-
-<p class="caption2">CHAPTER X.</p>
-
-<p class="cont_item">The structure of the stratified part of the earth's crust conveniently studied by
-the examination of a single formation&mdash;A coal-field selected for this purpose&mdash;Illustration
-of the principles necessary to such an investigation&mdash;The antiquities
-of a country of value in compiling its pre-historic annals&mdash;Geological
-antiquities equally valuable and more satisfactorily arranged&mdash;Order of superposition
-<span class="pagenum" id="Page_xvi">- xvi -</span>
-of stratified formations&mdash;Each formation contains its own suite of
-organic remains&mdash;The age of the boulder defined by this test from fossils&mdash;Each
-formation as a rule shades into the adjacent ones&mdash;Mineral substances
-chiefly composing the stratified rocks few in number&mdash;Not of much value
-in themselves as a test of age&mdash;The Mid-Lothian coal-basin&mdash;Its subdivisions&mdash;The
-limestone of Burdiehouse&mdash;Its fossil remains&mdash;Its probable origin&mdash;Carboniferous
-limestone series of Mid-Lothian&mdash;Its relation to that of England&mdash;Its
-organic remains totally different from those of Burdiehouse&mdash;Structure
-and scenery of Roman Camp Hill&mdash;Its quarries of the mountain
-limestone&mdash;Fossils of these quarries indicative of an ancient ocean-bed&mdash;Origin
-of the limestones&mdash;Similar formations still in progress&mdash;Coral-reefs and
-their calcareous silt&mdash;Sunset among the old quarries of Roman Camp Hill,</p>
-
-<p class="tdr"><a href="#CHAPTER_X">178</a></p>
-
-
-<p class="caption2">CHAPTER XI.</p>
-
-<p class="cont_item">Intercalation of coal seams among mountain limestone beds of Mid-Lothian&mdash;North
-Greens seam&mdash;Most of our coal seams indicate former land-surfaces&mdash;Origin
-of coal a debated question&mdash;Erect fossil trees in coal-measures&mdash;Deductions
-to be drawn therefrom&mdash;Difference between the mountain limestone
-of Scotland and that of England&mdash;Coal-bearing character of the northern
-series&mdash;Divisions of the Mid-Lothian coal-field&mdash;The Edge coals&mdash;Their origin
-illustrated by the growth of modern deltas&mdash;Delta of the Nile&mdash;Of the Mississippi&mdash;Of
-the Ganges&mdash;Progress of formation of the Edge coals&mdash;Scenery of
-the period like that of modern deltas&mdash;Calculations of the time required for
-the growth of a coal-field&mdash;Why of doubtful value&mdash;Roslyn Sandstone group&mdash;Affords
-proofs of a general and more rapid subsidence beneath the sea&mdash;Its
-great continuity&mdash;Probable origin&mdash;Flat coals&mdash;Similar in origin to the
-Edge coals below&mdash;Their series not now complete&mdash;Recapitulation of the
-general changes indicated by the Mid-Lothian coal-field,</p>
-
-<p class="tdr"><a href="#CHAPTER_XI">204</a></p>
-
-
-<p class="caption2">CHAPTER XII.</p>
-
-<p class="cont_item">Trap-pebbles of the boulder&mdash;Thickness of the earth's crust unknown&mdash;Not of
-much consequence to the practical geologist&mdash;Interior of the earth in a highly
-heated condition&mdash;Proofs of this&mdash;Granite and hypogene rocks&mdash;Trap-rocks:
-their identity with lavas and ashes&mdash;Scenery of a trappean country&mdash;Subdivisions
-of the trap-rocks&mdash;Intrusive traps&mdash;Trap-dykes&mdash;Intrusive sheets&mdash;Salisbury
-Crags&mdash;Traps of the neighbourhood of Edinburgh&mdash;Amorphous
-masses&mdash;Contemporaneous trap-rocks of two kinds&mdash;Contemporaneous melted
-rocks&mdash;Tests for their age and origin&mdash;Examples from neighbourhood of Edinburgh&mdash;Tufas
-or volcanic ashes&mdash;Their structure and origin&mdash;Example of
-contemporaneous trap-rocks&mdash;Mode of interpreting them&mdash;Volcanoes of Carboniferous
-times&mdash;Conclusion,</p>
-
-<p class="tdr"><a href="#CHAPTER_XII">235</a></p>
-
-<p><span class="pagenum" id="Page_1">- 1 -</span></p>
-
-
-<hr class="chap x-ebookmaker-drop" />
-
-<div class="chapter">
-<h2 class="nobreak">THE STORY OF A BOULDER.</h2>
-</div>
-
-
-<hr class="chap x-ebookmaker-drop" />
-
-<div class="chapter">
-<h2 class="nobreak" id="CHAPTER_I">CHAPTER I.</h2>
-</div>
-
-
-<div class="blockquot">
-
-<p>Scene near Colinton in midsummer&mdash;A grey travelled Boulder&mdash;Its
-aspect and contents&mdash;Its story of the past.</p>
-</div>
-
-<p><span class="smcap">Three</span> miles to the south-west of Edinburgh, and not
-many hundred yards from the sequestered village of Colinton,
-there is a ravine, overshaded by a thick growth of beech
-and elm, and traversed beneath by a stream, which, rising
-far away among the southern hills, winds through the rich
-champaign country of Mid-Lothian. It is, at all seasons of
-the year, one of the most picturesque nooks in the county.
-I have seen it in the depth of winter&mdash;the leafless boughs
-doddered and dripping, the rocks dank and bare save where
-half-hidden by the rotting herbage, and the stream, red and
-swollen, roaring angrily down the glen, while the families,
-located along its banks, fleeing in terror to the higher grounds,
-had left their cottages to the mercy of the torrent. The last
-time I visited the place was in the heart of June, and surely never
-did woodland scene appear more exquisitely beautiful. The
-beech trees were in full leaf, and shot their silvery boughs in
-slender arches athwart the dell, intertwining with the broader
-foliage and deeper green of the elm, and the still darker spray
-of the stately fir. The rocks on either side were tapestried with
-<span class="pagenum" id="Page_2">- 2 -</span>
-verdure; festoons of ivy, with here and there a thread of honey-suckle
-interwoven, hung gracefully from the cliffs overhead;
-each projecting ledge had its tuft of harebells, or speedwell, or
-dog-violets, with their blue flowers peeping out of the moss and
-lichens; the herb-robert trailed its red blossoms over crag and
-stone; the wood-sorrel nestled its bright leaves and pale
-flowerets among the gnarled roots of beech and elm; while
-high over all, alike on the rocks above and among the ferns
-below, towered the gently drooping stalks of the fox-glove.
-The stream, almost gone, scarcely broke the stillness with a low
-drowsy murmur, as it sauntered on among the <i>lapides adesos</i> of
-its pebbly channel. Horace's beautiful lines found again their
-realization:&mdash;</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent0">"Qua pinus ingens, albaque populus</div>
-    <div class="verse indent1">Umbram hospitalem consociare amant</div>
-    <div class="verse indent4">Ramis, et obliquo laborat</div>
-    <div class="verse indent8">Lympha fugax trepidare rivo." <a id="FNanchor_1" href="#Footnote_1" class="fnanchor">[1]</a></div>
-  </div>
-</div>
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_1" href="#FNanchor_1" class="label">[1]</a></p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent1">Where the tall pine and poplar pale</div>
-    <div class="verse indent1">Delight to cast athwart the vale</div>
-    <div class="verse indent4">A pleasing shade.</div>
-    <div class="verse indent1">While the clear stream low murmuring bells.</div>
-    <div class="verse indent1">And o'er its winding channel toils</div>
-    <div class="verse indent4">Adown the glade.&mdash;A. G.</div>
-  </div>
-</div>
-</div>
-
-
-</div>
-
-<p>It was noon, and the sun shone more brightly and with
-greater heat than had been felt for years. The air, heavy and
-warm, induced a feeling of listlessness and languor, and the day
-seemed one for which the only appropriate employment would
-have been to read once again the "Castle of Indolence." But
-failing that, I found it pleasant to watch the flickering light
-shot in fitful gleams through the thick canopy of leaves, and
-thus, in the coolness of the shade, to mark these rays&mdash;sole
-messengers from the sweltering world around&mdash;as they danced
-from rock to stream, now lighting up the ripples that curled
-dreamily on, now chequering some huge boulder that lay smooth
-and polished in mid-channel, anon glancing playfully among
-<span class="pagenum" id="Page_3">- 3 -</span>
-the thickets of briar or honeysuckle and vanishing in the shade.
-Sometimes a wagtail would alight at hand, or a bee drone
-lazily past, while even an occasional butterfly would venture
-down into this shady covert. But, with these exceptions, the
-animal creation seemed to have gone to sleep, an example which
-it was somewhat difficult to avoid following. While thus idly
-engaged, my eye rested on a large boulder on the opposite side.
-It lay partly imbedded in a stiff clay, and partly protruding
-from the surface of the bank some way above the stream. A
-thick arbour of leafage overhung it, through which not even
-the faintest ray of sunshine could force its way. The spot
-seemed cooler and more picturesque than that which I occupied,
-and so, crossing the well-nigh empty channel, I climbed the
-bank and was soon seated on the boulder. A stout hammer is
-a constant companion in my rambles, and was soon employed
-on this occasion in chipping almost unconsciously the newly-acquired
-seat. The action was, perhaps, deserving of the satire
-of Wordsworth's Solitary:&mdash;</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent6">"You may trace him oft</div>
-    <div class="verse indent1">By scars, which his activity has left</div>
-    <div class="verse indent1">Beside our roads and pathways, though, thank Heaven!</div>
-    <div class="verse indent1">This covert nook reports not of his hand.</div>
-    <div class="verse indent1">He, who with pocket-hammer smites the edge</div>
-    <div class="verse indent1">Of luckless rock or prominent stone, disguised</div>
-    <div class="verse indent1">In weather-stains, or crusted o'er by Nature</div>
-    <div class="verse indent1">With her first growths, detaching by the stroke</div>
-    <div class="verse indent1">A chip or splinter to resolve his doubts;</div>
-    <div class="verse indent1">And, with that ready answer satisfied,</div>
-    <div class="verse indent1">The substance classes by some barbarous name,</div>
-    <div class="verse indent1">And hurries on; or from the fragments picks</div>
-    <div class="verse indent1">His specimen; if but imply interveined</div>
-    <div class="verse indent1">With sparkling mineral, or should crystal cube</div>
-    <div class="verse indent1">Lurk in its cells and thinks himself enriched.</div>
-    <div class="verse indent1">Wealthier, and doubtless wiser, than before!"</div>
-  </div>
-</div>
-</div>
-
-<p>There was nothing in the distant aspect of the boulder to attract
-attention. It was just such a mass as dozens of others
-all round. Nor, on closer inspection, might anything peculiar
-<span class="pagenum" id="Page_4">- 4 -</span>
-have been observed. It had an irregularly oblong form, about
-two or three feet long, and half as high. Ferns and herbage
-were grouped around it, the wood-sorrel clustered up its sides,
-and little patches of moss and lichen nestled in its crevices.
-And yet, withal, there was something about it that, ere long,
-riveted my attention. I examined it minutely from one end to
-the other, and from top to bottom. The more I looked the
-more did I see to interest me; and when, after a little labour,
-some portions of its upper surface were detached, my curiosity
-was abundantly gratified. That grey lichened stone, half hid
-among foliage, and unheeded by any human being, afforded me
-material for a pleasant forenoon's thought. Will my reader
-accept an expanded narrative of my reverie?</p>
-
-<p>I can almost anticipate a smile. "What can there be remarkable
-in such a grey stone, hidden in a wood, and of which
-nobody knows anything? It never formed part of any ancient
-building; it marks the site of no event in the olden time; it is
-linked with nothing in the history of our country. What of
-interest, then, can it have for us?" Nay, I reply, you are
-therein mistaken. It is, assuredly, linked with the history of
-our country&mdash;it does mark the passing of many a historical
-event long ere human history began; and, though no tool ever
-came upon it, it did once form part of a building that rose
-under the finger of the Almighty during the long ages of a
-bygone eternity. To change the figure, this boulder seemed
-like a curious volume, regularly paged, with a few extracts from
-older works. Bacon tells us that "some books are to be
-tasted, others to be swallowed, and some few to be chewed
-and digested." Of the last honour I think the boulder fully
-worthy, and if the reader will accompany me, I shall endeavour
-to show him how the process was attempted by me.</p>
-
-<p>The rock consisted of a hard grey sandstone finely laminated
-above, and getting pebbly and conglomeritic below. The
-included pebbles were well worn, and belonged to various
-<span class="pagenum" id="Page_5">- 5 -</span>
-kinds of rock. The upper part of the block was all rounded,
-smoothed, and deeply grooved, and, when split open, displayed
-numerous stems and leaflets of plants converted into a black
-coaly substance. These plants were easily recognisable as well-known
-organisms of the carboniferous strata, and it became accordingly
-evident that the boulder was a block of carboniferous
-sandstone. The pebbles below, however, must have been derived
-from more ancient rocks, and they were thus seen to
-represent some older geological formation. In this grey rock,
-therefore, there could at once be detected well-marked traces of
-at least two widely-separated ages. The evidence for each was
-indubitable, and the chronology of the whole mass could not be
-mistaken. The surface striation bore undoubted evidence of
-the glacial period, the embedded plants as plainly indicated the
-far more ancient era of the coal-measures, while the pebbles of
-the base pointed, though dimly, to some still more primeval age.
-I had here, as it were, a quaint, old, black-letter volume of the
-middle ages, giving an account of events that were taking place
-at the time it was written, and containing on its earlier pages
-numerous quotations from authors of antiquity. The scratched
-surface, to complete the simile, may be compared to this old
-work done up in a modern binding. Let us, then, first of all,
-look for a little at the exterior of the volume, and inquire into
-the origin of that strangely-striated surface, and of the clay in
-which the boulder rested.</p>
-<hr class="chap x-ebookmaker-drop" />
-
-<div class="chapter">
-<p><span class="pagenum" id="Page_6">- 6 -</span></p>
-
-<h2 class="nobreak" id="CHAPTER_II">CHAPTER II.</h2>
-</div>
-
-
-<div class="blockquot">
-
-<p>Exterior of the boulder&mdash;Travelled stones a difficult problem&mdash;Once
-referred to the Deluge&mdash;Other theories&mdash;Novelty of the true
-solution&mdash;Icebergs formed in three ways&mdash;Progress and scenery
-of an iceberg&mdash;Its effects&mdash;Size of icebergs&mdash;Boulder-clay
-had a glacial origin&mdash;This explanation confirmed by fossil
-shells&mdash;Laws of the distribution of life&mdash;Deductions.</p>
-</div>
-
-<p><span class="smcap">Has</span> the reader, when wandering up the course of a stream,
-rod in hand perhaps, ever paused at some huge rounded block of
-gneiss or granite damming up the channel, and puzzled himself
-for a moment to conjecture how it could get there? Or when
-rolling along in a railway carriage, through some deep cutting of
-sand, clay, and gravel, did the question ever obtrude itself how
-such masses of water-worn material came into existence? Did
-he ever wonder at the odd position of some huge grey boulder,
-far away among the hills, arrested as it were on the steep slope
-of a deep glen, or perched on the edge of a precipitous cliff, as
-though a push with the hand would hurl it down into the
-ravine below? Or did he ever watch the operations of the
-quarryman, and mark, as each spadeful of soil was removed,
-how the surface of the rock below was all smoothed, and
-striated, and grooved?</p>
-
-<p>These questions, seemingly simple enough, involve what was
-wont to be one of the greatest problems of geology, and not
-many years have elapsed since it was solved. The whole surface
-of the country was observed to be thickly covered with a
-series of clays, gravels, and sands, often abounding in rounded
-masses of rock of all sizes up to several yards in diameter.
-<span class="pagenum" id="Page_7">- 7 -</span>
-These deposits were seen to cover all the harder rocks, and to
-occur in a very irregular manner, sometimes heaped up into
-great mounds, and sometimes entirely wanting. They were
-evidently the results of no agency visible now, either on the
-land or around our coasts. They had an appearance rather of
-tumultuous and violent action, and so it was wisely concluded
-that they must be traces of the great deluge. The decision had
-at least this much in its favour, it was thoroughly orthodox,
-and accordingly received marked approbation, more especially
-from those who wished well to the young science of geology,
-but were not altogether sure of its tendencies. But, alas! this
-promising symptom very soon vanished. As observers multiplied,
-and investigations were carried on in different countries,
-the truth came out that these clays and gravels were peculiarly
-a northern formation; that they did not appear to exist in the
-south of France, Italy, Asia Minor, Syria, and the contiguous
-countries. If, then, they originated from the rushing of the
-diluvian waters, these southern lands must have escaped the
-catastrophe, and the site of the plains of Eden would have to
-be sought somewhere between the Alps and the North Pole.
-This, of course, shocked all previous ideas of topography; it
-was accordingly agreed, at least among more thoughtful men,
-that with these clays and sands the deluge could have had
-nothing to do.</p>
-
-<p>Other theories speedily sprang up, endeavouring to account
-for the phenomena by supposing great bodies of water rushing
-with terrific force across whole continents, sweeping away the
-tops of hills, tearing up and dispersing entire geological formations,
-and strewing the ocean-bottom with scattered debris.
-But this explanation had the disadvantage of being woefully
-unphilosophical and not very clearly orthodox. Such debacles
-did not appear to have ever taken place in any previous geologic
-era, and experience was against them. Besides, they did not
-account for some of the most evident characteristics of the phenomena,
-<span class="pagenum" id="Page_8">- 8 -</span>
-such as the northern character of the formation, the long
-parallel striations of the rock surfaces, and the perching of huge
-boulders on lofty hills, often hundreds of miles distant from
-the parent rock. Geologists were completely at fault, and the
-boulder-clay remained a mystery for years.</p>
-
-<p>When we consider the physical aspects of the countries
-where the question was studied, we cannot much wonder that
-the truth was so hard to find. In the midst of corn-fields and
-meadows, one cannot readily realize the fact that the spot where
-they stand has been the site of a wide-spread sea; and that where
-now villages and green lanes meet the eye, there once swam the
-porpoise and the whale, or monsters of a still earlier creation,
-unwieldy in bulk and uncouth in form. Such changes, however,
-must have been, for their traces meet us on every hand.
-We have the sea dashing against our shores, and there seems
-nothing at all improbable in the assertion that once it dashed
-against our hill-tops. No one, therefore, has any difficulty in
-giving such statements his implicit belief. But who could have
-dreamed that these fields, so warm and sunny, were once sealed
-in ice, and sunk beneath a sea that was cumbered with many a
-wandering iceberg? Who could have imagined, that down
-these glens, now carpeted with heath and harebell, the glacier
-worked its slow way amid the stillness of perpetual snow?
-And yet strange as it may seem, such is the true solution of
-the problem. The boulder-clay was formed during the slow
-submergence of our country beneath an icy sea, and the rock-surfaces
-owe their polished and striated appearance to the
-grating across them of sand and stones frozen into the bottom
-of vast icebergs, that drifted drearily from the north. That we
-may the better see how these results have been effected, let us
-glance for a little at the phenomena observable in northern
-latitudes at the present day.</p>
-
-<p>Icebergs are formed in three principal ways:&mdash;1st, By glaciers
-descending to the shore, and being borne seawards by land-winds;
-<span class="pagenum" id="Page_9">- 9 -</span>
-2d, By river-ice packed during spring, when the upper
-reaches of the rivers begin to thaw; 3d, By coast-ice.</p>
-
-<p>I. There is an upper stratum of the atmosphere characterized
-by intense cold, and called the region of perpetual snow. It
-covers the earth like a great arch, the two ends resting, one on
-the arctic, the other on the antarctic zone, while the centre,
-being about 16,000 feet above the sea,<a id="FNanchor_2" href="#Footnote_2" class="fnanchor">[2]</a> rises directly over the
-tropics. Wherever a mountain is sufficiently lofty to pierce
-this upper stratum, its summit is covered with snow, and, as
-the snow never melts, it is plain that, from the accumulations
-of fresh snow-drifts, the mountain-tops, by gradually increasing
-in height and width, would become the supporting columns of
-vast hills of ice, which, breaking up at last from their weight
-and width, would roll down the mountain-sides and cover vast
-areas of country with a ruin and desolation more terrible than
-that of any avalanche. Olympus would really be superposed
-upon Ossa. By a beautiful arrangement this undue growth is
-prevented, so that the hill-tops never vary much in height
-above the sea. The cone of ice and snow which covers the
-higher part of the mountain, sends down into each of the
-diverging valleys a long sluggish stream of ice, with a motion
-so slow as to be almost imperceptible. These streams are
-called glaciers. As they creep down the ravines and gorges,
-blocks of rock detached by the frosts from the cliffs above, fall
-on the surface of the ice, and are slowly carried along with it.
-The bottom also of the glaciers is charged with sand, gravel,
-and mud, produced by the slow-crushing movement; large rocky
-masses become eventually worn down into fragments, and the
-whole surface of the hard rock below is traversed by long
-<span class="pagenum" id="Page_10">- 10 -</span>
-parallel grooves and stri&aelig; in the direction of the glacier's course.
-Among the Alps, the lowest point to which the glacier descends
-is about 8500 feet. There the temperature gets too high to
-allow of its further progress, and so it slowly melts away,
-choking up the valleys with piles of rocky fragments called
-moraines, and 'giving rise to numerous muddy streams that
-traverse the valleys, uniting at length into great rivers such as
-the Rhone, which enters the Lake of Geneva turbid and discoloured
-with glacial mud.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_2" href="#FNanchor_2" class="label">[2]</a> The average height of the snow-line within the tropics is 15,207 feet, but it varies
-according to the amount of land and sea adjacent, and other causes. Thus, among the
-Bolivian Andes, owing to the extensive radiation, and the ascending currents of air from
-the neighbouring plains and valleys, the line stands at a level of 18,000 feet, while, on
-mountains near Quito, that is, immediately on the equatorial line, the lowest level is
-15,795.&mdash;See Mrs. Somerville's <i>Physical Geography</i>, 4th edit. p. 314.</p>
-
-</div>
-
-<p>In higher latitudes, where the lower limit of the snow-line
-descends to the level of the sea, the glaciers are often seen
-protruding from the shore, still laden with blocks that have
-been carried down from valleys far in the interior. The action
-of storms and tides is sufficient to detach large masses of the
-ice, which then floats off, and is often wafted for hundreds of
-miles into temperate regions, where it gradually melts away.
-Such floating islands are known as icebergs.</p>
-
-<p>II. In climates such as that of Canada, where the winters
-are very severe, the rivers become solidly frozen over, and, if
-the frost be intense enough, a cake of ice forms at the bottom.
-In this way sand, mud, and rocky fragments strewing the
-banks or the channel of the stream, are firmly enclosed. When
-spring sets in, and the upper parts of the rivers begin to thaw,
-the swollen waters burst their wintry integuments, and the ice
-is then said to <i>pack</i>. Layer is pushed over layer, and mass
-heaped upon mass, until great floes are formed. These have
-often the most fantastic shapes, and are borne down by the
-current, dropping, as they go, the mud and boulders, with
-which they are charged, until they are stranded along some
-coast line, or melt away in mid-ocean.</p>
-
-<p>III. But icebergs are also produced by the freezing of the
-water of the ocean. In high latitudes, this takes place when
-the temperature falls to 28&middot;5&deg; of Fahrenheit. The surface of
-the sea then parts with its saline ingredients, and takes the
-<span class="pagenum" id="Page_11">- 11 -</span>
-form of a sheet of ice, which, by the addition of successive
-layers, augmented sometimes by snow-drifts, often reaches a
-height of from thirty to forty feet. On the approach of summer
-these ice-fields break up, crashing into fragments with a
-noise like the thundering of cannon. The disparted portions
-are then carried towards the equator by currents, and may be
-encountered by hundreds floating in open sea. Their first form
-is flat, but, as they travel on, they assume every variety of
-shape and size.</p>
-
-<p>On the shores of brackish seas, such as the Baltic, or along
-a coast where the salt water is freshened by streams or snow-drifts
-from the land, sheets of ice also frequently form during
-severe frosts. Sand and boulders are thus frozen in, especially
-where a layer of ice has formed upon the sea-bottom.<a id="FNanchor_3" href="#Footnote_3" class="fnanchor">[3]</a> The
-action of gales or of tides is sufficient to break up these masses,
-which are then either driven ashore and frozen in a fresh cake
-of ice, or blown away to sea. The bergs formed in this way
-have originally a low flat outline, and many extend as ice-fields
-over an area of many miles, while, at a later time, they may be
-seen towering precipitously as great hills, some 200 or 300
-feet high.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_3" href="#FNanchor_3" class="label">[3]</a> I was informed by the late Mr. Hugh Miller, that a seam of shale abounding in
-liassic fossils, had been found intercalated among the boulder-clay beds in the vicinity
-of Eathie. He explained its occurrence there by supposing that it had formed a reef
-along a shore where ground-ice was forming; and so having been firmly frozen in, it was
-torn up on the breaking of the ice, and deposited at a distance among the mud at the
-sea-bottom.</p>
-
-</div>
-
-<p>Few sights in nature are more imposing than that of the
-huge, solitary iceberg, as, regardless alike of wind and tide, it
-steers its course across the face of the deep far away from land.
-Like one of the "Hrim-thursar," or Frost-giants of Scandinavian
-mythology,<a id="FNanchor_4" href="#Footnote_4" class="fnanchor">[4]</a> it issues from the portals of the north armed
-<span class="pagenum" id="Page_12">- 12 -</span>
-with great blocks of stone. Proudly it sails on. The waves
-that dash in foam against its sides shake not the strength of its
-crystal walls, nor tarnish the sheen of its emerald caves. Sleet
-and snow, storm and tempest, are its congenial elements. Night
-falls around, and the stars are reflected tremulously from a
-thousand peaks, and from the green depths of "caverns measureless
-to man." Dawn again arises, and the slant rays of the
-rising sun gleam brightly on every projecting crag and pinnacle,
-as the berg still floats steadily on; yet, as it gains more southern
-latitudes, what could not be accomplished by the united fury of
-the waves, is slowly effected by the mildness of the climate.
-The floating island becomes gradually shrouded in mist and
-spume, streamlets everywhere trickle down its sides, and great
-crags ever and anon fall with a sullen plunge into the deep.
-The mass becoming top-heavy, reels over, exposing to light
-rocky fragments still firmly imbedded. These, as the ice around
-them gives way, are dropped one by one into the ocean, until
-at last the iceberg itself melts away, the mists are dispelled,
-and sunshine once more rests upon the dimpled face of the
-deep.<a id="FNanchor_5" href="#Footnote_5" class="fnanchor">[5]</a> If, however, before this final dissipation, the wandering
-island should be stranded on some coast, desolation and gloom
-are spread over the country for leagues. The sun is obscured,
-<span class="pagenum" id="Page_13">- 13 -</span>
-and the air chilled; the crops will not ripen; and, to avoid
-the horrors of famine, the inhabitants are fain to seek some
-more genial locality until the ice shall have melted away; and
-months may elapse before they can return again to their
-villages.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_4" href="#FNanchor_4" class="label">[4]</a> The account of the origin of these giants, as given in the prose <i>Edda</i>, is very graphic,
-and may be not inaptly quoted here:&mdash;"When the rivers that are called Elivagar had
-flowed far from their sources," replied Har, "the venom which they rolled along;
-hardened, as does dross that runs from a furnace, and became ice. When the rivers
-flowed no longer, and the ice stood still, the vapour arising from the venom gathered
-over it and froze to rime; and in this manner were formed in Ginnungagap many layers
-of congealed vapour, piled one over the other."&mdash;"That part of Ginnungagap," added
-Jafnhar, "that lies towards the north, was thus filled with heavy masses of gelid vapour
-and ice, whilst everywhere within were whirlwinds and fleeting mists. But the southern
-part of Ginnungagap was lighted by the sparks and flakes that flew into it from Muspellheim....
-When the heated blast met the gelid vapour, it melted into drops, and,
-by the might of him who sent the heat, these drops quickened into life, and took a
-human semblance. The being thus formed was named Ymir, from whom descend the
-race of the Frost-giants (Hrim-thursar), as it is said in the V&ouml;lusp&aacute;, 'From Vidolph
-came all witches; from Vilmeith all wizards; from Svarth&ouml;fdi all poison-seekers; and
-all giants from Ymir.'"&mdash;See Mallet's <i>Northern Antiquities</i>, edit. Bohn, p. 402.</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_5" href="#FNanchor_5" class="label">[5]</a> That beautiful expression of &AElig;schylus occurs to me, so impossible adequately to
-clothe in English: &#7937;&#957;&#951;&#961;&#953;&#952;&#956;&#959;&#957; &#947;&#949;&#955;&#945;&#963;&#956;&#945; &#954;&#965;&#956;&#945;&#964;&#969;&#957;. Who that has spent a calm
-summer day upon the sea, has not realized its force and delicate beauty?</p>
-
-</div>
-
-<p>The iceberg melts away, but not without leaving well-marked
-traces of its existence. If it disappear in mid-ocean, the mud
-and boulders, with which it was charged, are scattered athwart
-the sea-bottom. Blocks of stone may thus be carried across
-profound abysses, and deposited hundreds of miles from the
-parent hill; and it should be noticed, that this is the only
-way, so far as we know, in which such a thing could be effected.
-Great currents could sweep masses of rock down into deep gulfs,
-but could not sweep them up again, far less repeat this process
-for hundreds of miles. Such blocks could only be transported
-by being lifted up at the one place and set down at the other;
-and the only agent we know of, capable of carrying such a
-freight, is the iceberg. In this way, the bed of the sea in
-northern latitudes must be covered with a thick stratum of
-mud and sand, plentifully interspersed with boulders of all
-sizes, and its valleys must gradually be filled up as year by
-year the deposit goes on.</p>
-
-<p>But this is not all. The visible portion of an iceberg is
-only about one-ninth part of the real bulk of the whole mass,
-so that if one be seen 100 feet high, its lowest peak may
-perhaps be away down 800 feet below the waves. Now it is
-easy to see that such a moving island will often grate across
-the summit and along the sides of submarine hills; and when
-the lower part of the berg is roughened over with earth and
-stones, the surface of the rock over which it passes will be
-torn up and dispersed, or smoothed and striated, while the
-boulders imbedded in the ice will be striated in turn.</p>
-
-<p>But some icebergs have been seen rising 300 feet over the
-sea; and these, if their submarine portions sank to the maximum
-<span class="pagenum" id="Page_14">- 14 -</span>
-depth, must have reached the enormous total height of
-2700 feet&mdash;that is, rather higher than the Cheviot Hills.<a id="FNanchor_6" href="#Footnote_6" class="fnanchor">[6]</a> By
-such a mass, any rock or mountain-top existing 2400 feet
-below the surface of the ocean would be polished and grooved,
-and succeeding bergs depositing mud and boulders upon it, this
-smoothed surface might be covered up and suffer no change
-until the ocean-bed should be slowly upheaved to the light of
-day. In this way, submarine rock surfaces at all depths, from
-the coast line down to 2000 or 3000 feet, may be scratched
-and polished, and eventually entombed in mud.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_6" href="#FNanchor_6" class="label">[6]</a> In the <i>American Journal of Science</i> for 1843, p. 155, mention is made of an iceberg
-aground on the Great Bank of Newfoundland. The average depth of the water was
-about 500 feet, and the visible portion of the berg from 50 to 70 feet high, so that its
-total height must have been little short of 600 feet, of which only a <i>tenth</i> part remained
-above water.</p>
-
-</div>
-
-<div class="figcenter" id="fig1" style="width: 406px;">
-  <img src="images/fig1.png" width="406" height="228" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 1.</span> Iceberg grating along the sea-bottom and depositing mud and boulders.</div>
-</div>
-
-<p>And such has been the origin of the deep clay, which, with
-its included and accompanying boulders, covers so large a part
-of our country. When this arctic condition of things began, the
-land must have been slowly sinking beneath the sea; and so,
-as years rolled past, higher and yet higher zones of land were
-brought down to the sea-level, where floating ice, coming from
-the north-west, stranded upon the rocks, and scored them all
-<span class="pagenum" id="Page_15">- 15 -</span>
-over as it grated along. This period of submergence may have
-continued until even the highest peak of the Grampians disappeared,
-and, after suffering from the grinding action of ice-freighted
-rocks, eventually lay buried in mud far down beneath
-a wide expanse of sea, over which there voyaged whole argosies
-of bergs. When the process of elevation began, the action of
-waves and currents would tend greatly to modify the surface of
-the glacial deposit of mud and boulders, as the ocean-bed slowly
-rose to the level of the coast line. In some places the muddy
-envelope was removed, and the subjacent rock laid bare, all
-polished and grooved. In other localities, currents brought in
-a continual supply of sand, or washed off the boulder mud and
-sand, and then re-deposited them in irregular beds; hence
-resulted those local deposits of stratified sand and gravel so
-frequently to be seen resting over the boulder clay. At length,
-by degrees, the land emerged from the sea, yet glaciers still
-capped its hills and choked its valleys; but eventually a warmer
-and more genial climate arose, plants and animals, such as those
-at present amongst us, and some, such as the wolf, no longer
-extant, were ere long introduced; and eventually, as lord of
-the whole, man took his place upon the scene.<a id="FNanchor_7" href="#Footnote_7" class="fnanchor">[7]</a></p>
-
-<div class="footnote">
-
-<p><a id="Footnote_7" href="#FNanchor_7" class="label">[7]</a> The reader who wishes to enter more fully into the geological effects of icebergs,
-should consult the suggestive section on that subject in De la Beche's <i>Geological Observer</i>;
-also the <i>Principles</i> and <i>Visit to the United Stales</i> of Sir Charles Lyell, with the various
-authorities referred to by these writers.</p>
-
-</div>
-
-<p>It is pleasant to mark, when once the true solution of a
-difficulty is obtained, how all the discordant elements fall one
-by one into order, and how every new fact elicited tends to
-corroborate the conclusion. In some parts of the glacial beds,
-there occur regular deposits of shells which must have lived
-and died in the places where we find them. From ten to fifteen
-per cent, of them belong to species which are extinct, that is to
-say, have not been detected living in any sea. Some of them
-are still inhabitants of the waters around our coasts, but the
-large majority occur in the northern seas. They are emphatically
-<span class="pagenum" id="Page_16">- 16 -</span>
-northern shells, and get smaller in size and fewer in number
-as they proceed southward, till they disappear altogether.
-In like manner, the palm, on the other hand, is characteristically
-a tropical plant. It attains its fullest development in
-intertropical countries, getting stunted in its progress towards
-either pole, and ceasing to grow in the open air beyond the
-thirty-eighth parallel of latitude in the southern hemisphere, and
-the forty-fifth in the northern. So, too, the ivy, which in our
-country hangs out its glossy festoons in every woodland, and
-around the crumbling walls of abbey, and castle, and tower, is
-nursed in the drawing-rooms of St. Petersburg as a delicate and
-favourite exotic. In short, the laws which regulate the habitat
-of a plant or an animal are about as constant as those which
-determine its form. There are, indeed, exceptions to both. We
-may sometimes find a stray vulture from the shores of the
-Mediterranean gorging itself on sheep or lambs among the wolds
-of England,<a id="FNanchor_8" href="#Footnote_8" class="fnanchor">[8]</a> just as we often see</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent8">"A double cherry seeming parted,</div>
-    <div class="verse indent1">But yet an union in partition;"</div>
-  </div>
-</div>
-</div>
-
-<p>or as we hear of a sheep with five legs, and a kid with two
-heads. But these exceptions, from their comparative rarity,
-only make the laws more evident. When, therefore, we find,
-in various parts of our country, beds of shells in such a state of
-preservation as to lead us to believe that the animals must
-have lived and died where their remains are now to be seen,
-we justly infer that the districts where they occur must at one
-period have been submerged. If the shells belong to fresh-water
-species, it is plain that they occur on the site of an old lake.
-If they are marine, we conclude that the localities where they
-are found no matter how high above the sea must formerly
-have stood greatly lower, so as to form the ocean bed. To proceed
-one step further. If the shells are of a southern type,
-<span class="pagenum" id="Page_17">- 17 -</span>
-that is, if they belong to species<a id="FNanchor_9" href="#Footnote_9" class="fnanchor">[9]</a> which are known to exist
-only in wanner seas than our own, we pronounce that at a
-former period the latitudes of Great Britain must have enjoyed
-a more temperate and genial climate, so as to allow southern
-shells to have a wider range northwards. If, on the other
-hand, they are of an arctic or boreal type, we in the same way
-infer that our latitudes were once marked by a severer temperature
-than they now possess, so as to permit northern shells
-to range farther southwards. This reasoning is strictly correct,
-and the truth involved forms the basis of all inquiries into the
-former condition of the earth and its inhabitants.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_8" href="#FNanchor_8" class="label">[8]</a> Two of these birds (<i>Neopron pecnopterus</i>) are stated to have been seen near Kilve, in
-Somersetshire, in October 1825. One was shot, the other escaped.</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_9" href="#FNanchor_9" class="label">[9]</a> There is not a little difficulty in reasoning satisfactorily as to climatal conditions,
-from the distribution of kindred forms. Even in a single genus there may be a wide
-range of geographical distribution, so that mere generic identity is not always a safe
-guide. Thus, the elephant now flourishes in tropical countries, but in the glacial period
-a long-haired species was abundant in the frozen north. I have above restricted myself
-entirely to <i>species</i> whose habits and geographical distribution are already sufficiently
-known.</p>
-
-</div>
-
-<p>The evidence furnished by the northern shells in the boulder-clay
-series is, accordingly, of the most unmistakable kind. These
-organisms tell us that at the time they lived our country lay
-sunk beneath a sea, such as that of Iceland and the North Cape,
-over which many an iceberg must have journeyed, and thus
-they corroborate our conclusions, derived independently from
-the deep clay and boulder beds and the striated rock-surfaces,
-as to the glacial origin of the boulder-clay.</p>
-<hr class="chap x-ebookmaker-drop" />
-
-<div class="chapter">
-<p><span class="pagenum" id="Page_18">- 18 -</span></p>
-
-<h2 class="nobreak" id="CHAPTER_III">CHAPTER III.</h2>
-</div>
-
-
-<div class="blockquot">
-
-<p>How the boulder came to be one "Crag and tail"&mdash;Scenery of central Scotland: Edinburgh&mdash;"Crag
-and tail" formerly associated in its origin with the boulder-clay&mdash;This
-explanation erroneous&mdash;Denudation an old process&mdash;Its results&mdash;Illustration
-from, the Mid-Lothian coal-field&mdash;The three Ross-shire hills&mdash;The Hebrides relics of
-an ancient land&mdash;Scenery of the western coast&mdash;Effects of the breakers&mdash;Denudation
-of the Secondary strata of the Hebrides&mdash;Preservative influence of trap-rocks&mdash;Lost
-species of the Hebrides&mdash;Illustration&mdash;Origin of the general denudation of the
-country&mdash;Illustrative action of streams&mdash;Denudation a very slow process&mdash;Many old
-land-surfaces may have been effaced&mdash;Varied aspect of the British Islands during a
-period of submergence&mdash;Illustration.</p>
-</div>
-
-<p><span class="smcap">The</span> scratched and grooved surface of the boulder was produced
-when it was fast frozen in some iceberg, and driven
-gratingly across some submarine summit, or stranded on some
-rocky coast-line. But, from its rounded form, the stone had
-evidently undergone a long process of wear and tear previous to
-its glacial journey. Probably it had hitherto lain along a surf-beaten
-beach, where in the course of ages it had gradually been
-worn into its present rounded shape. But how came it there?
-It must originally have formed part of a flat sandstone bed, with
-many other beds piled above it. By what agency, then, was
-this great pile reduced to fragments?</p>
-
-<p>The answer to these questions must be a somewhat lengthened
-one, for the subject relates not to a few beds of rock
-hastily broken up and dispersed, but to the physical changes of
-an entire country, carried on during a vast succession of geological
-periods.</p>
-
-<p>A phenomenon, known familiarly as "crag and tail," has
-long been connected in its origin with the drift or boulder beds.
-Has my reader ever travelled through central Scotland? If so,
-<span class="pagenum" id="Page_19">- 19 -</span>
-he must often have noticed the abrupt isolated form of many of
-the hills, presenting a mural front to the west, and a long sloping
-declivity to the east. From the great number of isolated hard
-trap-rocks in this region, the phenomenon is much better seen
-than in most other parts of the kingdom. There is, for instance,
-the castle rock of Stirling, with its beetling crag and castellated
-summit, which present so imposing a front to the west. Many
-other examples are seen along the line of the Edinburgh and
-Glasgow Railway. The range of hills south of Linlithgow, the
-singularly abrupt basalt of Binny Craig, the long rounded ridge
-of Ratho, the double-peaked crag of Dalmahoy, the broad undulation
-of woody Corstorphine, are all examples more or less
-marked. Edinburgh itself is an excellent illustration. The
-Calton Hill shows a steep front to the town, while its eastern
-side slopes away down to the sea. Arthur's Seat, in like manner,
-has a precipitous western face, and a gentle declivity eastward.
-The Castle rock, too, shoots up perpendicularly from the
-valley that girdles it on the north, west, and south, sinking away
-to the east in a long slope&mdash;</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent0">"Whose ridgy back heaves to the sky,</div>
-    <div class="verse indent1">Piled deep and massy, close and high."</div>
-  </div>
-</div>
-</div>
-
-<p>East-Lothian presents several well-marked instances; in particular,
-North Berwick Law and Traprain. A phenomenon so
-general must have had some general origin, and it was accordingly
-attributed to the same agency which produced the drift-clays
-and the striated rock-surfaces, when these were believed
-to be the results of great diluvial action. It would seem, however,
-that the phenomenon of crag and tail should not be associated
-with the boulder-clay. The latter is undoubtedly a
-newer Tertiary formation,<a id="FNanchor_10" href="#Footnote_10" class="fnanchor">[10]</a> but the denudation<a id="FNanchor_11" href="#Footnote_11" class="fnanchor">[11]</a> which produced
-<span class="pagenum" id="Page_20">- 20 -</span>
-crag and tail must have been going on long ere the Tertiary
-ages had begun. There is satisfactory evidence that large areas
-of our country were planed down at a greatly more ancient
-period than that of even the oldest of the Tertiary series. Thus,
-the whole area of the county of Sussex suffered a very extensive
-denudation during the later Secondary ages. The Hebrides had
-undergone a similar process previous to the deposition of the
-Lias and Oolite, and the Greywacke hills of south Scotland, previous
-to the formation of the Old Red Sandstone. There seems
-thus to have been a general and continuous process of degradation
-at work during a long succession of geological ages.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_10" href="#FNanchor_10" class="label">[10]</a> The reader is referred to the table of the geological formations at the end of the
-volume for the relative position of the beds described.</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_11" href="#FNanchor_11" class="label">[11]</a> <i>Denudation</i> is a geological term used to denote the removal of rock by the wasting
-action of water, whereby the underlying mineral masses are <i>denuded</i> or laid bare.</p>
-
-</div>
-
-<p>The results of this long-continued action are of the most
-startling kind. I have referred to the phenomenon of crag and
-tail as perhaps the most readily observable. We must not fail
-to remember that the crag which now stands up so prominently
-above the level of the surrounding country, at one period lay
-buried beneath an accumulation of sandstone, shale, or other
-strata, all of which have been carried away, so as to leave the
-harder rock in bold relief, with a portion of the less coherent
-strata sloping as a long tail from its eastern side. The crag,
-too, is often breached in many places, worn down at one end,
-rounded on the summit, and sometimes well-nigh ground away
-altogether, whilst in front there is invariably a deep hollow
-scooped out by the current when arrested by the abrupt cliff.
-In <a href="#fig2">Fig. 2, <i>a</i></a> represents a crag of greenstone worn away and
-bared of the shales which once covered it; <i>b</i>, the sloping "tail"
-of softer strata, protected from abrasion by the resistance of the
-trap-rock, and covered by a deep layer of drift, <i>d</i>; <i>c</i> marks the
-hollow on the west side of the crag.</p>
-
-<div class="figcenter" id="fig2" style="width: 469px;">
-  <img src="images/fig2.png" width="469" height="98" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 2</span> "Crag and tail."</div>
-</div>
-
-<p><span class="pagenum" id="Page_21">- 21 -</span></p>
-
-<p>But when we come to measure the actual amount of material
-that has been carried away, we are lost in conjecture as to the
-vastness of the time which such a process must have occupied.
-For instance, the coal-bearing strata of Mid-Lothian must at
-one period have been connected with those of Linlithgow and
-Stirling. At a subsequent date, the western area subsided to
-form the Stirlingshire coal-basin, and the eastern area, in like
-manner, sank down to form the coal-basin of Mid-Lothian,
-while the intermediate portion stretched from east to west as a
-great arch, or, as it is termed geologically, an <i>anticlinal axis</i>.
-Now, the whole of this arch has been worn away, not a
-vestige of it remains, and yet its upper or coal-bearing part was
-fully 3000 feet thick.<a id="FNanchor_12" href="#Footnote_12" class="fnanchor">[12]</a></p>
-
-<div class="footnote">
-
-<p><a id="Footnote_12" href="#FNanchor_12" class="label">[12]</a> This remarkable example of denudation was first described by Mr. M'Laren, in his
-<i>Sketch of the Geology of Fife and the Lothians</i>, a work in which the author showed himself
-to be in advance of the science of his time.</p>
-
-</div>
-
-<p>Let us take a small portion of this district, and endeavour to
-calculate the amount of matter thus removed. The Pentland
-hills form a chain stretching from near Edinburgh for some
-fourteen miles southward, and having an average breadth of
-about two miles and a half. They are formed chiefly of felspathic
-trap-rocks, resting upon and interstratified with conglomerate
-apparently of Old Red age, which in turn lies upon vertical
-Silurian slates. Before the Carboniferous strata were
-thrown down by successive <i>faults</i>, they must have covered these
-hills completely to a depth of not less than 6000 feet.<a id="FNanchor_13" href="#Footnote_13" class="fnanchor">[13]</a> From
-<span class="pagenum" id="Page_22">- 22 -</span>
-this small area, therefore, stratified sandstones, shales, limestones,
-and coal, must have been removed to the enormous
-extent of one billion, eight hundred and fifty-four thousand,
-four hundred and sixty-four millions of cubic feet.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_13" href="#FNanchor_13" class="label">[13]</a> The actual depth of the Mid-Lothian coal-field, to the base of the carboniferous
-limestone, is rather more than 3000 feet. It is, perhaps, rather under than over the
-truth to allow 3000 feet for the total thickness of beds from the limestone to the conglomerate
-of Liberton, though, owing to the curved and contorted position of the strata from
-Edinburgh to Stirlingshire, it is impossible to obtain a measurement of their real thickness.
-I have attributed the isolation of the Falkirk and Mid-Lothian coal-fields to the
-effect of faults and general depressions of their areas. This was assuredly the case in the
-latter coal-field, and probably in the former also. The trap which occurs between them,
-though in great abundance, has certainly not acted as an elevating agent. It occurs in
-beds among the strata, and, judging from the number of associated tufas, appears to
-have been to a considerable extent erupted while the lower carboniferous series was
-forming. Mr. M'Laren, in his excellent work, p. 100, states his opinion that the traps
-may have materially contributed to push up the coal strata. A careful and extended
-examination of the district has convinced me that this view is incorrect.</p>
-
-</div>
-
-<p>But, perhaps, the most striking instances of denudation in
-the British Islands are the three famous Ross-shire hills&mdash;Suil
-Veinn, Coul Mor, and Coul Bheig. They are formed of piles
-of sandstone beds like tiers of regular masonry, and reach a
-height of 3000 feet over the sea. The sandstone of which
-they are composed must once have formed a bed or set of beds
-fully 2000 feet thick, that covered the whole district for many
-miles around. Yet of this extensive deposit there now exist
-only a few isolated fragments. I have watched the sunshine
-and shadow of an autumn sky resting alternately on these
-strange pyramidal hills, as they towered in their giant proportions
-like the last remnants of a mighty rampart that had stood
-the brunt of a long siege, and, breached at last in many places,
-had been all but levelled to the ground. How long-continued
-and how potent must that agency have been which could cut
-down and disperse the massive barrier that flanked the western
-coast of Ross-shire to a height of 2000 feet!</p>
-
-<p>The Hebrides are but the shattered relics of an old land that
-had its mountain-peaks and its glens, its streams and lakes, and
-may have nursed in its solitude the red-deer and the eagle, but
-was never trodden by the foot of man. A glance at the map
-is enough to convince us of this. We there see islands, and
-peninsulas, and promontories, and deep bays, and long-retiring
-inlets, as though the country had been submerged and only its
-higher points remained above water. The conviction is impressed
-more strongly upon us by a visit to these shores. We
-<span class="pagenum" id="Page_23">- 23 -</span>
-sail through the windings of one of the "sounds," and can
-scarcely believe that we are on the bosom of the salt sea. Hills
-rise on all sides, and the water, smooth as a polished mirror,
-shows so pure and limpid that in the sunshine we can see the
-white pebbles that strew its bed many fathoms down. The
-eastern shore is often abruptly interrupted by long-receding
-lochs edged round with lofty mountains, and thus, where we
-had looked to see a deep heathy glen, with, perchance, a white
-tree-shaded mansion in the far distance, and a few dun smoking
-cottages in front, we are surprised to catch a glimpse of the
-white sails of a yacht, or the darker canvas of the herring-boats.
-We sail on, and soon a sudden turn brings us abruptly to the
-mouth of the sound. A bold headland, studded around with
-rocky islets, rises perpendicularly from the sea, bleak and bare,
-without a bush or tree, or the faintest trace of the proximity of
-man. The broad swell of the Atlantic comes rolling in among
-these rocks, and breaks in foam against the grey cliffs overhead.
-In tempests, such a scene must be of the most terrific kind.
-Wo to the hapless vessel that is sucked into the vortex of these
-breakers, whose roar is sometimes heard at the distance of
-miles! Even in the calmest weather the white surf comes surging
-in, and a low sullen boom is ever reverberating along the shore.
-We see the harder rocks protruding far into the sea, and often
-pierced with long twilight caves, while the softer ones are worn
-into deep clefts, or hollowed out into open bays strewed over
-with shingle. The sunken rocks and islets, scarcely showing
-their tops above water, were all evidently at one time connected,
-for, as we recede from the shore, we can mark how the process
-of demolition goes on. There is first the projecting ness or promontory,
-well-nigh severed from the mainland, but still connected
-by a rude arch, through which the swell ever gurgles to and fro.
-Then, a little farther from the shore, a huge isolated crag,
-washed on all sides by the surge, raises its grey lichen-clothed
-summit. A short way beyond, there is the well-worn islet whose
-<span class="pagenum" id="Page_24">- 24 -</span>
-surface shelters neither lichen nor sea-weed, but is ever wet
-with the dash of the waves. Further to the sea, the white
-gleam of the breakers marks the site of the sunken rock. Thus,
-in the space of a hundred yards, we may sometimes behold the
-progress of change from land to sea, and see before us a specimen
-of that action which slowly but yet steadily has narrowed
-and breached the outline of our western shores.<a id="FNanchor_14" href="#Footnote_14" class="fnanchor">[14]</a></p>
-
-<div class="footnote">
-
-<p><a id="Footnote_14" href="#FNanchor_14" class="label">[14]</a> I have endeavoured to illustrate the process of denudation by a reference to breaker-action
-on the existing coast-line of the Hebrides; but a strong current must have
-materially increased the force of the ancient waves, and produced abrasion to some
-depth below them.</p>
-
-</div>
-
-<p>If we attempt to trace the connexions of strata among the
-Hebrides, we shall be more fully impressed with the magnitude
-of the changes which have been effected. Thus the Lias and
-Oolite occur in patches along the shores of Mull, Morven, Ardnamurchan,
-Eigg, Skye, Raasay, and Applecross. But though now
-only in patches, these formations must once have extended over
-a considerable area, for they seem to form the under-rock of the
-whole of the northern part of Skye, and are seen in almost
-every lone island from Ardnamurchan Point to the Shiant Isles.
-These scattered portions, often many miles distant from each
-other, are the remnants of a great sheet of liassic and oolitic
-strata, now almost entirely swept away, and are extant from
-having been covered over with hard trap-rocks. But for these
-it may be doubted whether we should ever have known that
-corals once gleamed white along the shores of Skye, that the
-many-chambered ammonite swam over the site of the Coolin
-Hills, that the huge reptilian monsters of these ancient times,
-icthyosaurs and plesiosaurs, careered through the waters that laved
-the grey hills of Sleat, and that forests of zamia and cycas, and
-many other plants indicative of a warm climate, bloomed green
-and luxuriant along the site of that strange mist-clad cliff-line,
-that shoots up into the pinnacles of the Storr and Quiraing. It
-is curious to reflect, that the records of these peaceful scenes
-<span class="pagenum" id="Page_25">- 25 -</span>
-have been preserved to us by the devastating eruptions of volcanic
-forces; that the old lava-streams which spread death
-through the waters along whose bed they travelled, have yet
-been the means of protecting the districts which they wasted,
-while those parts where they did not reach have been long since
-swept away. It is allowable to believe, that in the portions of
-liassic strata which have been destroyed there existed the remains
-of not a few species, perhaps some genera, to be found
-nowhere else, and of whose former existence there is now, by
-consequence, no trace. In the small island of Pabba&mdash;a relic of
-the Scottish Lias&mdash;I found thirty-one species, of which Dr. Wright
-has pronounced four to be new.<a id="FNanchor_15" href="#Footnote_15" class="fnanchor">[15]</a> A subsequent visit to the adjacent
-island of Raasay has increased the list. In short, every
-patch of these Secondary rocks, if thoroughly explored, might be
-found to yield its peculiar organisms. And in the far larger area
-that has been carried away there existed, doubtless, many more.
-We are accustomed to see individuals perish and their remains
-crumble away, but the species still holds on. In the stratified
-portion of the earth's crust, however, we mark how not merely
-individuals have perished, but whole genera and species; but of
-these the remains are still before us in the rocks; we can study
-their forms, and, from a comparison with recent species and
-genera, can arrive at some idea of their nature and functions.
-In this way, we are able to picture the various conditions of the
-earth when these organisms lived in succession upon its surface.
-Yet, we may readily conjecture, that in ancient eras many tribes
-and genera of plants and animals lived for ages, and then passed
-away without leaving any record of their existence. Many circumstances
-might concur to prevent the preservation of their remains.
-The species of the Hebrides were preserved in the usual
-manner, but the cemetery in which their remains were entombed
-has been washed away, and they can be seen nowhere else. It
-is as if on some isolated country there had lived a race of men,
-<span class="pagenum" id="Page_26">- 26 -</span>
-tall Patagonians, or swarthy Hottentots, or diminutive Laplanders,
-with a civilisation of their own; owing to some change
-of climate the race gradually dwindled down until it died out;
-eventually, too, the land settled down beneath the sea with all
-its ruined cities and villages, which, as they reached in succession
-the level of the waves, were torn up and dispersed, and
-other races at last voyaged over the site of that old land,
-dreaming not, that in bygone years fellow-mortals of an extinct
-type had pastured their herds where now there rolled a widespread
-sea.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_15" href="#FNanchor_15" class="label">[15]</a> <i>Quart. Jour. Geol. Soc.</i>, vol. xiv. p. 26.</p>
-
-</div>
-
-<p>But to return. We have seen that the long-continued action
-of the sea has been sufficient to breach and waste away the
-existing coast-line of western Scotland. When, therefore, such
-results are produced by so ordinary a cause, need we go to
-seek the agency of great debacles to explain the denudation of
-other parts of the country? It is known that at great depths
-currents have little effect upon the rocks which they traverse,
-and that their action is greater as it nears the surface. To
-account for the phenomena of crag and tail, and the general
-denudation of the country, we may suppose the land to have
-been often submerged and re-elevated. As hill after hill rose
-towards or sank below the sea-level, it would be assailed by a
-strong current that flowed from the west and north-west, until,
-in its slow upward or downward progress, it got beyond the
-reach of the denuding agencies. In this way the general contour
-of the land would be greatly though very gradually changed.
-Hills of sandstone, or other material of feeble resistance, would
-be swept away, the harder trap-rocks would stand up bared of
-the strata which once covered them, deep hollows would be
-excavated in front of all the more prominent eminences, and
-long declivities would be left behind them.&mdash;(See <a href="#fig2">Fig. 2</a>.)</p>
-
-<p>If my reader has ever visited the channel of a mountain-torrent&mdash;</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent12">"Imbres</div>
-    <div class="verse indent1">Quern super notas aluere ripas"&mdash;</div>
-  </div>
-</div>
-</div>
-<p><span class="pagenum" id="Page_27">- 27 -</span></p>
-<p>he must have noticed an exact counterpart to these appearances.
-When the waters have subsided, the overflowed parts are seen
-to be covered in many places with sand. Wherever a pebble
-occurs along the surface of this sand, it has invariably a hollow
-before it on the side facing the direction whence the stream is
-flowing, and a long tail of sand pointing down the channel. If
-we watch the motion of the water along its bed, the denuding
-agency may be seen actively at work. Every pebble that protrudes
-above the shallow streamlet arrests the course of the
-current, which is then diverted in three directions. One part
-turns off to the right hand of the pebble, and cuts away the
-sand from its flank; another part strikes off to the left, and
-removes the sand from that side; while a middle part descends
-in front of the pebble, and, by a kind of circular or gyratory
-movement, scoops out a hollow in the sand in front. Behind
-the pebble the water is pretty still, so that the sand remains
-undisturbed, and is further increased by the accumulation above
-it of sediment swept round by the lateral currents. Now, in
-place of the supposed stream, let us substitute the ocean with
-its westerly current&mdash;for the pebble, a great trap-hill&mdash;for the
-sand, easily friable shales and sandstones, and we have exactly
-the condition of things which produced crag and tail.</p>
-
-<p>This process of destruction must have been in progress during
-many geological ages. We may suppose, that in that time the
-land often changed level, sometimes rising far above the sea,
-and sometimes sinking deep below it. We can well believe
-that the surface would often be covered with vegetation; that
-plants, widely differing from those which are now indigenous,
-clothed its hill-sides and shaded its valleys; and that animals
-of long extinct forms roamed over its plains or prowled amid
-its forests. When the country, in the lapse of centuries, sank
-beneath the sea-level, all trace of these scenes would eventually
-be effaced. The westerly currents would soon recommence the
-process of degradation, uprooting the forests, devastating the
-<span class="pagenum" id="Page_28">- 28 -</span>
-plains, wearing down the hills, and scooping out the valleys;
-and so, when the ocean-bed, in the course of ages, became again
-dry land, it would arise "another and yet the same." The
-little valley, where once, perchance, the mastodon used to rest
-his massive bulk amid a rich growth of ferns, shaded by the
-thick umbrage of coniferous trees, would emerge a deep glen
-with bare and barren rocks on either side; the site of the hill
-whereon herds of the gazelle-like anoplothere were wont to
-browse, might reappear a level plain; the low-browed rock,
-under whose shadow the ungraceful pal&aelig;othere used of old to
-rest from the heat of the noon-tide sun, might emerge a beetling
-crag shooting up several hundred feet over the valley. It is
-by this repeated elevation and submergence, carried on for
-many ages, that our country has acquired its present configuration.</p>
-
-<p>We can easily picture to ourselves the appearance which the
-British Islands would thus at different periods present. At one
-time, nearly the whole of England would be under water, with,
-however, a few islands representing the higher peaks of Cornwall;
-others scattered over the site of the West Riding of Yorkshire;
-and a hilly tract of land over what is now Wales. Scotland
-must have existed in a sorely mutilated state. A thick-set
-archipelago would represent the Cheviot Hills, and the country
-south of the Forth and the Clyde; north of which there would
-intervene a broad strait, with a comparatively large area of undulating
-land beyond, stretching across what is now the area of
-the Grampian Hills. A narrow fiord would run along the site
-of the Caledonian Canal, cutting the country into two parts,
-and running far into it on either side as deep lochs and bays.
-I have had such a condition of things vividly recalled when
-on the summit of a lofty hill in early morning, while the mists
-were still floating over the lower grounds, and only the higher
-hill-tops, like so many islands, rose above the sea of cloud. It
-was not a little interesting to cast the eye athwart this changing
-<span class="pagenum" id="Page_29">- 29 -</span>
-scene, and mark how each well-known peak and eminence looked
-when deprived of its broad sweep of base. What before had
-always seemed an abrupt precipitous summit, now took the
-form of a lonely rock or deep-sea stack, that might have served
-as a haunt for the gull and the gannet. The long swelling hill
-rose above the mist as a low undulating island, treeless and
-barren. It was easy to think of that wide expanse of mist as
-the veritable domain of ocean, to picture the time when these
-were veritable islands lashed by the surge, and to conjure up
-visions of ice-floes drifting through the narrows, or stranding
-on the rocks, amid a scene of wide-spread nakedness and desolation.</p>
-<hr class="chap x-ebookmaker-drop" />
-
-<div class="chapter">
-<p><span class="pagenum" id="Page_30">- 30 -</span></p>
-
-<h2 class="nobreak" id="CHAPTER_IV">CHAPTER IV.</h2>
-</div>
-
-
-<div class="blockquot">
-
-<p>Interior of the boulder Wide intervals of Geology&mdash;Illustration&mdash;Long interval between
-the formation of the boulder as part of a sand-bed, and its striation by glacial
-action&mdash;Sketch of the intervening ages&mdash;The boulder a Lower Carboniferous rock&mdash;Cycles
-of the astronomer and the geologist contrasted&mdash;Illustration&mdash;Plants shown by
-the boulder once grew green on land&mdash;Traces of that ancient land&mdash;Its seas, shores,
-forests, and lakes, all productive of material aids to our comfort and power&mdash;Plants
-of the Carboniferous era&mdash;Ferns&mdash;Tree-ferns&mdash;Calamites&mdash;Asterophyllites&mdash;Lepidodendron&mdash;Lepidostrobus&mdash;Stigmaria&mdash;Scene
-in a ruined palace&mdash;Sigillaria&mdash;Conifer&aelig;,
-Cycade&aelig;&mdash;Antholites, the oldest known flower&mdash;Grade of the Carboniferous
-flora&mdash;Its resemblance to that of New Zealand.</p>
-</div>
-
-<p><span class="smcap">I have</span> likened the boulder to an old volume of the middle
-ages encased in a modern binding. We have looked a little
-into the mechanism and history of the boards; in other words,
-we have gone over the history of the scratched surface of the
-boulder, of the clays and sands around it, and of that still
-earlier cycle of denudation whereof the rock itself is probably a
-relic. Before proceeding to open the volume itself, it will be
-well that we clearly mark the wide interval in time between
-the ages represented by the surface-striation and those indicated
-by the interior of the boulder. When we proceed from the
-groovings on the outside to the plants within, we pass, to be
-sure, over scarcely an inch of space, but we make a leap over
-untold millenniums in point of time. It is as if we had laid our
-hands on a volume of history which had by some misfortune
-found its way into the nursery. The first page that catches
-our eye relates the battle of the Reform Bill, and, on turning
-the previous leaf, we find ourselves with Boadicea and her
-woad-coloured soldiery. Now, if one utterly ignorant of the
-chronology of the country were to be told that the volume
-<span class="pagenum" id="Page_31">- 31 -</span>
-related solely to one people, he would at once see from the
-manners and customs delineated, that the two pages referred to
-very different states of civilisation, and consequently to widely-separated
-periods. But he could give no account of how long
-an interval might have elapsed between the time when London
-had its inhabitants massacred by Boadicea, and the time when
-another generation of them was excited by the tardiness of
-King William iv. He could form no conjecture as to what
-events might have happened in the meanwhile. The interval
-might be a century or twenty centuries, wherein the city might
-have been burnt down fifty times. Clearly, if he wished to
-make himself acquainted with the intervening history, he would
-have to betake himself to an unmutilated volume.</p>
-
-<p>And just so is it with our boulder. We can easily believe,
-merely from looking at it as it lies on its clayey bed, that a
-long time must have elapsed between the time of its formation
-as part of a sandstone bed, and the period of its transportation
-and striation by an iceberg. The sand of which it is formed
-must have been washed down by currents, and other sediment
-would settle down over it. It would take some time to acquire
-its present hardness and solidity, while, in long subsequent
-times, after being broken up and well-rounded by breaker or
-current action, it may have lain on some old coast-line for
-centuries before it was finally frozen into an ice-floe, and so
-freighted to a distance. But the stone, with all its stories of
-the olden time, can tell us nothing of this intervening period.
-It leads us from a dreary frozen sea at once into a land of
-tropical luxuriance, and so, if we desire to know anything of
-the missing portion of the chronology, we must seek it elsewhere.</p>
-
-<p>The Boulder-clay is one of the latest of geologic periods.<a id="FNanchor_16" href="#Footnote_16" class="fnanchor">[16]</a>
-Beyond it we get into Tertiary times, and learn from the caves
-<span class="pagenum" id="Page_32">- 32 -</span>
-of Yorkshire how elephants, hyenas, rhinoceroses, hippopotami,
-bears, and wolves, prowled over the rich valleys; while, from
-the quarries of the Isle of Wight, we see how at an earlier
-time herds of uncouth pal&aelig;otheres and slimly-built anoplotheres
-browsed the plains of Old England. Beyond the Tertiary ages
-come those of the Chalk, with its ocean that swarmed with sea-urchins,
-terebratul&aelig;, pectens, sponges, and many other forms.
-Then arises the era of the Wealden, with its bosky land haunted
-by the unwieldy iguanodon; the Oolite, with its land rich in a
-coniferous flora, and tenanted by a race of small marsupial
-animals, and its seas abounding in corals, encrinites of many a
-form, cidares, cuttle-fishes, and ammonites. Further back still,
-come the times of the Lias, that strange era in the history of
-our country, when reptiles huger than those of the Nile swam
-the seas, and sped on wings through the air. Then come the
-times of the Trias, when a vegetation still further removed from
-existing types clothed the land, and frogs large as oxen waddled
-along the shores. Then the times of the Permian, with its
-deep sea tenanted by a meagre list of corals and shells, and by
-a type of fishes that was slowly passing away. We arrive at
-last at the Coal or Carboniferous period, to the older ages of
-which our boulder belongs.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_16" href="#FNanchor_16" class="label">[16]</a> For the names and succession of the rocks of which the known part of the earth's
-crust is composed, see the Table at the end of the volume.</p>
-
-</div>
-
-<p>These eras may have been some longer, some shorter, but
-each had a duration which, when tried by human standards,
-must be regarded as immensely protracted. The cycles of
-astronomy are very vast, yet I have often thought that the
-cycles of geology, though probably of much less duration,
-impress us more forcibly with the antiquity of our planet.
-The astronomer tells us of light that has taken two millions
-of years to reach our earth, and of nebul&aelig; that are millions
-upon millions of miles distant, but these numbers are so vast
-that we cannot bring ourselves to realize them. We <i>know</i>
-that there is a great difference between two millions and
-ten millions, but we cannot fully <i>appreciate</i> it, and so the
-<span class="pagenum" id="Page_33">- 33 -</span>
-periods of the astronomer, beyond a certain point, cease adequately
-to impress us. So long as they can be easily contrasted
-with our own standards of comparison, they have their full
-force; but after that, every additional million, or ten millions, or
-ten hundred millions, produces only a confused and bewildered
-sense of immensity, and the comparative amount of each addition
-fails to be realized. Will my reader forgive a homely
-illustration:&mdash;Some years ago, I stood at the pier-head of one
-of our smaller sea-port towns, and watched the sun as it sullenly
-sank behind the outline of the opposite hills. The breadth of
-the channel, in the direction of sunset, was several miles, but
-in the flush of evening one fancied he could almost have thrown
-a stone across. The water lay unruffled by a ripple, and
-reflected all the thousand varying tints that lighted up the sky.
-The harbour, that had been a busy scene all evening, began to
-grow less noisy, as one by one the herring-boats pushed out to
-sea. I found it not a little interesting to mark, as the boats
-gained the open firth, how the opposite coast-line gradually
-seemed to recede. The farther the dark sails withdrew, the
-more remote did the adjacent shores appear, until, as the last
-tinge of glory faded from the clouds, and a cold grey tint
-settled down over the landscape, the hills lay deep in shade
-and stretched away in the twilight as a dark and distant land
-from whose valleys there rose troops of stars. The coast-line, as
-seen in early evening, reminded me of the periods of the astronomer;
-as seen in early night, it reminded me of the periods
-of the geologist. We fail to appreciate the real duration of
-astronomical cycles, because they are presented to us each as
-one vast period. They are not subdivided into intervals, and
-contain no succession of events, by means of which, as by milestones,
-we might estimate their extent; and so their unvaried
-continuity tends to diminish the impression of their vastness,
-just as the firth, without any islet or vessel on its surface,
-<span class="pagenum" id="Page_34">- 34 -</span>
-seemed greatly narrower than it really was. For it is with time
-as it is with space&mdash;the eye cannot abstractly estimate distance,
-nor can the mind estimate duration. In either case, the process
-must be conducted by a comparison with known standards.
-The geological periods exemplify the same rule. They may not
-be greater, perhaps not so great, as those revealed by astronomy,
-yet their vastness impresses us more, because we can trace out
-their history, and see how step by step they progressed. Thus,
-that the interval between the boulder-clay and the coal-measurer
-was immense, we learn from the records of many successive ages
-that intervened, in the same way that one began to perceive the
-real breadth of the firth, by resting his eye on the succession
-of intervening herring-boats. In the former case, the mind has
-ever and anon a sure footing on which to pause in gauging
-bygone eternity; in the latter, the eye had likewise a succession
-of points on which to rest in measuring distance. Or, to
-return to a former illustration: Boadicea lived eighteen hundred
-years ago, but who does not feel that the last nine hundred
-years look a great deal longer than the first? The one set has
-few marked incidents to fix the thoughts; the other is replete
-with those of the most momentous kind. In the one, we have
-M meagre list of conquerors and kings, from Julius C&aelig;sar down
-to Athelstan; in the other, events crowd upon us from the
-waning of the Saxon power down through the rising glory of
-our country to the present plenitude of its power and greatness.
-The early centuries, like the cycles of the astronomer, pass
-through our mind rather as one continuous period; the later
-centuries, like the cycles of the geologist, arrest our thoughts by
-a succession of minor periods, and hence the idea of duration is
-more vividly suggested by the diversified events of the one series,
-than by the comparatively unbroken continuity of the other.</p>
-
-<p>Let us now open the volume and try to decipher the strange
-<span class="pagenum" id="Page_35">- 35 -</span>
-legends which it contains. On removing some of the upper
-layers of the boulder, I found, as I have said, well-preserved
-remains of several kinds of plants. One of them was ribbed
-longitudinally, with transverse notches every three or four inches,
-us though a number of slender threads had been stretched along
-a rod, and tied tightly to it at regular intervals. Another, sorely
-mutilated, was pitted all over somewhat after the fashion in
-which the confectioner punctures his biscuits. A third had a
-more regular pattern, being prettily fretted with small lozenge-shaped
-prominences that wound spirally round the stalk. Other
-plants seemed to be present, but in a very bad state of preservation.
-They were all jumbled together and converted
-into a black coaly substance, in which no structure could be
-discerned.</p>
-
-<p>These plants assuredly once grew green upon the land; but
-where now is that land on which they flourished? Had it hills
-and valleys, rivers and lakes, such as diversify our country?
-Was it tenanted by sentient beings, and, if so, what were their
-forms? Did insects hum their way through the air, and cattle
-browse on the plains, and fish gambol in the rivers? Was the
-land shaded with forests, dark and rugged like those of Norway,
-or fragrant as the orange-groves of Spain? What, in fine, were
-its peculiar features, and how far did its scenery resemble that
-of any country of the present day?</p>
-
-<p>That old land has not entirely disappeared. Traces of it are
-found pretty extensively in South Wales, in Staffordshire, around
-Newcastle, and through central Scotland. Strange as it may
-seem, its forests are still standing in many places. The fishes
-that disported in its lakes, the insects that fluttered amid its
-woods, and the lizards that crawled among its herbage, are still
-in part preserved to us. Nay, more; we may sometimes see
-the sea-beaches of that ancient land pitted with rain-drops, and
-roughened with ripple-marks, as freshly as if the shower had
-<span class="pagenum" id="Page_36">- 36 -</span>
-fallen and the tide had flowed only yesterday. The peasants
-along the Bay of Naples gathered grapes from the flanks of
-Vesuvius for well-nigh seventeen centuries, before it was ascertained
-that they daily walked over the site of buried cities,
-with temples, theatres, and private houses still erect. It was
-many more centuries ere the people of Great Britain discovered
-that not a few of their villages and towns stood on the site
-of buried forests, and lakes, and seas. We have now, however,
-become aware of the fact, and are making good use of it. We
-dig into the earth and exhume these old forests to supply us
-with light and fuel; we quarry into the ripple-marked shores
-which fringed that old land, and build our houses with the
-hardened sand; we calcine the ferruginous mud that gathered
-in its swampy hollows, and extract therefrom our most faithful
-ally both in peace and war&mdash;metallic iron; we burn the delicate
-corals and shells and lily-like zoophytes which lived in the
-sea of that far-distant era, to enable us to smelt our iron, to
-build our houses, and manure our fields; in short, every year
-we are discovering some new and valuable material in the productions
-of that period, or finding out some new use which can
-be made of the substances already known. A more than ordinary
-interest, therefore, attaches to the history of the land and
-sea which have furnished us with so many aids to comfort as
-well as power; and we shall find, as we go on, that that history
-is a very curious one.</p>
-
-<p>I shall describe some of the more common plants and animals
-of the period, that we may be able, in some measure,
-to look back through the ages of the past, and see how these
-plants would appear when they cast their broad shadow over
-river and lake, and how these animals would have seemed
-to human eye in the twilight of the forest, in the sluggish flow
-of the river, and in the stagnant waters of the lagoon.</p>
-
-<p>The <i>Flora</i>, or vegetation of the Carboniferous era, differed
-<span class="pagenum" id="Page_37">- 37 -</span>
-widely from any that now exists. With the exception of the
-highest or exogenous class, it possessed representatives of all the
-existing classes of the botanic scale, but in very strange proportions.
-The number of species of carboniferous plants already
-found in Great Britain amounts to about three hundred, amongst
-which the ferns are especially abundant. Some of them seem
-to have been low-growing plants, like the bracken of our hillsides,
-but others must have shot up to the height of forest trees.
-We can recognise a few coniferous and cycadaceous plants, a
-good many stems resembling the "horse-tail" of our marshy
-grounds, and some of large size akin to the creeping club-moss
-of our heaths; but there are still many to which there exist
-no living analogues.</p>
-
-<p>When we examine the roof of a coal-pit, or split open plates
-of shale in a quarry of the coal-measures, we are struck with
-the similarity which the ferns in the stone bear to those among
-our woods and hills. One of the most common, and, at the
-same time, most elegant forms, is the <i>Sphenopteris</i> or wedge-leaved
-fern, of which a large list of species is known. One of
-them (<i>S. crenata</i>) had a strong stem, from which there sprung
-straight tapering branches richly dight with leaflets. The leaflets&mdash;somewhat
-like minute oak-leaves&mdash;were ranged like those
-of our modern ferns, along two sides of the stalk, in alternate
-order, and tapered gently away to its outer extremity. The
-effect of the whole is singularly rich, and one can well believe
-that a garland of this ancient fern would have wreathed as
-gracefully around a victor's brow as the parsley of Nemea or
-the laurel-leaves of Delphi.</p>
-
-<p>Another plant of the same genus (<i>S. affinis</i>, <a href="#fig3">Fig. 3</a>) has leaflets
-like the petals of the meadow-daisy, arranged in clusters along
-its slim diverging stalks. From a collection and comparison of
-many specimens, the late lamented Hugh Miller was enabled
-to make a drawing of this fern as it must have appeared when
-it waved green along the old carboniferous hill-sides. I enjoyed
-<span class="pagenum" id="Page_38">- 38 -</span>
-the privilege of going over these specimens with him, and
-marked how, under a master-hand, piece by piece fell into its
-proper place, and yielded up its evidence. His restoration,
-which forms the frontispiece to his last work, is a very beautiful
-one, and it is as true as it is beautiful.</p>
-
-<div class="figcenter" id="fig3" style="width: 360px;">
-  <img src="images/fig3.png" width="360" height="484" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 3.</span> Sphenopteris affinis.</div>
-</div>
-
-<p><span class="pagenum" id="Page_39">- 39 -</span></p>
-
-<div class="figcenter" id="fig4" style="width: 150px;">
-  <img src="images/fig4.png" width="150" height="189" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 4.</span> Pecopteris.</div>
-</div>
-
-<div class="figcenter" id="fig5" style="width: 116px;">
-  <img src="images/fig5.png" width="116" height="190" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 5.</span> Cyclopteris.</div>
-</div>
-
-<div class="figcenter" id="fig6" style="width: 135px;">
-  <img src="images/fig6.png" width="135" height="190" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 6.</span> Neuropteris.</div>
-</div>
-
-<p>The <i>Pecopteris</i> (<a href="#fig4">Fig. 4</a>, <i>P. heterophylla</i>) or comb-fern, is so
-called from its stiff thick leaflets being in some species arranged
-along the stalk like the teeth along the centre of a comb. Of all
-the plants of the coal-measures this is the one that approaches
-most closely to living nature. It appears to be almost identical
-with the <i>pteris</i>, of which one species is well known as the
-bracken of our hill-sides. Dr. Hooker figures together a frond of
-a New Zealand species (<i>P. esculenta</i>) and a fossil frond from the
-Newcastle pits. They are so similar as to be easily mistaken at
-first sight for drawings of the same plant.<a id="FNanchor_17" href="#Footnote_17" class="fnanchor">[17]</a> The <i>Neuropteris</i> (as
-<i>N. gigantea</i>, <a href="#fig6">Fig. 6</a>) or nerve-leaved fern, is remarkable for its
-strongly-defined venation. It is scarcely, perhaps, so elegant in
-its outline as the <i>sphenopteris</i>, or some of the other ferns. Its
-leaflets are large and thick, with an oblong or rounded form, and
-arranged either singly along the frond stem, or along secondary
-foot-stalks, which diverge from the main stem. Of the latter
-kind, some of the species have a good deal of resemblance
-to our <i>Osmunda regalis</i> or royal fern. A species of the former
-class (<i>N. cordata</i>) might readily enough be mistaken for the young
-leaves of the <i>Scolopendrium</i> or hart's-tongue, which hangs out
-its glossy green amid the gloom of dank and dripping rocks.
-There are, besides, several other genera of ferns in the Carboniferous
-strata, such as the <i>Cyclopteris</i> (<i>C. dilatata</i>, <a href="#fig5">Fig. 5</a>)
-or round-leaved fern, and the <i>Odontopteris</i> or tooth-fern. Most
-of these seem to have been lowly plants, like the ferns of
-<span class="pagenum" id="Page_40">- 40 -</span>
-our own country. But there was another class to which no
-analogue can be shown in Europe. They rose high over their
-humbler congeners as lofty trees, and must be studied by a
-reference to the existing tree-ferns of intertropical countries.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_17" href="#FNanchor_17" class="label">[17]</a> Hooker, <i>Mem. Geol. Surv.</i> vol. ii. part ii. p. 400.</p>
-
-</div>
-
-<div class="figcenter" id="fig7" style="width: 407px;">
-  <img src="images/fig7.png" width="407" height="490" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 7.</span> Living Tree-fern.</div>
-</div>
-
-<p>Tree-ferns flourish in warm climates, and are met with in
-Brazil, the East and West Indies, New Zealand, &amp;c. They
-rise sometimes to the height of fifty or sixty feet, with a long
-<span class="pagenum" id="Page_41">- 41 -</span>
-tapering stem surmounted by a dense crown of graceful fronds,
-and might easily be mistaken at a little distance for palms. All
-the known species belong to the same division (<i>Polypodiace&aelig;</i>)
-with the common polypodium of our road-sides. In some
-genera, as the <i>alsophila</i> of the East Indies, the trunk is ribbed
-by long creeping branches, or rather rootlets, which descend to
-the soil, giving the tree somewhat of the appearance so often
-seen in old woods, where venerable fir-trees have been firmly
-encased by the bearded stems of the ivy. Another genus, the
-<i>Cyathea</i>, has its stem covered with oblong scars where leaves
-were attached, and a circle of rich outspread fronds surmounts
-its summit. One of the coal-measure tree-ferns seems to have
-resembled this recent type. It is named the <i>Caulopteris</i> or
-stalk-fern, and had a thick stem picturesquely roughened by
-irregular oblong leaf-scars, that wound spirally from its base to
-its point. No specimen has hitherto been found showing the
-fronds in connexion with the stem, so that we are still ignorant
-of the kind of foliage exhibited by this ancient tree. There can
-be no doubt, however, that it was crowned with a large tuft of
-boughs that cast their shadow over the sward below, and we
-may, perhaps, believe that some of the numerous detached ferns
-found in the shales of the coal-series, once formed part of this
-lofty coronal.</p>
-
-<p>An important section of the carboniferous plants is embraced
-under the generic name of <i>Calamites</i>. They had smooth jointed
-stems, like reeds, and terminated beneath in an obtuse curved
-point (<a href="#fig8">Fig. 8</a>), from which there sprang broad leaflets or rather
-rootlets. After many years of research our knowledge of these
-plants is still very scanty. Some of them have exhibited a
-highly-organized internal structure, from which it appears that
-they consisted&mdash;first, of a soft central cellular pith; second, of
-a thick layer of woody tissue; and third, an external cylinder
-of strong bark, ribbed longitudinally, and furrowed transversely.
-<span class="pagenum" id="Page_42">- 42 -</span>
-They have been ranked with the common horse-tail of our
-ponds, but they would rather appear to belong to a higher
-family. The breadth of the stem is very various, some specimens
-being a foot or more in diameter, others scarcely half an
-inch. From the discoveries of Professor Williamson and Mr.
-Binny of Manchester, it seems not unlikely that what we call
-calamites may be really the inner core of a plant not yet
-named, just as a set of fossils were long called <i>sternbergi&aelig;</i>,
-before they were discovered to be really the pith of coniferous
-trees. With regard to the branches of the calamites, Brongniart's
-conjecture may be true, that they exist among the group of plants
-called <i>asterophyllites</i>. It is not unlikely that many dissimilar
-plants have been grouped together as calamites, and, on the other
-hand, that plants allied to the typical species have been thrown
-into separate genera. For it requires but a slight acquaintance
-with the vegetable kingdom to know how many forms analogous
-parts of the same plant may assume, and how impossible it
-would often be to guess the real
-relationship of such varieties if
-they were not found growing together
-on one plant.</p>
-
-<div class="figcenter" id="fig8" style="width: 298px;">
-  <img src="images/fig8.png" width="298" height="353" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 8.</span> Terminal portion of a calamite stem.</div>
-</div>
-
-<p><span class="pagenum" id="Page_43">- 43 -</span></p>
-
-<div class="figright" id="fig9" style="width: 234px;">
-  <img src="images/fig9.png" width="234" height="457" alt="" />
-
-  <span class="smcap">Fig. 9.</span><a id="FNanchor_18" href="#Footnote_18" class="fnanchor">[18]</a>
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_18" href="#FNanchor_18" class="label">[18]</a> The fossil given in <a href="#fig9">Fig. 9</a> is named by Lindley (<i>Foss. Flo.</i> t. 15, 16), <i>Calamites
-nodosus</i>. He admits, however, that it was not found in actual contact with a calamite
-stem. It has exactly the contour of an asterophyllite, and might, perhaps, be referred
-to that genus. It is inserted here that the reader may see the general form of the asterophyllites,
-and the close relationship that subsists between these plants and the calamites.</p>
-
-</div>
-
-<p>A remarkably graceful class
-of the coal-plants are known as
-<i>asterophyllites</i>. They had slim
-fluted and jointed stalks, apparently
-of humble growth. From
-each of the joints there sprang
-two thin opposite branches with
-stellate clusters of leaflets arranged
-round them at equal
-distances. If the reader will
-take a young rush-stalk, and
-string along it a number of the
-flowers of the little star-wort,
-keeping them a little distance
-apart, he may form some idea
-of the appearance of a single
-branch of the star-bearing <i>asterophyllite</i>. Some of the plants
-embraced under this genus are
-conjectured to have been aquatic,
-spreading out their clusters of leaflets in the green sluggish
-water of stagnant pools; but many of them are evidently
-<span class="pagenum" id="Page_44">- 44 -</span>
-related to the calamites, and may possibly have formed part of
-these plants.</p>
-
-<p>Whoever has rambled much in a coal-country, scrambling
-through briars and brambles in old quarries, or threading
-his way among the rocks of river-courses, must often have
-noticed, on the exposed surface of sandstone blocks, dark
-ribbon-like bands fretted over with little diamond-shaped knobs.
-They are so common in some districts, that you can scarcely light
-upon a piece of sandstone which does not show one or more.
-They belong to a carboniferous plant known as <i>lepidodendron</i>
-(<a href="#fig10">Fig. 10</a>) or scaly tree, from the peculiar style of ornamentation
-which adorned its bark. Its structure and affinities have puzzled
-botanists not a little. A well-preserved specimen reminds one
-of the appearance presented by a twig of the Scotch fir, when
-stripped of its green spiky leaflets. The scars thus left at the
-base of the leaflets are of a wedge-like form, and run spirally
-up the branch in a manner very like those on the branches of
-lepidodendron; and it was accordingly supposed at one time
-that the latter plant belonged, or at least was allied, to the
-conifers. But the branches of lepidodendron possessed a peculiarity
-that is shared in by none of our present coniferous trees.
-They were what botanists call <i>dichotomous</i>,&mdash;that is, they subdivided
-into two equal branches, these again into other two,
-and so on. Their internal texture,<a id="FNanchor_19" href="#Footnote_19" class="fnanchor">[19]</a> too, differed from that of
-any known conifer. The only tribe of existing plants with which
-the lepidodendron seems to bear comparison, are the <i>Lycopodiace&aelig;</i>,
-or club-mosses, of which we have several species in the
-moor-lands of our own country. They are low trailing plants,
-with moss-like scaly branches, bearing at their ends shaggy little
-tufts, whence the popular name of the genus. In warmer
-climates, they are both more numerous and attain a larger size,
-sometimes standing erect to about the height of an ordinary
-gooseberry-bush. But though the lepidodendron appears to
-<span class="pagenum" id="Page_45">- 45 -</span>
-have been allied to these plants in structure, it greatly differed
-from them in dimensions. The club-mosses of the coal-measures
-shot up as goodly trees, measuring fifty feet and upwards in
-height, and sometimes nearly five in diameter. Their general
-effect must have been eminently picturesque. A shaggy covering
-of green spiky leaflets bristled over their multitudinous pendant
-boughs; and where on the older stems these leaflets had decayed
-and dropped off, the outer bark was laid bare, fretted over
-with rows of diamond-shaped or oval scars, separated by waving
-lines of ridge or furrow, that wound spirally round the stem.
-From not a few of the branches there sprang oblong hirsute
-<span class="pagenum" id="Page_46">- 46 -</span>
-cones called <i>lepidostrobi</i> (<a href="#fig11">Fig. 11</a>), which bore the sporangia, or
-seed-cases. These cones are of frequent occurrence in the shales
-of the coal-measures, and may be
-readily recognised. They had a central
-axis round which the oblong
-sporangia were built, the whole being
-protected externally by a thick covering
-of pointed scales, imbricated like
-the cone of the Scotch fir. The
-leaflets of lepidodendron, called <i>lepidophylla</i>, were broader than those
-of the Scotch fir, and had a stout
-mid-rib, which must have given them
-a rigidity like that of the araucarian
-pine a plant they may also have
-resembled in the dark glossy green
-of its leaves.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_19" href="#FNanchor_19" class="label">[19]</a> See Hooker, <i>Mem. Geol. Surv.</i> vol. ii. part ii. p. 436.</p>
-
-</div>
-
-<div class="figcenter" id="fig10" style="width: 358px;">
-  <img src="images/fig10.png" width="358" height="427" alt="" />
-  <div class="figcaption"><span class="smcap">Fig 10.</span> Lepidodendron Sternbergii.</div>
-</div>
-
-<div class="figright" id="fig11" style="width: 199px;">
-  <img src="images/fig11.png" width="199" height="358" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 11.</span> Lepidostrobus.</div>
-</div>
-
-<p>Of all the common coal-measure
-plants, there is perhaps none so
-abundant as that known by the
-name of <i>stigmaria</i>, or punctured-stem.
-It is found spreading out its rootlets for several yards
-in beds of shale and under-clay, and sometimes even limestone,<a id="FNanchor_20" href="#Footnote_20" class="fnanchor">[20]</a>
-while, in many sandstones, fragments of its blackened
-stems lie as thickly strewn as twigs among the woods in
-autumn. I have said that several of the plants above described
-have greatly puzzled botanists. None of them, perhaps, has
-given rise to so much conjecture and variety of opinion as the
-stigmaria. The history of the discussion regarding its nature
-and affinities, would be not a little interesting as an illustration
-of the slow hindered progress often attendant on the researches
-of science, and an instance of how a few simple facts are sometimes
-<span class="pagenum" id="Page_47">- 47 -</span>
-enough to overturn the most plausible theories and probable
-conjectures. Many thousands of specimens had been
-examined ere one was found that revealed the true nature of
-the stigmaria. It was by some imagined to be a soft succulent
-marshy plant, consisting of a
-number of long branches radiating
-from a sort of soft disk,
-like spokes from the centre of
-a wheel. Analogies were suggested
-with dicotyledonous
-tribes, as the <i>cacti</i> and <i>euphorbi&aelig;</i>, though it was at the same
-time admitted that the ancient
-plant presented appearances
-which seemed very anomalous.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_20" href="#FNanchor_20" class="label">[20]</a> The fresh-water limestone of Mid-Calder abounds in long trailing stems and rootlets
-of stigmaria, mingled with other terrestrial plants, and shells of <i>cyprides</i>.</p>
-
-</div>
-
-<div class="figright" id="fig12" style="width: 232px;">
-  <img src="images/fig12.png" width="232" height="187" alt="" />
-  <div class="figcaption">Fig. 12 Stigmaria rootlets springing from
-Sigillaria stem.</div>
-</div>
-
-<p>In the course of an extensive survey of the coal-field of South
-Wales, Mr. (now Sir William) Logan ascertained the important
-fact, that each coal-seam is underlaid by a bed of clay, in which
-the stems of stigmaria, branching freely in all directions, may
-be traced to the distance of many feet or even yards. They
-were recognised as undoubtedly occupying the site on which
-they grew, and consequently each coal-seam was held to rest upon
-an ancient soil. Some years afterwards, in making a cutting for
-the Lancaster and Bolton Railway, several upright massive stems
-belonging to a plant called <i>sigillaria</i>, were found to pass downwards
-into true stigmaria stems (<a href="#fig12">Fig. 12</a>). There could be no
-doubt that they were different parts of one and the same plant.
-This fact has since been abundantly demonstrated from the
-Nova Scotia coal-field. Many sigillari&aelig; have been found there
-passing down into the fire-clay below, where they branch out
-horizontally as true stigmati&aelig;. It is evident, therefore, that
-the stigmaria was the under-ground portion of a plant, which,
-judging from the nature of the soil, and the free mode in
-<span class="pagenum" id="Page_48">- 48 -</span>
-which the tender rootlets branched off, appears to have lived in
-aquatic or marshy stations.</p>
-
-<div class="figcenter" id="fig13" style="width: 486px;">
-  <img src="images/fig13.png" width="486" height="561" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 13.</span> Stigmaria.</div>
-</div>
-
-<p>The stigmaria is too well marked to be readily confounded
-with any other coal-measure plant. It had a rounded stem,
-seldom more than four or five inches across, which was marked
-<span class="pagenum" id="Page_49">- 49 -</span>
-by a series of circular tubercules with a puncture in the centre,
-arranged in spiral lines round the stem. Each of these tubercules
-is surrounded, in ordinary specimens, by a circular depression,<a id="FNanchor_21" href="#Footnote_21" class="fnanchor">[21]</a>
-and the whole plant (if one may use the comparison)
-looks as if it had been smitten with small-pox. From the
-hollow in the centre of each protuberance, there shot out a
-long round rootlet, formerly thought to be a leaf, and since the
-tubercules are pretty thickly set, the stigmaria must have had
-a somewhat hirsute appearance as it crept through the mud.
-It would resemble a thick bearded stem of ivy, save that the
-fibres, instead of running up two sides, were clustered all round
-it. Along the centre of the root, there ran a woody pith of a
-harder and more enduring texture than the surrounding part of
-the plant. The space between the outer tuberculed rind and
-the inner pith, seems to have been of a soft cellular nature, and
-to have decayed first, for the pith is sometimes hollow, and
-may not unfrequently be seen at a distance from the centre,
-and almost at the outer bark&mdash;a circumstance that seems only
-explicable on the supposition, that while the surrounding portions
-were decaying, the firmer pith altered its position in the
-hollow stem, sinking to the lower side, if the plant lay prostrate,
-and that it did not itself begin to decay until the interior of the
-stem had been at least partially filled up with sand or mud, or
-fossilized by the infiltration of lime. From the root of the
-sigillaria, which has a curious cross-shaped mark on its base,
-<span class="pagenum" id="Page_50">- 50 -</span>
-the stems of stigmaria strike out horizontally, first as four great
-roots which subdivide as they proceed. Their subdivisions
-are dichotomous, each root splitting equally into two, and thus
-they want that intricate interlacing of rootlet which is so
-familiar to us. The whole disposition of these under-ground
-stems is singularly straight and regular, leading us to believe
-that they shot out freely through a soft muddy soil.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_21" href="#FNanchor_21" class="label">[21]</a> Such is the usual aspect of the plant. But as the stems have been, for the most
-part, greatly flattened by the pressure of the superincumbent rocks, the sharpness of the
-pattern has been much effaced. In some specimens described by Dr. Hooker, as having
-been found in an upright position, the external ornamentation presents an appearance
-somewhat different. What in the common specimens stand out as tubercules, are there seen
-to be deep circular cavities, in which the shrunk flagon-shaped bases of the rootlets are
-still observable. (See above, <a href="#fig13">Fig. 13 <i>b</i></a>, which is taken from one of Dr. Hooker's plates.
-For a detailed description of the structure of stigmaria, see the paper above referred to in
-the <i>Geological Survey Memoirs</i>.) A very ornate species is mentioned by the late Hugh
-Miller, in which each tubercule formed the centre of a sculptured star, and the whole
-stem seemed covered over with flowers of the composite order. And what is, perhaps,
-still more curious, the stem was seen to end off 7 in an obtuse point, tuberculed like the
-rest of the plant.&mdash;<i>Testimony of the Rocks</i>, p. 461.</p>
-
-</div>
-
-<p>Some time ago I chanced to visit the remains of what had
-once been a royal residence, and still looked majestic even in
-decay. It gave a saddened pleasure to thread its winding stairs,
-and pass dreamily from chamber to hall, and chapel to closet;
-to stand in its gloomy kitchens, with their huge fire-places,
-whose blackened sides told of many a roaring fagot that had
-ruddied merry faces in days long gone by; to creep stealthily
-into the sombre dungeons, so dank, earthy, and cold, and then
-winding cautiously back, to emerge into the light of the summer
-sun. The silent quadrangle had its encircling walls pierced
-with many a window, some of which had once been richly
-carved; but their mullions were now sorely wasted, while others,
-with broken lintels and shattered walls above, seemed only
-waiting for another storm to hurl them among the roofless
-chambers below. In the centre of the court-yard stood a ruined
-fountain. It had been grotesquely ornamented with heads of
-lions and griffins, and was said to have once run red with wine.
-But it was silent enough now; the hand of time, and a still surer
-enemy, the hand of man, had done their worst upon it; its
-groined arches and foliaged buttresses were broken and gone,
-and now its shattered beauty stood in meet harmony with the
-desolation that reigned around. I employed myself for a while
-in looking over the fragments, marking now the head of some
-fierce hippogryph, anon the limbs of some mimic knight clad in
-armour of proof, and ere long I stumbled on a delicately sculptured
-<i>fleur-de-lis</i>, that might have surmounted the toilet-window
-of some fair one of old. Turning it over, I found its unhewn
-side exhibited a still more delicately sculptured stigmaria. The
-<span class="pagenum" id="Page_51">- 51 -</span>
-incident was certainly simple enough, perhaps even trifling.
-And yet, occurring in a spot that seemed consecrated to reverie,
-it awoke a train of pleasant reflection. How wide the interval
-of time which was bridged across in that sculptured stone! Its
-one side carried the mind back but a few generations, the other
-hurried the fancy away over ages and cycles far into the dim
-shadows of a past eternity. The one told of a land of flowers,
-musical with the hum of the bee and the chantings of birds,
-and gladdened by the presence of man; the other told of a
-land luxuriant, indeed, in strange forms of vegetation&mdash;huge
-club-mosses, tall calamites, and waving ferns&mdash;yet buried in a
-silence that was only broken fitfully by the breeze as it shook
-the spiky catkins or the giant fronds of the forest. The
-<i>fleur-de-lis</i> recalled memories of France&mdash;the sunny land of
-France&mdash;which stood out so brightly in the dreams of our
-school-days; the stigmaria conjured up visions of a land
-that was never gazed on by human eye, but rolled its rich
-champaign during the long ages of the Carboniferous era, and
-sometimes rises up dimly in the dreams of our maturer years.
-Between these two epochs how many centuries, how many
-cycles must have slowly rolled away! The <i>fleur-de-lis</i> was
-carved but yesterday; the stigmaria flourished when the earth was
-young, and had seen scarcely a third part of its known history.</p>
-
-<p>I have said that the stem of the stigmaria is called sigillaria.
-The name may be translated <i>signet-stem</i>,<a id="FNanchor_22" href="#Footnote_22" class="fnanchor">[22]</a> and has reference to
-one of the distinguishing peculiarities of the plant. About
-twenty British species are enumerated, some of them very dissimilar,
-yet they all agree in having long fluted stems with parallel
-rows of prominent seal-like tubercules. The sigillaria differed
-so widely in its whole contour and ornamentation from every
-living plant, that it is impossible to convey an idea of its form
-<span class="pagenum" id="Page_52">- 52 -</span>
-by reference to existing vegetation. Some of the species, as <i>S.
-organum</i> (<a href="#fig14">Fig. 14</a>), had their trunks traversed longitudinally by
-broad ridges separated by
-narrow furrows. Along the
-summit of each ridge there
-ran a line of tubercules, set
-regularly at distances varying
-from a third or a quarter
-of an inch to close contact.
-One may sometimes see no
-unfair representation of the
-bark of this ancient tree,
-when looking at a newly
-ploughed field in spring-time,
-having each of its broad
-ridges dotted with a row of
-potato sacks. Other species,
-while exhibiting the same
-plan, differed not a little in
-the details. In some the
-tubercules are round, in
-others angular, and in a third set double or kidney-shaped.
-In some they are far apart, in others they are strung together
-like a chain of beads. Sometimes they exist as mere specks,
-while occasionally they broaden out so as to equal in width
-the ridge that supports them. One species (<i>S. reniformis</i>),
-instead of the broad ridge and narrow furrow, exhibits an
-arrangement exactly the reverse. It looks not unlike a cast of
-the species first described, save that its broad flat furrows support
-rows of much larger tubercules. The breast of a lady's
-chemisette, with a thick-set row of buttons down each plait,
-would be somewhat like this species of sigillaria, with this
-difference, however, that the buttons on the plant were of a
-form that does not appear as yet to have come into fashion
-among the fair sex. Yet they had no little elegance, and like
-many other objects in the geological storehouse, might be a useful
-model for our students of design. They were neither round nor
-quite oval, but rather of a kidney-shape, or like a double cherry.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_22" href="#FNanchor_22" class="label">[22]</a> The word sigillaria is really plural, and was used by the Romans to denote the little
-images which friends were wont to present to each other at the end of the Saturnalia.
-They answered pretty nearly to christmas-boxes and new year's gifts among ourselves. It
-is not uninteresting thus to find among the hard dry names of science, one that two
-thousand years ago was synonymous with all the kindliness of friendship.</p>
-
-</div>
-
-<div class="figleft" id="fig14" style="width: 238px;">
-  <img src="images/fig14.png" width="238" height="335" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 14.</span> Sigillaria, with black carbonized
-bark partially removed.</div>
-</div>
-
-<p><span class="pagenum" id="Page_53">- 53 -</span></p>
-
-<p>There can be no doubt that these tubercules must once have
-supported leaflets. They are true leaf-scars, like those on the
-Scotch fir, and the lozenge-shaped knobs on the bark of lepidodendron.
-But of the form of these leaves we are still in
-ignorance, for no part of the plant, save the stem and roots, has
-yet been found. The sigillaria must have been a tree that
-could not long withstand maceration, for not only are its leaves
-gone, but, in many cases, the outer bark has partially or wholly
-decayed, leaving a scarcely distinguishable mass of carbonized
-matter.<a id="FNanchor_23" href="#Footnote_23" class="fnanchor">[23]</a> When this outer rind is peeled off, the inner surface
-of the stem is seen to be ridged, furrowed, and tuberculed in
-the same way, but the markings are much less distinct than on
-the outside. The bark sometimes attains the thickness of an
-inch, and is always found as a layer of pure coal enveloping
-the stem where it stands erect, or lying as a flat cake without
-any central cylinder where the stem is prostrate. (See <a href="#fig14">Fig. 14</a>.)</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_23" href="#FNanchor_23" class="label">[23]</a> Another proof of the looseness of the texture of this ancient vegetable may be gathered
-from the almost invariable truncation of even the largest erect stems; they are snapped
-across at the height of a few feet from their base. The famous "Torbanehill Mineral"
-contains many such fragmentary stems, often of considerable thickness. Their interior
-consists of the same material as the surrounding bed, and displays many dissevered plants
-that may have been washed into the decaying trunks. For the internal structure of sigillaria
-see Dr Hooker's <i>Memoir</i>, and the authorities therein cited.</p>
-
-</div>
-
-<p>Another remarkable feature in this carboniferous plant is that
-it appears to have had no branches along its stem. Trunks have
-been found four and five feet in diameter, and have been traced
-to a distance of fifty, sixty, and even seventy feet, without any
-marks of branches being detected. Brongniart examined the
-portion of one stem, which, at its thicker end, had been broken
-across, but still measured a foot in breadth. It ran for forty
-feet along the gallery of a mine, narrowing to a width of not
-more than six inches, when it divided into two, each branch
-<span class="pagenum" id="Page_54">- 54 -</span>
-measuring about four inches across. The sigillaria stems, accordingly,
-must have shot up, slim and straight, to a height of
-sometimes seventy feet before they threw out a single branch.
-We know nothing of the coronal of these strangely-formed trees.
-From Brongniart's observations, it would seem that the upper
-part of the stem, like that of the lepidodendron, was dichotomous,
-that is, it branched out into two minor stems; but how these
-were disposed is unknown. We are wholly ignorant, too, of
-the foliage of these branches, though, from the general structure
-of the plant, as well as from the number of fern-fronds often
-found around the base of the stems, it has been conjectured
-that the sigillaria was cryptogamous, and, like the tree-ferns,
-supported a group of sweeping fronds. If so, it differed in many
-respects from every known member of the cryptogamic tribes.</p>
-
-<p>Putting together, then, all that we know of the exterior of
-the sigillaria, we find that it was a tall slender tree, with, palm-like,
-a clump of foliaged branches above, its stem bristling
-thickly, in at least its upper part, with spiky leaves, and its
-roots equally hirsute, shooting out to a distance of sometimes
-forty feet through the soft muddy soil. Future researches may
-bring us better acquainted with this ancient organism. In the
-meanwhile, enough of it is known to mark it out as one of the
-most ornate forms of vegetation that the world has ever seen.</p>
-
-<p>In addition to the above, the coal strata have yielded many
-other fragmentary remains, to which names have been given,
-but of which very little is known. It is pleasant, amid such a
-wide sea of doubt and uncertainty, to alight upon some well-known
-form of whose affinities there can be no question, since
-it still finds its representatives in living nature. Of such a
-kind are the coniferous stems occasionally met with in the sandstones
-of the coal-measures. .</p>
-
-<p>It is now many years since the operations of the quarryman
-in the carboniferous sandstones of Edinburgh and Newcastle
-disclosed the remains of huge gnarled trunks deeply imbedded
-<span class="pagenum" id="Page_55">- 55 -</span>
-in the rock. The neighbourhood of the latter town yielded, in
-1829,<a id="FNanchor_24" href="#Footnote_24" class="fnanchor">[24]</a> the stem of a tree seventy-two feet long, without
-branches, but roughened with numerous knobs, indicative of the
-places whence branches had sprung. At Craigleith, near Edinburgh,
-a trunk thirty-six feet long, and three feet in diameter
-at the base, was disinterred in the year 1826. Since
-then, several others have been found in the same neighbourhood;
-some of them sixty and even seventy feet in length, and
-from two to six in breadth. They were, for the most part,
-stripped of roots and branches, and lay at a greater or less
-angle among the white sandstone beds, which they cut across
-obliquely. It was unknown for some time to what division of
-the vegetable kingdom these trunks should be referred. Their
-irregular branched surface and undoubted bark indicated a
-higher kind of structure than that possessed by any of the
-other carboniferous plants; but the conjecture remained unverified
-until an ingenious and beautiful method was discovered
-of investigating their internal organization. Two Edinburgh
-geologists, Mr. Nichol and Mr. Witham, succeeded in obtaining
-slices of the plants sufficiently transparent to be viewed under
-the microscope by transmitted light, and in this way their true
-structure was readily perceived. The method of preparing these
-objects was simply as follows:&mdash;A thin slice of the plant to be
-studied was cut by the lapidary, or detached by the hammer.
-One side having been ground down smooth, and polished, was
-cemented by Canada balsam to a piece of plate-glass, and the
-upper surface was then ground down and polished in like
-manner, so as to leave the slice no thicker than cartridge-paper.<a id="FNanchor_25" href="#Footnote_25" class="fnanchor">[25]</a>
-When the preparation was then placed under a magnifying
-power, the minute cells and woody fibre of the plant
-could be detected as clearly as those of a recent tree. The
-Craigleith fossils were in this way recognised as belonging to
-<span class="pagenum" id="Page_56">- 56 -</span>
-the great coniferous family, and to that ancient<a id="FNanchor_26" href="#Footnote_26" class="fnanchor">[26]</a> division of it
-which is, at the present day, represented by the pine of Norfolk
-Island&mdash;"a noble araucarian, which rears its proud head from
-160 to 200 feet over the soil, and exhibits a green and
-luxuriant breadth of foliage rare among the conifer&aelig;."<a id="FNanchor_27" href="#Footnote_27" class="fnanchor">[27]</a> Some
-of these plants have yielded faint traces of the annual rings
-shown so markedly in the cross section of our common forest-trees;
-whence it would appear, that even as far back as the
-times of the coal-measures, there were seasons of alternate heat
-and cold, though probably less defined than now.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_24" href="#FNanchor_24" class="label">[24]</a> Witham's <i>Foss. Veget.</i> p. 31.</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_25" href="#FNanchor_25" class="label">[25]</a> For a more detailed description of the process, see Witham's <i>Foss. Veget.</i> p. 45.</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_26" href="#FNanchor_26" class="label">[26]</a> The solitary lignite of the Lower Old Red Sandstone, seems to have been
-araucarian. Miller's <i>Footprints of the Creator</i>, p. 203.</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_27" href="#FNanchor_27" class="label">[27]</a> <i>Footprints of the Creator</i>, p. 192.</p>
-
-</div>
-
-<p>These coniferous trees do not appear to occur among the
-erect stems of the coal-beds, at least they are very rare in such
-a position. Their more usual appearance is that of drifted,
-branchless trunks, imbedded along with other fragmentary
-plants in deep strata of sandstone. They probably grew on
-higher ground than the swamps which supported the sigillari&aelig;
-and their allies, and might have been carried down by streams,
-freighted out to sea, and so deposited among the sediment that
-was gathering at the bottom.</p>
-
-<p>The remains of cycadaceous plants have been described among
-the vegetation of the coal-measures; but only fragments have
-as yet been found. The modern <i>Cycade&aelig;</i> are low shrubs or
-trees, with thick stems of nearly uniform breadth, crowned
-with a dense clump of spreading fronds which resemble both
-those of the palms and the ferns. They are natives of the
-warmer regions of both hemispheres.</p>
-
-<p>So long ago as the year 1835, Dr. Lindley figured a
-flower-like plant, to which he gave the name of <i>Antholites</i>,
-ranking it among the <i>Bromeliace&aelig;</i>, or pine-apple group.
-It was afterwards suspected by Dr. Hooker to belong rather
-to the conifer&aelig;; and he supposed that the so-called flowerets
-<span class="pagenum" id="Page_57">- 57 -</span>
-might be really tufts of young unexpanded leaves. An
-examination of a more perfect specimen, however, has induced
-that distinguished botanist to alter his convictions and
-return to the original decision of Lindley,
-that the antholites are really flowers.<a id="FNanchor_28" href="#Footnote_28" class="fnanchor">[28]</a> In
-<a href="#fig15">Fig. 15</a>, therefore, which represents one of
-these coal-measure fossils, the reader beholds
-the oldest flower that has yet been found;
-and surely it is of no little interest to know,
-that amid the rank, steaming forests of the
-Carboniferous era, with all their darkness and
-gloom, there were at least some flowers&mdash;flowers,
-too, that were allied to still living
-forms, and breathed out a rich aromatic
-fragrance.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_28" href="#FNanchor_28" class="label">[28]</a> See Dr. Hooker's remarks in the Supplement to the fifth edition of
-Lyell's Manual, p. 31.</p>
-
-</div>
-
-<div class="figcenter" id="fig15" style="width: 110px;">
-  <img src="images/fig15.png" width="110" height="231" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 15.</span>&mdash;Antholites.</div>
-</div>
-
-<p>In fine, from all the genera and species of
-plants that have been detected in the strata
-of the coal-measures, it would appear that
-the flora of that ancient period was in a high degree <i>acrogenous</i>&mdash;that
-is to say, consisted in great measure of ferns,
-club-mosses, and other members of the great group of plants
-known as <i>acrogens</i>. This word literally means <i>top-growers</i>, and
-is applied to those plants which increase in height, but not in
-width, since they attain at first nearly their ultimate diameter.
-Such plants occupy a low position in the botanical scale.
-Mingled with the numerous genera of carboniferous ferns and
-club-mosses, we find the remains of a much higher grade of
-vegetation&mdash;that of the <i>gymnogens</i>, or plants that bear naked
-seeds&mdash;such as the firs and pines. There also seem to have
-been a few <i>endogenous</i> flowering plants. Viewing, then, this flora
-on the whole, it presents us with many striking resemblances to
-certain botanical regions of the present day. Many of the tropical
-<span class="pagenum" id="Page_58">- 58 -</span>
-islands abound in ferns, and contain very few flowering plants.
-But New Zealand affords perhaps the closest parallel. That
-island is in certain parts highly mountainous, its loftiest summits
-being covered with glaciers. The hills throughout large
-districts are bare, or covered with a scanty herbage, while in
-other localities they are densely clothed with forests of pine,
-beech, and other trees. These forests sweep on to the lower
-grounds, where they are replaced by a thick growth of fern and
-flax-plant intermingled with dragon-trees and graceful tree-ferns,
-while the more swampy regions support a rich profusion of
-reeds and rushes. Such a condition of things affords a close
-parallel to the probable vegetation of the Carboniferous period&mdash;an
-immense preponderance of ferns and arborescent acrogens,
-with an intermixture of large coniferous trees. From the
-general scantiness of a flora where ferns predominate, it has
-been argued that the swamps of the coal-measures nourished a
-luxuriant repetition of comparatively few species; and this
-hypothesis also receives confirmation from the vegetation of
-New Zealand. Another deduction founded on the resemblance
-of the ancient to the modern flora, refers to the conditions of
-heat and moisture. It has been inferred that the climate
-of the coal period was equable and humid, like that of New
-Zealand&mdash;a supposition much more natural and simple than
-that, once so much in vogue, of a heated atmosphere densely
-charged with carbonic acid gas. That the air of the Carboniferous
-period differed in no material respect from the air
-of the present day, seems at last proved by the remains of
-air-breathing animals having been found among the coal-beds;
-and there seems no reason why the higher mountain-tops of the
-same epoch may not have been clothed with glaciers as those
-of New Zealand are. As yet we have no evidence of the fact,
-but it is by no means beyond the possibility of proof.<a id="FNanchor_29" href="#Footnote_29" class="fnanchor">[29]</a></p>
-
-<div class="footnote">
-
-<p><a id="Footnote_29" href="#FNanchor_29" class="label">[29]</a> See Professor Ramsay's suggestive Memoir on Permian Breccias in <i>Quarterly Journal
-of the Geological Society</i>, vol. xi. p. 185.</p>
-
-</div>
-<hr class="chap x-ebookmaker-drop" />
-
-<div class="chapter">
-<p><span class="pagenum" id="Page_59">- 59 -</span></p>
-
-<h2 class="nobreak" id="CHAPTER_V">CHAPTER V.</h2>
-</div>
-
-
-<div class="blockquot">
-
-<p>Scenery of the carboniferous forests&mdash;Contrast in the appearance of coal districts at the
-present day&mdash;Abundance of animal life in the Carboniferous era&mdash;Advantages of
-pal&aelig;ontology over fossil-botany&mdash;Carboniferous fauna&mdash;Actini&aelig;&mdash;Cup-corals&mdash;Architecture
-of the present day might be improved by study of the architecture
-of the Carboniferous period&mdash;Mode of propagation of corals&mdash;A forenoon on the
-beach&mdash;Various stages in the decomposition of shells&mdash;Sea-mat&mdash;Bryozoa&mdash;Fenestella&mdash;Retepora&mdash;Stone-lilies&mdash;Popular
-superstitions&mdash;Structure of the stone-lilies&mdash;Aspect
-of the sea-bottom on which the stone-lilies flourished&mdash;Sea-urchins&mdash;Crustacea,
-their high antiquity&mdash;Cyprides&mdash;Architecture of the Crustacea and mollusca
-contrasted&mdash;King-crabs.</p>
-</div>
-
-<p><span class="smcap">The</span> forms of vegetation that flourished during the Carboniferous
-era seem to have been in large measure marshy plants,
-luxuriating on low muddy delta-lands, like the cypress-swamps
-of the Mississippi, or the Sunderbunds of the Ganges. We
-can picture but faintly the general scenery of these old forests
-from the broken and carbonized remains that have come down
-to us. But though perhaps somewhat monotonous on the
-whole, it must have been eminently beautiful in detail. The
-sigillari&aelig; raised their sculptured stems and lofty waving wreaths
-of fronds high over the more swampy grounds, while a thick
-underwood of ferns and star-leaved asterophyllites clustered amid
-the shade below. The lepidodendra shot forth their spiky
-branches from the margin of green islets, and dropped their
-catkins into the sluggish water that stole on among the dimpled
-shadows underneath. Tree-ferns spread out their broad pendant
-fronds, and wrapt the ground below in an almost twilight gloom,
-darker and deeper far than that</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent6">"Hospitable roof</div>
-    <div class="verse indent1">Of branching elms star-proof,"</div>
-  </div>
-</div>
-</div>
-<p><span class="pagenum" id="Page_60">- 60 -</span></p>
-<p>which rose so often in the visions of Milton; or that "graceful
-arch" so exquisitely sung by Cowper, beneath which</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent0">"The chequered earth seems restless as a flood</div>
-    <div class="verse indent1">Brushed by the wind. So sportive is the light</div>
-    <div class="verse indent1">Shot; through the boughs, it dances as they dance,</div>
-    <div class="verse indent1">Shadow and sunshine intermingling quick,</div>
-    <div class="verse indent1">And darkening and enlightening, as the leaves</div>
-    <div class="verse indent1">Play wanton, every moment, every spot."</div>
-  </div>
-</div>
-</div>
-
-<p>Thickets of tall reeds rose out of the water, with stems massive
-as those of our forest-trees, encircled at regular distances by
-wreaths of pointed leaflets, and bearing on their summits club-like
-catkins. Far away, the distant hills lay shaggy with pine-woods,
-and nursed in their solitudes the springs and rivulets
-that worked a devious course through forest, and glen, and
-valley, until, united into one broad river, they crept through the
-rich foliage of the delta and finally passed away out to sea,
-bearing with them a varied burden of drift-wood, pine-trees
-from the hills, and stray leaves and cones from the lower
-grounds.</p>
-
-<p>How different such a scene from that now presented by the
-very same areas of country! These old delta lands are now our
-coal-fields, and have exchanged the deep stillness of primeval
-nature for the din and turmoil of modern mining districts. In
-these ancient times, not only was man uncreated, but the earth
-as yet lacked all the higher types of vertebrated being. None
-of the animals that we see around us existed then; there were
-no sheep, nor oxen, horses, deer, nor dogs. Neither were the
-quadrupeds of other lands represented; the forests nourished
-no lions or tigers, no wolves or bears, no opossums or kangaroos.
-In truth, the land must have been a very silent one, for we
-know as yet of no animated existence that could break the
-stillness, save perchance some chirping grasshopper, or droning
-beetle, or quivering dragon-fly. No bee hummed along on errands
-of industry; it is doubtful, indeed, whether honey-yielding
-<span class="pagenum" id="Page_61">- 61 -</span>
-flowers formed part of the carboniferous flora; no lark carolled
-blithely in the sky, nor rook croaked among the woods. All
-was still; and one might, perhaps, have stood on some of those
-tree-crested islets, and heard no sound but the rippling of the
-water along the reedy and sedgy banks, and the rustling of the
-gloomy branches overhead.</p>
-
-<p>To one who muses on these bygone ages it is no unimpressive
-situation to stand in the midst of a large coal district and mark
-its smoking chimneys, clanking engines, and screaming locomotives,
-its squalid villages and still more squalid inhabitants, and
-its mingled air of commercial activity, physical wretchedness,
-and moral degradation. It is from such a point of view that
-we receive the most forcible illustration of those great changes
-whereof every country has been the scene, and which are so
-tersely expressed by one who has gazed on the revelations of
-geology with the eye of a true poet&mdash;</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent0">"There rolls the deep where grew the tree.</div>
-    <div class="verse indent2">O earth, what changes hast thou seen!</div>
-    <div class="verse indent2">There where the long street roars, bath been</div>
-    <div class="verse indent1">The stillness of the central sea."</div>
-  </div>
-</div>
-</div>
-
-<p>But the lifelessness of the carboniferous forests was amply
-compensated by the activity that reigned in river, lagoon, and
-sea. Coral groves gleamed white beneath the waves, fishes of
-many a shape disported in stream and lake, and the bulkier
-forms, armed in massive plates of bone, ascended the rivers or
-haunted the deeper recesses of the open sea. In some beds
-of rock the remains of these various animals lie crowded
-together like drifted tangle on the sea-shore, and the whole
-reminds us of a vast cemetery or charnel-house. The bones lie
-at all angles, many of them broken and disjointed as though
-the owner had died at a distance, and his remains, sadly mutilated
-on the way, had been borne to their last resting-place by
-the shifting currents; others lie all in place, covered with their
-armature of scales, as though the creature, conscious of approaching
-<span class="pagenum" id="Page_62">- 62 -</span>
-dissolution, had sought out a sheltered nook and there lain
-down and died. It is not uninteresting or uninstructive to tract;
-out in an old quarry stratum above stratum, each with its
-groups of once living things. I know of few employments
-more pleasant than to sit there, amid the calm stillness of a
-summer evening, when the shadows are beginning to steal
-along the valleys and creep up the hill-sides, and in that dim
-fading light to try in fancy to clothe these dry bones with life,
-to picture the time when they lived and moved in the glassy
-depths of lakes and seas, or amid the solitudes of jungles and
-forests, and so to spend a pleasant hour in reverie, till roused at
-last by the vesper song of the lark, or the low meanings of the
-night wind as it sighs mournfully through the woods.</p>
-
-<p>The study of fossil animals embraces a much greater range of
-subject than that of fossil plants. The <i>fauna</i> of any particular
-geological formation, that is to say, its embedded animal remains,
-for the most part vastly exceeds in number its <i>flora</i>, or vegetable
-remains, and is likewise usually better preserved. About
-the nature and affinities of several tribes of fossil plants there
-hangs an amount of uncertainty which renders them a dubious
-guide to the climatal and other conditions of the period and
-locality in which they lived. Generic distinctions among living
-plants often rest on the character of those parts which are the most
-perishable, such as flowers and seed-vessels. These delicate structures
-we, of course, can hardly look to find preserved in the rocks,
-and we have in place of them only detached leaflets, twigs,
-branches, and stems, often sorely mutilated in outward form, and
-presenting no trace of internal organization. But the tribes of
-the animal kingdom have, for the most part, harder frameworks.
-The minute infusoria, which by their accumulated remains help
-to choke up the delta of the Nile, and swarm by millions in
-every ocean of the globe, have their silicious or calcareous shells
-so minute that Ehrenberg has estimated a cubic inch of tripoli
-to contain forty-one thousand millions of them. The polypi
-<span class="pagenum" id="Page_63">- 63 -</span>
-have their internal calcareous skeletons, which abound in all the
-older limestones, and form the coral reefs of the present day.
-The mollusca, too, though, as their name imports, they have
-perishable bodies, are yet, in most cases, furnished with hard
-calcareous shells, that indicate by their various modifications of
-form and structure, the character of the animal that lived within
-them. They are found in all the formations from the earliest
-upwards, and as they vastly exceed in numbers all the other
-classes with which the geologist has to deal, they form the
-larger part of that basis of evidence from which he interprets
-the past history of organized existence. Hugh Miller loved to
-talk of them as the "shell alphabet," out of which the language
-of pal&aelig;ontological history should be compiled. The vertebrata,
-too, all have their hard skeletons, easily capable of preservation,
-whether it be in the form of the massive exo-skeleton of bone
-that characterized the older ganoidal fishes, or the compact
-endo-skeleton of the reptiles and mammals. A greater amount
-of attention is, therefore, due to the study of fossil animals,
-since they thus not only far exceed fossil plants in number,
-but possess a higher value as evidence of ancient physical conditions.</p>
-
-<p>The <i>fauna</i> of the Carboniferous system is a very numerous
-one, exhibiting specimens of almost every class of animal life,
-from the tiny <i>foraminifer</i> up to the massive bone-covered
-sauroidal fish, and even to occasional traces of true reptilian
-remains. By far the larger number are peculiar to the sea,
-such as the molluscan tribes and corals; others are undoubtedly
-terrestrial organisms, such as the wings and wing-sheaths of
-several kinds of insects; while some appear to be peculiar to
-fresh or brackish water, such as shells allied to our <i>unio</i> or
-river-mussel, and minute crustaceous animals known as <i>cyprides</i>,
-of which we have still representatives in our ponds and ditches.
-It is plain, then, that if we rightly ascertain the class or family
-to which one of these fossils belonged, we shall obtain a clue
-<span class="pagenum" id="Page_64">- 64 -</span>
-to the history of the physical geography, during Carboniferous
-times, of the district in which the fossil occurs. A bed of unios
-will tell us of old rivers and lakes that spread out their blue
-waters where now, perchance, there lie waving fields of corn.
-A bed of corals and stone-lilies will lay before us the bottom
-of an ancient ocean that rolled its restless waves where to-day,
-perhaps, the quarryman plies his task amid the gloom of dark
-pine-woods. In short, these organic remains are to the history
-of the earth what ancient monuments are to the history of man.
-They enable us to trace out the varied changes of our planet
-and its inhabitants down to the human era, just as the wooden
-canoe, the flint arrow-head, the stone coffin, the bronze sword,
-the iron cuirass, the ruined abbey, and the feudal castle, teach
-us the successive stages of progress in the history of our own
-country.</p>
-
-<p>Whoever has spent a few days on some rocky coast, must
-have noticed adhering to half-tide stones numerous solitary
-<i>actini&aelig;</i>. Arrayed in all the colours of the rainbow&mdash;purple,
-green, and gold&mdash;these little creatures hang out their tentacles
-like so many flowers, and have hence received the popular name
-of sea-anemones. Their internal structure is no less beautiful.
-They resemble so many large plump gooseberries, and consist
-of a little sack suspended within a larger one. The outer sack is
-fringed along its upper edges with one or more rows of slim hollow
-tentacles, which diverge outwards like the petals of the daisy,
-and can be contracted at pleasure so as somewhat to resemble the
-daisy when folded up at sunset. The inner sack, which forms
-the stomach of the animal, has a short opening or gullet, at the
-upper part of which is the mouth lying in the centre of the cavity
-surrounded by the fringes of tentacles. The inner sack is connected
-with the outer by means of thin membranes, like so many
-partition-walls, which radiate inwards like spokes towards the
-axle of a wheel. The space between each of these membranes,
-or lamell&aelig;, forms an independent chamber, but it has a
-<span class="pagenum" id="Page_65">- 65 -</span>
-communication with those on either side by a window in each wall,
-and further opens upwards into the hollow tentacles, which,
-with minute orifices at their outer points, may be compared to
-chimneys. These chambers form the breathing apparatus of the
-little creature. Sea-water passes down through the tentacle
-into the hollow chamber below, whence, by the constant action
-of minute hairlike cilia that line the walls like tapestry, it is
-driven through the window into the next chamber, thence into
-the next, and so on, passing gradually through the tentacles
-back to the sea.</p>
-
-<p>The actini&aelig; are of a soft perishable substance, but many of
-the other <i>Anthozoa</i>, or flower-like animals, have hard calcareous
-skeletons. Of such a kind are the polypi that in the Pacific
-Ocean have raised those stupendous reefs and islands of coral.
-It does not appear that, during the Carboniferous period, there
-existed any reef-building zoophytes, but some of the most
-abundant forms of life belonged to a kindred tribe, and are
-known by the name of <i>Cyathophyllid&aelig;</i>, or cup-corals.</p>
-
-<p>As the name imports, the typical genus has a general cup-shaped
-form, but this is liable to many aberrations in the
-cognate genera. The younger specimens of one species (<i>Cyathopsis
-fungites</i>) have a curved outline somewhat like the bowl
-of a tobacco-pipe, whence the quarrymen know them as pipe-heads.
-The older individuals are generally more or less wrinkled
-and twisted, sometimes reaching a length of eight or nine inches,
-and have been named by the workmen <i>rams'-horns</i>.</p>
-
-<div class="figleft" id="fig16" style="width: 261px;">
-  <img src="images/fig16.png" width="261" height="336" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 16.</span>&mdash;Cyathopsis (clisiophyllum ?) fungites.</div>
-</div>
-
-<p>The annexed figure (<a href="#fig16">Fig. 16</a>) shows their general appearance
-and structure. The lower end was fixed to the rock like the
-flat sucker-like disc of the actinia. Around the outer margin
-there diverged one or more rows of slim tentacles, hollow, soft,
-and retractile, like those of the actinia. From the margin to
-the centre there radiated more than a hundred lamell&aelig;, but
-these differed from the corresponding membranes of the modern
-animal, inasmuch as they were strengthened internally by a
-<span class="pagenum" id="Page_66">- 66 -</span>
-skeleton of hard carbonate of lime; and to this difference we owe
-their preservation. They stand out in high relief upon weathered
-specimens, showing the
-long, narrow chambers
-that ran between them.
-Their walls were once
-doubtless hung with
-countless vibratile cilia,
-and perhaps pierced each
-with its window, through
-which the currents of
-water passed in their
-ceaseless progress to and
-from the sea. At the
-centre lay the mouth,
-communicating by a
-short gullet with the
-stomach, which occupied
-the central portion of the
-animal, and from the
-outer walls of which the
-lamell&aelig; diverged like so many buttresses. In its youngest
-stages, the animal occupied the whole length of the cup, but,
-us it increased in size, it gradually retreated from the narrow
-end, which was then divided off by a thin calcareous membrane.
-At each successive stage of its growth, a new membrane
-was added, each further and further from the lower
-end, so that eventually the creature left below it a series of
-empty chambers all firmly built up. Thus, in a specimen
-six or eight inches long, there would in reality only be a small
-part tenanted&mdash;in fact merely the upper floor&mdash;all the lower
-storeys remaining silent and uninhabited. The house of this
-old-world architect differed widely in one respect from human
-dwellings. Man begins his basement story of the same dimensions
-<span class="pagenum" id="Page_67">- 67 -</span>
-as those that are to succeed it, or, if any difference is
-made at all, the upper floors are built each less than the one
-below it, so that the whole structure tapers upward to a point,
-as in the Pyramids. But the cyathopsis reversed this latter
-process; it inverted the cone, commencing the smallest chamber
-at the bottom, and placing the widest at the top. Indeed,
-one is sometimes puzzled to conjecture how so bulky a building
-could be securely poised on so narrow a basis, and it is certainly
-difficult to see how the creature could move about with
-such a ponderous load to drag along. The snail carries his
-house on his back, yet it is a slim structure at the best; but
-the cup-coral must not merely have carried his house, but some
-dozen or two of old ones strung one after another to his tail.
-Perhaps, though free to move about and try change of residence
-in its youthful days, the creature gradually settled down in life,
-and took up its permanent abode in some favourite retreat, the
-more especially as in process of time it became what we should
-call a very respectable householder.</p>
-
-<p>Allied to the cyathopsis is another and still more beautiful
-coral, described so long ago as the latter part of the seventeenth
-century by the Welsh antiquary and naturalist, Lhwyd,
-under the name of <i>Lithostrotion</i>. Although many perfect
-specimens of it have been found, and it is usually as well preserved
-as any of its congeners, men of science have been sadly
-at a loss what to call it. Four or five synonyms may be found
-applied to it in different works on pal&aelig;ontology. There seems
-now, however, a tendency to return to the name that old
-Lhwyd gave it two centuries ago; the family to which it
-belongs, and of which it is the type, has accordingly been
-termed the <i>Lithostrotionid&aelig;</i>, and the species in question <i>Lithostrotion
-striatum</i> (<a href="#fig17">Fig. 17</a>). It differed from the cyathopsis in
-several respects, but chiefly in this, that it lived in little congregated
-groups or colonies, whereas the cyathopsis, like our
-own actinia, dwelt alone.</p>
-
-<p><span class="pagenum" id="Page_68">- 68 -</span></p>
-
-<div class="figleft" id="fig17" style="width: 150px;">
-  <img src="images/fig17.png" width="150" height="250" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 17.</span>&mdash;Lithostrotion striatum.</div>
-</div>
-
-<p>Each of these colonies was formed of a cluster of hexagonal,
-or rather polygonal pillars, fitting closely into each other, like
-the basaltic columns of Fingal's Cave, and
-springing from a common base at the sea
-bottom.<a id="FNanchor_30" href="#Footnote_30" class="fnanchor">[30]</a> Each pillar constituted the
-abode of a single animal, and resembled
-generally the stalk of the cyathopsis. It
-had the same minute diverging partitions
-running from the outer walls towards the
-centre, and the same thin diaphragms,
-which, stretching horizontally across the
-interior of the column at short intervals,
-marked the successive stages of the animal's
-growth. Within these partitions,
-which vary from forty to eighty in number,
-there runs an inner circular tube
-with thin lamell&aelig; and diaphragms. The
-exterior of the columns is ribbed longitudinally by a set of long
-fine stri&aelig;, which give somewhat the appearance of the fluting
-on a Corinthian pillar. The columns, moreover, are not straight,
-but have an irregular, wrinkled outline, so that, by a slant light,
-they look like some old pillar formed of many layers of stone,
-the joints of which have wasted away, producing an undulating
-profile in place of the original even one. But in these ancient
-coral columns there is no blunted outline, no worn hollow;
-the sculpturing stands out as sharp and fresh, and the wavy
-curves as clearly defined, as though the creature had died but
-yesterday. They resemble no order of human architecture,
-save faintly, perhaps, some of the wavy outlines of the Arabesque.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_30" href="#FNanchor_30" class="label">[30]</a> Sir Roderick Murchison figures in his <i>Siluria</i>, p. 282, a gigantic specimen, which
-measured two feet four inches in width.</p>
-
-</div>
-
-<p>Despite all the improvements and inventions of modern
-times, classic architecture has made no progress since the days
-of Pericles. All that we do now is but to reproduce what the
-<span class="pagenum" id="Page_69">- 69 -</span>
-Greeks created 2000 years ago, and he is reckoned the best
-architect who furnishes the best imitation. Our architects
-might find some useful hints, however, by studying the lowlier
-orders of nature. They would see there patterns of beauty far
-more delicate than the Grecian capital, and more light and airy
-than the Gothic shaft. And whether or not they could found
-a new order of architecture, they could not fail to discover
-many modifications and improvements upon some of the old.
-They could not readily light upon a more graceful form than
-that of the lithostrotion, would they but picture it as it grew at
-the bottom of the old carboniferous sea. A group of hexagonal
-pillars, firmly compacted together like those of the Giant's
-Causeway, or Fingal's Cave, rose from a white calcareous pediment,
-as columns from the marble steps of an Athenian temple.
-Each side of the pillar had a wavy undulating surface, delicately
-fluted by long slender stri&aelig;, the whole being so arranged that
-the convexities of one surface fitted into the sinuosities of the
-adhering one. Each pillar was crowned above by a capital,
-consisting of the soft vibratile tentacles of the animal, that hung
-over like so many acanthus leaves. Of the form of these
-tentacles, their design and grouping, we know nothing save
-what may be gathered from the analogy of living corals. There
-can be little doubt, however, that, like the flower-shaped buds
-of the existing reef-building polyps, they must have been eminently
-beautiful, and in strict keeping with the graceful column
-which they crowned.</p>
-
-<p>Another kindred form was that known as the <i>lithodendron</i>.
-It, too, grew in colonies, and seems to have closely resembled
-the last, save that the pillars, in place of being six-sided, were
-round. I have seen a bed of these corals several yards in
-extent, and seven or eight inches deep, where the individuals
-were closely crowded together, so as to resemble a series of
-tobacco-pipe stems, or slim pencils set on end. The tubes,
-however, were not all quite straight; many being more or less
-<span class="pagenum" id="Page_70">- 70 -</span>
-curved, and sometimes crossing their neighbours obliquely. The
-internal arrangement was on the same plan as in the two previous
-corals. The same numerous partitions ran from the
-exterior wall towards the central tube, the same thick-set diaphragms
-crossed the entire breadth of the column, imparting
-the same minute honey-combed appearance to a cross section.
-The exterior of the column (in <i>L. fasciculatum</i>) was likewise
-traversed by the same longitudinal stri&aelig;.</p>
-
-<p>Both these corals seem to have been <i>fissiparous</i>, that is to
-say, they propagated by splitting into two parts, each of which
-formed the base of a new column with a new animal. The evidence
-for this statement rests on the fact, that many of the tubes
-are seen to bifurcate in their course, so that two new tubes
-are produced equal in size and completeness to the old one from
-which they proceed. Another mode of generation which, in at
-least its earlier stages, would produce a somewhat similar appearance
-is called <i>gemmation</i>, and consists in the protrusion of a bud
-or gemmule from the side of the animal, which shortly develops
-into a new and perfect individual. It is probable, however, that
-the ordinary mode of propagation among these old corals was the
-usual one by impregnated ova. These ova, like those of our sea-anemones,
-were probably generated within the partitions, between
-the central stomach and the outer wall, whence they passed down
-into the stomach, and were ejected by the mouth of the parent
-as little gemmules, furnished with the power of locomotion by
-means of vibratile cilia. Some of the <i>Medusa</i> family possess
-this three-fold mode of propagation; but, in all, the last-mentioned
-is the most usual.</p>
-
-<p>Has the reader ever stretched himself along the shore, while,
-perhaps, a July sun blazed overhead, and a fitful breeze came
-over the sea, just strong enough to chase ashore an endless
-series of rippling wavelets, and breathe over his temples a
-delicious and refreshing coolness? Thus placed, and gazing
-dreamily now, perchance, at the distant sails like white specks
-<span class="pagenum" id="Page_71">- 71 -</span>
-along the boundary line of sea and sky; now at the gulls
-wheeling in broad circles through the air, and shooting swift
-as arrows down into the blue water, he must often have turned
-to look for a little at the sand which, heaped up in little mounds
-around him, formed a couch well-nigh as soft as the finest
-down. Many a varied fragment entered into the composition
-of that sand. Mingled among the minuter quartzy particles
-lay scores of shells, some with the colour not yet faded, and the
-valves still together&mdash;the delicate tellina, with its polished surface,
-and its flush of pink; the cardium with its strong white
-plaited sides, and the turritella with its circling spire; some
-were worn down and sorely effaced, others broken into fragments
-by the ceaseless grinding of the waves. It was pleasant
-labour in such a sultry noon to pick out the shells of one species
-in all stages of decay. The <i>Trochus lineatus</i>, or Silver Willie,
-as young ramblers by the sea-shore love to call it, showed
-well the process of destruction. The perfect shell, cast ashore,
-perhaps, by the last storm, and still uninjured by the tides,
-displayed its russet epidermis, or outer skin, covered with
-fine brown zig-zag lines, running across the whorls from the
-creature's wide pearl-lined mouth to the apex. A second shell
-exhibited a surface that had begun to suffer; the point had
-been divested of its thin outer skin, and laid bare the silvery
-coating of pearl below. A third had undergone a still longer
-period of abrasion, for the whole of the epidermis was gone, and
-the surface gleamed with a pearly iridescence. In yet a fourth,
-this bright exterior had been in large measure worn away, and
-the blunted, rounded shell displayed the dull white calcareous
-substance of which it was mainly built up. But there were
-other objects of interest in the sand: bits of tangle, crusted
-over with a fine net-work of gauze, and fragments of thin
-leaf-like membrane, consisting of a similar slender network
-known popularly as the <i>sea-mat</i>, occasionally turned up
-among the pebbles and shells. No one who met with these
-<span class="pagenum" id="Page_72">- 72 -</span>
-organisms for the first time could fail to be struck with the
-extreme delicacy of finish, if one may so speak, that characterizes
-them. And yet he might be puzzled to know what to
-make of them. The leaf-like membrane, at a first glance, looks
-not unlike some of the flat-leaved alg&aelig;, and such the observer
-might readily take them to be. Such, too, they were long
-regarded by naturalists; but a more careful examination of
-them showed that the so-called plants really belonged to the
-animal kingdom, and that the supposed leaves were, in truth,
-the organic dwelling-places of minute zoophytes, of which many
-hundreds lay grouped together on every square inch. For
-many years these little creatures were called "celliferous corallines,"
-and classed among the polypi, that great tribe which has
-its representatives in every ocean, from the coral reefs of the
-Pacific to the little bell-shaped <i>hydra</i> amid the tangle of our
-own seas. But the microscope&mdash;that lamp which lights us into
-the inner recesses of nature&mdash;revealed at last their true character.
-Fixed to one spot, living in communities, and exceedingly
-minute, in short, with many of the outward features of the
-true corallines, they were yet found to possess a structure so
-complex and highly organized, as to entitle them to rank among
-the higher tribes of the invertebrate animals, and they are now
-accordingly pretty generally subjoined to the mollusca, under
-the name of <i>Bryozoa</i>.</p>
-
-<p>Each bryozoon consists externally of a single horny or calcareous
-cell, sometimes furnished with a valve-like lid that folds
-down when the animal withdraws itself. When danger is
-past, and the creature begins again to emerge, the upper parts,
-which were drawn in like the inverted finger of a glove, are
-pushed out until a series of tentacles, covered with minute hair-like
-bodies, called cilia, are expanded. The vibratile motion of
-these cilia causes a constant current in the direction of the
-mouth, which lies in the centre of the hollow whence the tentacles
-spring; animalcules are in this way brought in rapid
-<span class="pagenum" id="Page_73">- 73 -</span>
-succession within reach of the mouth, and form a never-failing
-source of nourishment. The interior is greatly more complex
-than that of the <i>polypi</i>. The stomach is connected above with
-a cavity like the gizzard of a bird, furnished with pointed sides,
-which serve to triturate the food before it passes into the
-stomach. There is also a distinct intestine. The muscular
-action for the expansion and retraction of the animal is highly
-developed, and the generative system is a greatly more complex
-one than that of the polyps already referred to. In short, however
-closely they might be thought to resemble the corals in
-outward form, their internal structure undoubtedly links them
-with a much higher type of organization, and justifies the naturalist
-in subjoining them as a sub-order to the mollusca.</p>
-
-<p>The cells are grouped at short intervals along a horny or calcareous
-substance, that sometimes encrusts sea-weed, or spreads out
-as a flat leaf-like membrane, or rises into cup-shaped or dendritic
-forms. A series of cells constituting a separate and independent
-colony, is termed a polypidom. The cells are further connected together
-by an external jelly-like integument, in which they are sunk,
-and which serves to secrete the calcareous particles from the sea.</p>
-
-<p>It is interesting to know that creatures so minute and yet so
-complexly organized, existed abundantly in the seas of the Carboniferous
-period. No less than fifty-four species are enumerated
-as having been obtained from the carboniferous strata of
-the British Islands, and scarcely a year passes without one or
-two new species being added to the list. The most frequent
-belong to the genus <i>Fenestella</i>, or little window, a name indicative
-of the reticulated grouping of the branches like the wooden
-framework of a window. Each of these branches, or interstices,
-as they are called, was more or less straight, being connected
-with that on either side by a row of transverse bars, just as the
-central mullion of an abbey window is connected with the flanking
-ones by means of cross-bars of stone. Not unfrequently
-some of the branches subdivide into two, as we saw to be the
-case among the cup-corals.</p>
-
-<p><span class="pagenum" id="Page_74">- 74 -</span></p>
-
-<div class="figcenter" id="fig18" style="width: 369px;">
-  <img src="images/fig18.png" width="369" height="198" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 18.</span>&mdash;<i>a</i>, Fenestella oculata (M'Coy),
-nat. size; <i>b</i>, magnified portion of the same.</div>
-</div>
-
-<p><a href="#fig18">Fig. 18</a> illustrates the relative
-disposition of these branches. In <i>a</i>, the natural size of the
-fossil is given; <i>b</i> is a portion of the same magnified, to show
-the form and arrangement of the ribs and cross-bars. Each
-rib is seen to have two sides separated by a rounded ridge.
-Along each side there runs a row of circular hollows or cells,
-every one of which once formed the abode of a distinct bryozoon.
-The back or inner surface of the branch, was ribbed and
-granulated irregularly, without any cells. The connecting bars
-or dissepiments have no cells, and served merely to bind the
-interstices together into one firm organically-united polypidom.
-Such fragments as that here figured are the most usual traces
-to be found of these animals among the carboniferous rocks.
-But perfect specimens are sometimes met with which show how
-delicate and graceful a structure the polypidom of some of the
-fenestell&aelig; must have been. All these bars sprung from a common
-point as their basis, and rose up in the form of a cup. It
-was, in short, a cup of network, hung with waving tentacles
-and quivering cilia. I have seen some dissections of flowers
-in which all the softer tissue had been removed, so as to present
-only the harder veinings of the leaves with their thousand
-ramifications bleached to a delicate whiteness. Out of these
-<span class="pagenum" id="Page_75">- 75 -</span>
-skeleton-leaves there were formed groups of lilies, crocuses,
-geraniums, and roses, like patterns of the finest gauze. Some
-of the larger-stemmed leaves that had been artistically moulded
-into a tulip form, seemed not inaptly to represent the general
-contour of the skeleton of the old carboniferous fenestella.</p>
-
-<p>An allied form is called the <i>Retepora</i>. It differed from the
-previous organism in having the ribs not straight, but irregularly
-anastomosing, that is, running into and coalescing with
-each other, so as to form a close network with oval interspaces,
-like a piece of very minute wire-fence. Each of these wavy
-libs was completely covered over on one side with oval pores or
-cells, which, as in the fenestella, formed the abode of the living
-animals. The differences in organization between the animal
-of fenestella and that of retepora can, of course, only be matter
-of speculation. The general structure in both must, however,
-have been pretty much alike. The former genus is now no
-longer extant, but the latter, which was ushered into the world
-during the era of the Old Red Sandstone, still lives in the
-deeper recesses of the ocean, and manifests in its structure and
-habits the leading characteristics of bryozoan life.</p>
-
-<p>What rambler among old lime-quarries is not familiar with
-the stone-lily, so abundant an organism in most of the Pal&aelig;ozoic
-and many of the Secondary limestones? In some beds of the
-carboniferous limestone its abundance is almost incredible. I
-have seen a weathered cliff in which its remains stood out in
-bold relief, crowded together, to use an expression of Dr. Buckland's,
-"as thickly as straws in a corn-rick." The joints of
-this animal, known now as <i>entrochi</i> or wheel-stones, forced
-themselves on the notice of men during even the middle ages,
-and an explanation was soon found for their existence. From
-their occurring largely about the coast at Holy Island, they
-were set down as the workmanship of Saint Cuthbert.</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent6">"On a rock by Lindisfarne,</div>
-    <div class="verse indent1">St. Cuthbert sits and toils to frame</div>
-    <div class="verse indent1">The sea-born beads which bear his name."</div>
-  </div>
-</div>
-</div>
-<p><span class="pagenum" id="Page_76">- 76 -</span></p>
-<p>The aged saint was represented as employing his nights in this
-highly intellectual task, sitting on a lone rock out in the sea,
-and using an adjacent one as his anvil.</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent0">"Such tales had Whitby's fishers told,</div>
-    <div class="verse indent1">And said they might his shape behold,</div>
-    <div class="verse indent2">And hear his anvil sound,</div>
-    <div class="verse indent1">A deaden'd clang,&mdash;a huge dim form</div>
-    <div class="verse indent1">Seen but, and heard, when gathering storm</div>
-    <div class="verse indent2">And night were closing round."</div>
-  </div>
-</div>
-</div>
-
-<p>But these wheel-stones were not the only geological curiosities
-to which this simple mode of explanation was applied. In the
-same storied neighbourhood there occur in considerable numbers
-the round whorled shells of the genus <i>Ammonites</i>. These were
-gravely set down as petrified snakes wanting the head, and
-their petrifaction and decapitation were alike reverently ascribed
-to the power of the sainted abbess of Whitby.</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent14">"They told</div>
-    <div class="verse indent1">How of a thousand snakes each one</div>
-    <div class="verse indent1">Was changed into a coil of stone</div>
-    <div class="verse indent1">When holy Hilda prayed."</div>
-  </div>
-</div>
-</div>
-
-<p>The stone-lily belonged to that large class of animals ranked
-together as <i>Echinodermata</i>, a name
-taken from one of the leading subdivisions
-of the group&mdash;the <i>Echini</i> or sea-urchins.
-It seems to have been one of
-the earliest forms of life upon our
-planet, its disjointed stalks occurring
-largely in some of the oldest Silurian
-limestones. In the Secondary ages it
-began gradually to wane, until at the
-present day its numerous genera appear
-to be represented by but the <i>comatula</i>
-and the <i>pentacrinite</i>, two tiny forms
-that float their jointed arms in the profounder
-depths of the sea.</p>
-
-<div class="figleft" id="fig19" style="width: 156px;">
-  <img src="images/fig19.png" width="156" height="247" alt="" />
-  <div class="figcaption">Fig. 19.&mdash;<i>a</i>, Cyathocrinites
-planus. <i>b</i>, Encrinal stem,
-with uniform joints. <i>c</i>,
-Single joint, or wheelstone.</div>
-</div>
-
-<p>As its name imports, the stone-lily
-or encrinite had a plant-like form. It consisted of a long stalk
-<span class="pagenum" id="Page_77">- 77 -</span>
-fixed by the lower end to the sea-bottom, and supporting above
-a lily-shaped cup, in which were placed the mouth and
-stomach (<a href="#fig19">Fig. 19 <i>a</i></a>). The stalk consisted of circular plates (some
-of them not so thick as a sixpence), having their flat sides
-covered with a set of minute ribs radiating from the centre,
-and so arranged that the prominent lines of one joint fitted
-into corresponding depressed lines of the adhering ones. The
-centre of each joint was pierced by a small aperture, like the
-axle of a wheel, which, when the stem was entire, formed
-part of the long tube or canal that traversed the centre of the
-stem, and served to convey aliment to the remotest part of the
-animal. Detached joints have thus a wheel-like appearance
-(Fig 19 <i>c</i>), and hence their common name of wheel-stones. In
-many species they were not all of the same diameter, but alternately
-larger and smaller, as if the stem had been made up of a tall
-pile of sixpences and threepenny pieces in alternate succession.
-This variation gives a remarkably elegant contour to the stalk.
-The flower-shaped cup consisted of a cavity formed of geometric
-calcareous plates, and fringed along its upper margin with thick
-calcareous arms, five or ten in number, that subdivided into
-still more slender branches, which were fringed along their
-inner side with minute <i>cirri</i> or feelers. All these subdivisions,
-however fine, were made up of calcareous joints like the stalk,
-so that every stone-lily consisted of many thousand pieces, each
-perfect in its organization and delicate in its sculpturing. One
-species peculiar to the Liassic formation (<i>Extracrinus Briareus</i>)
-has been calculated to contain one hundred and fifty thousand
-joints!</p>
-
-<p>The effect of this minute subdivision was to impart the most
-perfect flexibility to even the smallest pinnule. The flower
-could instantly collapse, and thus the animals on which the
-encrinite preyed were seized and hurried to the central mouth.
-The lower part of the cup, or <i>pelvis</i>, as it is called, contained
-the stomach and other viscera, and communicated with the
-<span class="pagenum" id="Page_78">- 78 -</span>
-most distant part of the body by the central alimentary
-canal.</p>
-
-<p>But while this continued the general type on which the
-encrinites were constructed, it received many minor modifications.
-These were effected chiefly on the form and arrangement
-of the cup-shaped body and its appendages, and form now
-the basis of our classification into genera and species. Thus,
-in the genus known as <i>Platycrinus</i>, the lower part of the cup
-consists of two rows of large hexagonal or polygonal plates
-fitting closely into each other, while the upper part rises into a
-dome-like elevation formed of smaller polygonal plates, which
-have often a mammillated exterior. The arms sprang from the
-widest part of the body where the large pieces of the lower cup
-were succeeded by the small pieces of the upper. In an Irish
-species (<i>P. triacontadactylus</i>), the arms subdivided into thirty
-branches, each fringed with minuter pinnules and folding round
-the central elevated spire, as the petals of a crocus close round
-its central pistil. In another encrinite (<i>Poteriocrinites conicus</i>),
-the cup was shaped like an inverted cone, the point being affixed
-to the summit of the stalk, and the broad part throwing out
-from its edges the lateral arms. The <i>Woodocrinus macrodactylus</i>
-had such gigantic arms as well-nigh to conceal the position
-of the cup, which relatively was very small in size. They
-sprang from near the base of the cup, five in number, but soon
-subdivided each into two, the ten arms thus produced being
-closely fringed with the usual jointed calcareous pinnules.</p>
-
-<p>The size and arrangement of the joints of the stalk also
-differed in different genera. The Woodocrinus and many others
-had them alternately broad and narrow, like a string of buttons
-of unequal sizes; others had all the joints of the same relative
-diameter (<a href="#fig19">Fig. 19 <i>b</i></a>), so that the stalk tapered by a uniform line
-from base to point. I may add, that on some specimens of both
-these kinds of stems, we can notice small, solitary <i>areol&aelig;</i>, or
-scars, which may mark the points of attachment of cirri, or little
-<span class="pagenum" id="Page_79">- 79 -</span>
-tentacles, like those on the stem of the existing Pentacrinite.
-But though each of these varieties of stem is peculiar to a
-certain number of genera, there is often so little distinction
-among the detached fragments, that it becomes difficult, indeed
-impossible, to assign each to its appropriate individual. We
-may say, that certain encrinal stalks could not have belonged
-to a poteriocrinus, and others could never have fitted on to
-the cup of an actinocrinus; but we cannot often say positively
-to what species they actually would have fitted. There can,
-however, be no doubt about their being encrinites, and so we
-have in them a safe and evident test for the origin of the rock
-in which their remains occur. But to this I shall afterwards
-revert.</p>
-
-<p>In the meantime, I would have the reader to fix the stone-lily
-in his memory as peculiarly and emphatically a marine
-animal, dwelling probably in the deeper and stiller recesses of
-the ocean, like the Pentacrinite of existing times. Let him try
-to remember it, not in the broken and sorely mutilated state in
-which we find it among the blocks of our lime-quarries, but as
-it must have lived at the bottom of the carboniferous seas.
-The oozy floor of these old waters lay thickly covered with
-many a graceful production of the deep, submarine gardens of</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent0">"Violet, asphodel, ivy, and vine-leaves, roses and lilies,</div>
-    <div class="verse indent1">Coral and sea-fan, and tangle, the blooms and the palms of the ocean."</div>
-  </div>
-</div>
-</div>
-
-<p>Amid this rich assemblage of animated forms, the stone-lilies
-must have occupied a conspicuous place. Grouped in thick-set
-though diminutive forests, these little creatures raised their
-waving stems, and spread out their tremulous arms, like beds
-of tulips swaying in the evening air. Their flower like cups,
-so delicately fringed, must have presented a scene of ceaseless
-activity as they opened and closed, coiling up while the animal
-seized its prey, or on the approach of danger, and relaxing again
-when the food had been secured, or when the symptoms of a
-coming enemy had passed away. Only from this animated
-<span class="pagenum" id="Page_80">- 80 -</span>
-action would one have been apt to conjecture these organisms
-to be other than vegetable. They lived, too, not in detached
-patches, like the tulip-beds of the florist, but, to judge from the
-abundance of their remains, must have covered acre after acre,
-and square mile 'after square mile, with a dense growth of living,
-quivering flowers. As one individual died out, another took its
-place, the decaying steins and flowers meanwhile falling to
-pieces among the limy sediment that lay thickly athwart the
-sea-bottom, and contributing, by their decay and entombment,
-to build up those enormous masses of rock, known as the mountain-limestone,
-which stretch through Yorkshire and the central
-counties into Wales.</p>
-
-<p>In addition to the stone-lilies, the carboniferous rocks contain
-the remains of several other kinds of <i>Echinodermata</i>. Some of
-them find their nearest modern analogues among the sea-urchins
-so common on our shores; but I pass on to notice another very
-interesting class of fossils known by the name of <i>Crustacea</i>, and
-still abundantly represented, the crab and lobster being familiar
-examples.</p>
-
-<p>The Crustacea, so called from the hard crust or shell which
-envelops them, form, with all their orders and genera, a very
-numerous family. They are of interest to us as containing
-among their number some of the oldest forms of life. Away
-down in the lower Silurian rocks, among the most ancient
-fossiliferous strata, we find the crustacean with its armour of
-plates and its prominent sessile eyes set round with lenses, still
-visible on the stone. Thus, on the first page of the stony
-records of our planet's history are these primeval organisms
-engraved. In some localities, where oxide of iron is largely
-present, they are coated with a bright yellow efflorescence, and
-stand out from the dull grey stone like figures embossed in gold.<a id="FNanchor_31" href="#Footnote_31" class="fnanchor">[31]</a><span class="pagenum" id="Page_81">- 81 -</span>
-On all the subsequent leaves of this ancient chronicle, we can
-detect the remains of crustacean life, and many tribes still
-swarm in our seas and lakes. It is interesting, however, as
-marking the onward progress of creation, to notice that, though
-this great family has continued to live during all the successive
-geological ages, its members have ever been changing, the older
-types waning and dying out, while newer genera rose to supply
-for a time their place, and then passed away before the advance
-of other and yet later forms. The trilobites that meet us on
-the very verge of creation, swarmed by millions in the seas of
-the Silurian ages, diminished gradually during the era of the
-Old Red Sandstone, and seem to have died out altogether in
-the times of the Coal. In no ocean of the present day is a
-trace of any of their many genera to be seen. The <i>decapods</i>,
-of which our common crab is a typical form, began
-to be after the trilobites had died out. In all the subsequent
-eras they gradually increased in numbers, and at the present
-day they form the most abundant order of crustacean life.
-The history of these two divisions, to adopt Agassiz's mode
-of representation, may be illustrated by two long tapering bands
-like two attenuated pyramids. The one has its broad base resting
-upon the existing now, and thinning away into the past,
-till at last it comes to a point. At a little interval the apex of
-the other begins, and gradually swells outward as it recedes,
-till the wide base terminates at the first beginnings of life.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_31" href="#FNanchor_31" class="label">[31]</a> Such is the aspect of the organisms in some of the Silurian sandstones near Girvan.
-I have seen the same bright tint on a set of fossils from the Llandeilo flags of Wales, and
-from the slates of Desertcreat, Ireland, and have disinterred similarly gilded shells from
-the vertical greywack&egrave; slates of the Pentland Hills and Peeblesshire. Nothing can be
-more beautiful than the aspect of these fossils when first laid open, but the bright gleam
-eventually passes away on exposure.</p>
-
-</div>
-
-<p>But there are also some orders that would be best illustrated
-by a long line of nearly uniform breadth, extending from
-the first geologic periods to the present day. In other words,
-they seem to have retained during all time pretty much the
-same amount of development. I shall confine my notice of the
-carboniferous Crustacea to the description of a single genus
-<span class="pagenum" id="Page_82">- 82 -</span>
-belonging to a family that seems to have begun during the period
-of the Lower Silurian, and still flourishes abundantly in existing
-waters.</p>
-
-<div class="figcenter" id="fig20" style="width: 285px;">
-  <img src="images/fig20.png" width="285" height="290" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 20.</span><br />
-  <div style="padding-left: 2em;">
-  1. Carboniferous cypris, nat. size, and magnified.<br />
-  2. Recent cypris, highly magnified.<br />
-  3. Carboniferous king-crab (<i>Limulus trilobitoides</i>).
-  </div>
-</div>
-</div>
-
-<p>The genus to which I refer is a well-known fossil in some parts of
-the Coal-measure series, and has been named <i>Cypris</i>. The shells
-of <i>cyprides</i> are very minute, considerably less than the heads of
-small pins (<a href="#fig20">Fig. 20-1</a>). They can be seen quite well, however,
-without the use of a magnifying power. In shape they resemble
-beans, and when seen scattered over a slab of shale, look much
-liker seeds than the relics of animal life. Yet, under this simple
-exterior, they concealed a somewhat complex organization. The
-little bean-shaped shells,
-which are all that now
-remains to us of their
-structure, formed the
-crust or outer shell in
-which their viscera were
-contained, and answered
-to the massive carapace
-and segments of the
-crab. They consisted of
-two valve-like cases fitting
-to each other, so as
-to resemble the united
-valves of a bivalve shell.
-From the upper end
-there were protruded
-through the opening between
-the valves a pair
-of slim jointed antenn&aelig;, each furnished at its point with
-a bundle of minute hair-like cilia (<a href="#fig20">Fig. 20-2</a>). These, when
-set in rapid motion, served to impel the creature through
-the water. The legs, four in number, were encrusted with
-the same hard membrane, and had the same jointed structure
-<span class="pagenum" id="Page_83">- 83 -</span>
-as those of our common shrimps and crabs. The foremost
-pair were pointed like the antenn&aelig; with fine hairs, the
-incessant action of which assisted the animal in swimming. Of
-the little, confluent, sessile eyes, the delicate branchia or gills,
-and all the complex internal structure of the nervous, circulating,
-and other systems, no trace has survived on the stone; but
-enough of the general external form is left to show us the true
-affinities of these organisms in the animated world of the present
-time. By studying the forms and habits of the cyprides
-that swarm in some of our ponds and marshes, a just conception
-is obtained of the structure and habitat of the animals
-that once occupied the minute bean-shaped shells, which
-lie by millions among the shales of the Carboniferous system.
-From such a comparison we infer, that just as the
-cyprides of to-day are fresh-water animals abounding among the
-green slime of stagnant pools, so, in past ages, they must have
-preserved with the same organization the same habits. And
-thus we arrive at the important conclusion that the strata in
-which the remains of cyprides abound must have been deposited
-in lakes or rivers. This gives us a key by which to interpret
-some of the changes of a geological system, and the ancient
-physical revolutions of large tracts of country.</p>
-
-<p>The shales of the coal-measures sometimes contain the cypris
-cases in such abundance as to derive therefrom a sort of fissile
-structure. It should be borne in mind, however, that each
-animal may during its lifetime have possessed in succession
-several of these cases. Among the shell-bearing molluscous
-animals, the little shell which contains the creature in its
-youngest stages remains ever after as an integral part of the
-outer calcareous case. As the inhabitant grows, it continues to
-add band after band to the outer edge of the shell, each of
-which, whilst preserving the general symmetry and proportions
-of the whole structure, increases its dimensions in every way.
-Among the univalves, such, for example, as the turritella, so
-<span class="pagenum" id="Page_84">- 84 -</span>
-common on our shores, the layers of growth succeed each other
-like the steps of one of those long spiral stairs that our feudal
-forefathers loved to build from the court-yard to the watch-tower
-of their castles. Each new layer exceeding in bulk its
-predecessors, adds a new step to the ascending pile, and thus
-the ever-widening mouth winds spirally upwards around the
-central pillar. The bivalves exemplify the same principle. The
-successive additions are made in a crescent form to the outer
-edges, and form those prominent concentric ridges so conspicuous
-on many of our commoner shells, such, for instance, as some
-of those in the genera <i>Astarte</i> and <i>Venus</i>.</p>
-
-<p>But the architecture of the Crustacea (and, of course, that of
-the cyprides) is conducted on a very different principle. Their
-houses admit of no additions or enlargements, and so, when
-the animals find themselves getting somewhat straitened, they
-retire to a sheltered spot, and there, separating the walls that
-hem them in, crawl out like soft lumps of dough. The outer
-membrane of the moulted animal quickly acquires strength and
-hardness, and in a day or two the renovated creature is as
-healthy and vigorous as ever. In this process it is not merely
-an external shell, like that of a mollusc, which is thrown off, but
-a veritable skin, so that when the old shell is abandoned it frequently
-could not be detected on a first glance to be empty, the
-outer crust of every leg and joint, and sometimes even of thin
-bristles, remaining just as in the living animal.</p>
-
-<p>It is not unlikely that this process of moulting takes place
-annually in most of the Crustacea, so that if we suppose a fossil
-member of the group to have lived six years, it would have left
-six crusts to be entombed in any deposits that might be forming
-at the time. Of course there would be many chances against
-all the six being preserved, but the possibility of at least several
-of them becoming fossilized should be borne in mind when we
-speculate on the abundance of such organisms in any geological
-formation.</p>
-
-<p><span class="pagenum" id="Page_85">- 85 -</span></p>
-
-<p>I might refer to another very interesting group of crustacean
-animals known as the <i>Limuli</i>, or king-crabs, of which there were
-at least three representatives during the times of the English Carboniferous
-system (<a href="#fig20">Fig. 20-3</a>). They are remarkable chiefly for
-their large crescent-shaped shield, their long sword-like tail, and
-their double pair of eyes, of which the outer ones are large, sessile,
-and compound, like those of the trilobites, while the middle
-pair are small, simple, and set close together on the forehead, like
-those of the single-eyed Cyclops in the old mythology. Altogether,
-with their shields, swords, watchful waking eyes, strong
-massive armour, and great size (for some of them measure two
-feet in length), they form a most warlike genus.</p>
-<hr class="chap x-ebookmaker-drop" />
-
-<div class="chapter">
-<p><span class="pagenum" id="Page_86">- 86 -</span></p>
-
-<h2 class="nobreak" id="CHAPTER_VI">CHAPTER VI.</h2>
-</div>
-
-<div class="blockquot">
-
-<p>Carboniferous fauna continued&mdash;George Herbert's ode on "Man"&mdash;His idea of creation&mdash;What
-nature teaches on this subject&mdash;Molluscous animals&mdash;Range of species in time
-proportionate to their distribution in space&mdash;Two principles of renovation and decay
-exhibited alike in the physical world and the world of life&mdash;Their effects&mdash;The mollusca&mdash;Abundantly
-represented in the carboniferous rocks&mdash;Pteropods&mdash;Brachiopods&mdash;Productus&mdash;Its
-alliance with Spirifer&mdash;Spirifer&mdash;Terebratula&mdash;Lamellibranchs&mdash;Gastropods&mdash;Land-snail
-of Nova Scotia&mdash;Cephalopods&mdash;Structure of orthoceras&mdash;Habits of living nautilus.</p>
-</div>
-
-<p><span class="smcap">Holy</span> George Herbert, in one of the most remarkable odes
-of the seventeenth century, sang quaintly, yet nobly, of the dignity
-of man. He looked into the design and nature of the
-human heart, and saw there a palace that had been built for
-the abode of the Eternal. Deserted though it might be, broken
-down and in ruins, yet there still lingered a trace of its ancient
-glory, and the whole material world still testified to its inherent
-greatness. He looked abroad on the face of nature, and saw,
-in all its objects and all its movements, a continued ministration
-to man.</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent8">"For us the windes do blow;</div>
-    <div class="verse indent1">The earth doth rest, heav'n move, and fountains flow.</div>
-    <div class="verse indent4">Nothing we see, but means our good,</div>
-    <div class="verse indent4">As our delight, or as our treasure;</div>
-    <div class="verse indent1">The whole is, either our cupboard of food,</div>
-    <div class="verse indent8">Or cabinet of pleasure.</div>
-  </div>
-  <div class="stanza">
-    <div class="verse indent8">"The starres have us to bed;</div>
-    <div class="verse indent1">Night draws the curtain, which the sunne withdraws;</div>
-    <div class="verse indent4">Musick and light attend our head.</div>
-    <div class="verse indent4">All things unto our flesh are kinde</div>
-    <div class="verse indent1">In their descent and being; to our minde</div>
-    <div class="verse indent8">In their ascent and cause."</div>
-  </div>
-</div>
-</div>
-<p><span class="pagenum" id="Page_87">- 87 -</span></p>
-<p>The idea is a very natural one, and is consequently as old as
-man himself. Human vanity is soothed by the reflection that
-all this varied world, with its countless beauties, has been designed
-and arrayed solely for the use of man. And yet, if we but
-think of it, such a view of creation, however natural and pleasing,
-is at the best but a narrow and selfish one. It assuredly
-finds no response in nature, and grows more and more out of
-fashion the further our investigations proceed. Nature teaches
-us that long ere man appeared upon the earth there were successive
-generations of living things just as now; that the sun
-shone, and the waves rolled, and the wind blew, as they do to-day;
-and that, on as lovely a planet as that whereon we dwell,
-there lay forests and prairies nursing in abundance animals of
-long-extinct forms; lakes and rivers, haunted by creatures that
-find no representatives now; and seas teeming with life, from
-the minute infusory up to the most unwieldy icthyosaur, or the
-most gigantic cetacean. And all this, too, ere a reasoning,
-intelligent being had been numbered among terrestrial creatures,
-and when, perhaps, each successive creation was witnessed by
-none save those "morning stars who sang together, and those
-sons of God who shouted for joy." The delight and comfort
-of the human race formed, doubtless, one of the many reasons
-why this globe was so bountifully garnished.<a id="FNanchor_32" href="#Footnote_32" class="fnanchor">[32]</a> But the workmanship
-of a Being infinitely wise, and good, and powerful,
-could hardly have been other than complex and beautiful.
-That symmetry and grace which we see running as a silver
-thread through every part of creation, forms one of the characteristics
-<span class="pagenum" id="Page_88">- 88 -</span>
-of the Almighty's mode of working. From the Fountain
-of all Beauty nothing unseemly or deformed can proceed.
-And so we find, away back among the ages of the past, that,
-though the material world might be less complete, it was not
-less beautiful than now. Nay, those bygone millenniums stood
-higher in one respect, for the eye of God rested upon their
-unsullied glory, and he pronounced them very good; but these
-last ages of creation are dimmed and darkened, and that Eye
-now watches a world trodden down by the powers of evil.
-There is profound truth in the sublime allegory of Milton that
-represents Sin girt round with clamorous hell-hounds, and the
-two grisly forms sitting at the farthest verge of purity and light,
-to keep the gates of darkness and chaos. With the introduction
-of moral evil into our planet came the elements of deformity
-and confusion. The geologist can go back to a time ere yet
-the harmony of nature had been broken. The Christian looks
-forward to a day when that harmony shall be again restored,
-and when guilt with all its hideous train shall be for ever
-chased away from the abodes of the redeemed.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_32" href="#FNanchor_32" class="label">[32]</a> In connexion with this subject I have been often struck with a passage in St. Paul's
-Epistle to the Colossians, i. 10, "All things were created by him [Christ] and for [&#949;&#953;&#962;&mdash;with
-a view to, on account of] him." It is probable that these words, in their full meaning,
-cannot be understood by us. Yet they seem to point to Christ as at once the Creator,
-and himself the acme and design of creation; and perhaps they may contain what
-hereafter shall prove the key to the mystery of creation. On this impressive and difficult
-subject the reader should refer to the closing chapter of Hugh Miller's <i>Footprints of
-the Creator</i>. See also M'Cosh on <i>Typical Forms</i>, 2d edit. p. 531.</p>
-
-</div>
-
-<p>Such thoughts as these sometimes arise in the mind of one
-who labours much among organic remains. By no class of
-fossils are they more vividly suggested than by those which we
-come next to examine&mdash;the various tribes of molluscous animals.
-This results from the high antiquity of these organisms, and the
-similarity of type which they have manifested in all ages. In
-the very earliest geological periods they exhibited the same symmetry
-of external form as now, the same beauty of structure,
-and apparently the same delicacy of colour. Nay, so closely
-did they resemble their existing congeners that we are seldom at
-a loss as to their affinities, and can refer them to their places in
-the scale of creation, and sometimes even to genera still living.<a id="FNanchor_33" href="#Footnote_33" class="fnanchor">[33]</a></p>
-
-<div class="footnote">
-
-<p><a id="Footnote_33" href="#FNanchor_33" class="label">[33]</a> It must be admitted, however, that not a few of the identifications already made are
-somewhat suspicious The natural tendency is to perceive resemblances&mdash;a tendency
-which even the most rigid science sometimes fails to control.</p>
-
-</div>
-
-<p><span class="pagenum" id="Page_89">- 89 -</span></p>
-
-<p>The geological ages saw many strange types of creation.
-One era, in especial, furnished reptiles which united in their
-structure the snout of the porpoise, the head of the lizard, the
-teeth of the crocodile, the paddles of the whale, and the backbone
-of the fish. Some displayed the long pliant neck of the
-swan, and others careered through the air on wings like those
-of the bat. But the molluscous tribes have never exhibited
-such aberrant forms. The existing classes and orders of the
-naturalist are still the same as those which nourished during
-the successive geological periods. Hence their value as evidence
-of physical changes in the ancient world. Hence,
-too, the conviction, forced upon the mind of the observer,
-that the conditions for the support of life never deviated
-much from those now in operation; that in place of all the
-varied beauty of the world having arisen for the use of man, it
-existed millions of years ere the breath of life had been breathed
-into his nostrils; that in fine, man is but a new-comer, a creation
-of yesterday.</p>
-
-<p>There is another point suggested by the occurrence of
-mollusca in the Carboniferous system, to which it may be
-well to refer, namely, the curious, and as yet not wholly
-understood fact, that the range of animals in time is in some
-way proportionate to their range in space. In other words,
-it often happens (so often, indeed, as apparently to indicate a
-law) that the more widely diffused a genus is found to be at the
-present day, the farther back can we trace its remains into the
-geological ages. This fact probably depends upon causes, many
-of which are still unknown to us; but the following remarks
-may help the reader to a notion of the general bearings of the
-subject.<a id="FNanchor_34" href="#Footnote_34" class="fnanchor">[34]</a></p>
-
-<div class="footnote">
-
-<p><a id="Footnote_34" href="#FNanchor_34" class="label">[34]</a> The law is more especially exemplified by the mollusca, but it may eventually be
-found to characterize other classes. We, perhaps, see traces of it in the present distribution
-of the two most ancient orders of icthyic life&mdash;the placoids and ganoids.</p>
-
-</div>
-
-<p>In the profounder recesses of the ocean, the temperature
-<span class="pagenum" id="Page_90">- 90 -</span>
-remains more or less uniform all over the globe.<a id="FNanchor_35" href="#Footnote_35" class="fnanchor">[35]</a> In these
-undisturbed regions there occur, along with corals and other
-humble animals, many kinds of mollusca, such as terebratul&aelig;,
-crani&aelig;, scissurell&aelig;, &amp;c. These are very generally found not to
-be confined to one province or limited district, but to flourish
-in every sea from Hudson's Bay to Hindustan. One of the
-causes of this wide distribution is the uniformity of temperature
-that characterizes the depths in which they live. They
-can migrate from one ocean to another, from the torrid zone to
-the polar circle, without experiencing any destructive change in
-the thermal conditions of their element. And provided only they
-meet with no barrier in the form of a lofty submarine mountain
-chain or profound abyss, and can secure the requisite food in
-their journey, we know no reason why some of these shells may
-not thus extend themselves over wide areas. Of the two species
-of <i>rhynconella</i> now living, one inhabits the depths of the icy sea,
-the other enjoys the warmer waters that lave New Zealand. The
-species, in this case, seem (for the fact cannot yet be accepted
-as fully proved) to occupy a more limited area, while the genus
-has a larger range.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_35" href="#FNanchor_35" class="label">[35]</a> The stratum of constant temperature runs in a wave-like form from pole to pole. In the
-arctic and antarctic oceans it is found at a depth of 4500 feet, whence it slopes upwards
-so as to reach the surf ice at the temperate zone on both sides of the equator. It then
-gradually sinks down in the warmer regions, till at the equator it is 7200 feet below the
-sea-level. There are thus one tropical and two polar basins separated by two wave-like
-circles, or, as a geologist would say, three synclinal troughs separated by two anticlinal
-ridges.</p>
-
-</div>
-
-<p>Now, a genus widely diffused, and capable of enduring great
-differences in the temperature and other conditions of the ocean,
-would probably suffer least from any great physical changes.
-If all the sea at one locality were converted into land, the
-genus would be driven into other districts, and thrive as abundantly
-as ever; or, even supposing that it should become
-locally extinct, it would still be abundantly represented in
-other oceans of the globe. In the course of many ages, after
-<span class="pagenum" id="Page_91">- 91 -</span>
-many such slow revolutions in the configuration of land and
-sea, the genus might perhaps become greatly reduced in numbers,
-until at length some final elevation of the sea-bed, or
-other change, might cause its total extinction. In the <i>rhynconella</i>,
-we perhaps see one of these genera in its last stage.
-Any great change in northern latitudes would probably destroy
-the arctic species, and a similar change around New Zealand
-might gradually extinguish the southern one.</p>
-
-<p>Looking, then, from this point of view into the past history
-of life upon our planet, we see that such extinctions have often
-taken place. At first, many of these widely-diffused genera
-were created. They were represented by a large number of
-species as well as individuals, and ranged over all the oceans
-of the globe; but in tracing out their history, we mark one
-species after another passing away. Some of them lived for
-but a comparatively short period; others came in with the
-beginning and saw out the end of an entire geological system;
-but of all these early species there is not now a single one
-extant, though some of the genera still inhabit our seas. It is
-plain, therefore, that but for the operation of another principle,
-all the genera, too, would ere this have become extinct, for the
-whole can contain no more than the sum of its parts; and if these
-parts are destroyed the whole must perish simultaneously. As the
-species of certain genera died out, however, their places were from
-time to time filled up with new ones, yet the rate of increase became
-ever less and less than the rate of decrease, so that the numbers
-of such genera grew fewer with every successive period, and
-have reached their minimum in existing seas. There are instances,
-however, in which this ratio was reversed, the list of added
-species continually outnumbering that of the extinct, till the
-genus reached its maximum, when it either continued at that
-stage till the present day, or began slowly to decline.</p>
-
-<p>In the physical world around us, we behold a perpetual strife
-between the two great principles of renovation and decay. Hills
-<span class="pagenum" id="Page_92">- 92 -</span>
-are insensibly crumbling into valleys; valleys are gradually cut
-down, and their debris transported to the sea. Our shores bear
-witness to the slow but ever onward march of the ocean, whether
-as shattered cliff's worn by the incessant lashing of the
-surge, or as sand-banks and submerged forests that represent
-the wolds and holms of our forefathers. We mark, too, how
-the sediment thus borne into the main is sowing</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent0">"The dust of continents to be;"</div>
-  </div>
-</div>
-</div>
-
-<p>while the slow elevation of large tracts of country, or the sudden
-upheaval of others, shows us by how powerful an agency the
-balance of land and sea is preserved, and how sometimes the
-paroxysm of an hour may effect a mightier change than the
-wasting and decay of a thousand years. We choose to call these
-two principles antagonistic, because in their effects they are entirely
-opposite; yet there is no discordance, no caprice in their
-operation. Each works out its end, and the result is the harmony
-and stability of the face of nature.</p>
-
-<p>In the world of life, too, there seems to have been a double
-principle of decline and renewal. The natural tendency of
-species and genera, like that of individuals, has been towards
-extinction. Why it should be so we know not, further than
-that they are for the most part influenced by every change in
-physical geography. But they probably obey a still higher law
-which governs their duration, as the laws of vitality govern
-the life of an individual If we are but slightly acquainted
-with the agency by which the degradation of land is counter-balanced,
-we are still more ignorant of the laws that preserve
-the balance of life. Creation is a mystery, and such it must
-for ever remain. So, too, are the principles on which it has
-been conducted. We can but mark their results. We see new
-species appear from time to time in the upward series of the geological
-formations, but they tell not whence they came. Of two
-genera created together at the beginning, one ere long died out,
-<span class="pagenum" id="Page_93">- 93 -</span>
-but the other still lives; yet here there is assuredly nought
-like discordance or caprice. Nay, these two principles&mdash;death
-and creation&mdash;have been in active operation all through the
-ages, and the result is that varied and exquisitely beautiful
-world wherein we dwell.</p>
-
-<p>The Mollusca are so named from the soft nature of their
-bodies, and are familiar to us as exemplified in the garden-snail
-and the shells of the sea-shore. The general type upon which
-they are constructed is that of an external muscular bag, either
-entire or divided into two, called the mantle, in which the
-viscera are contained. In most of the orders, they have likewise
-an outer hard calcareous shell, consisting of one or more
-parts. It is of course this shell alone that can be detected in
-the rocks, but by attending to the relations between the living
-animals and their shells, we ascertain the nature and affinities
-of the fossil species.</p>
-
-<p>Few who ramble by the sea-shore, gathering limpets, whelks,
-and cockles, are aware how complex an anatomy is concealed
-within one of those brown discoloured shells. There are elaborate
-nervous and muscular systems&mdash;sometimes several hearts
-with accompanying arteries and veins&mdash;often dozens of rudimentary
-eyes&mdash;capsules which perform the function of ears&mdash;jaws,
-teeth, a strongly armed tongue&mdash;gullet, gizzard, stomach,
-liver, intestine, and complete breathing apparatus. The structure
-and grouping of these parts vary in the different genera and orders,
-and upon such variations is founded the classification of the naturalist.
-Thus, the mollusca of the highest class are called the
-<i>Cephalopoda</i>, or <i>head-footed</i>, because their feet, or rather arms,
-are slung in a belt round the head. They contain, among their
-number, the cuttle-fish, with its curious internal bone that
-shadows forth, as it were, the coming of the vertebrate type;
-and the nautilus, with its many-decked vessel of pearl. The
-second class is termed the <i>Gastropoda</i>, or <i>belly-footed</i>, as the
-genera embraced under it creep on the under side of the body,
-<span class="pagenum" id="Page_94">- 94 -</span>
-which is expanded into a broad retractile foot. The common
-snail and whelk are familiar examples. The third class is
-formed by the <i>Pteropoda</i>, or <i>wing-footed</i>&mdash;delicate animals,
-found only in the open sea, and remarkable for a pair of wing-like
-expansions or fins on the sides of the mouth. The
-<i>Lamellibranchiata</i> form the fourth class, and receive their name
-from the laminated form of their branchia, or gills. They
-contain the two-valved shells, such as the oyster and scallop,
-and are one of the most abundant groups of animals on our
-coasts. The fifth class consists of the <i>Brachiopoda</i>, or <i>arm-footed</i>
-molluscs a name given to them from their long spiral arms,
-once thought to be the instruments of motion, but now ascertained
-only to assist in bringing the food to the mouth. The
-sixth, and humblest class, has received the designation of <i>Tunicata</i>,
-from the thick bladder-like tunic, or sac, which supplies
-the place of an outer shell.</p>
-
-<p>The geologist finds the remains of all these classes in the
-different rock-formations of the crust of the earth. They
-flourished so abundantly in the earliest seas, that the first geological
-period has sometimes been called the Age of Molluscs;
-and, during all the subsequent eras, they held a prominent
-place among the inhabitants of the deep. Let us look for a
-little at their development in the times of the Carboniferous
-system.</p>
-
-<p>As the Carboniferous group of rocks exhibits the remains of
-ocean-bed, lake-bottom, and land-surface, so we find in it shells of
-marine, fresh-water and (though rarely) terrestrial mollusca. The
-marine genera greatly predominate, just as the shells of the sea
-at the present day vastly outnumber those either of lakes or of
-the land. In England they occur chiefly in the lower part of
-the formation, giving a characteristic stamp to the deep series
-of beds known as the mountain limestone. There they are
-associated with the corals and stone-lilies already described&mdash;all
-productions of the sea. In Northumberland, however, and
-<span class="pagenum" id="Page_95">- 95 -</span>
-generally throughout Scotland, they occupy a somewhat different
-position. The great mountain limestone of central England gets
-split up into subdivisions as it proceeds northward, and beds of
-coal, full of land plants, become mingled with the ordinary
-marine strata. Sometimes we may find a group of brachiopods
-scattered over the macerated stem of a stigmaria; and the
-writer has himself collected a sigillaria in a limestone crowded
-with stone-lilies and <i>producti</i>. But this intermingling is still
-further carried on in the upper part of the series. The coal-beds,
-with their underclays and stigmaria rootlets, evidently
-representing ancient vegetation with the soils on which it grew,
-are succeeded by beds of limestone, full of marine mollusca;
-and these, again, are erelong replaced by sandstones, shales, and
-ironstones, charged with land-plants and fresh-water shells.
-To this curious blending of very different organic remains, I
-shall have occasion to refer more at large in a subsequent chapter.
-I mention it now as a sort of apology for the dryness of details
-which it is necessary to give, in order to complete our picture
-of the carboniferous fauna, and to understand the
-principles upon which the ancient history of the
-earth is deciphered.</p>
-
-<div class="figright" id="fig21" style="width: 80px;">
-  <img src="images/fig21.png" width="80" height="209" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 21.</span></div>
-</div>
-
-<p>Of the <i>Pteropoda</i>, we have, as yet, but one
-carboniferous genus, the <i>conularia</i> (<a href="#fig21">Fig. 21</a>). It
-was a slim delicate shell, in shape an oblong cone,
-having four sides, finely striated with a sort of zig-zag
-moulding like that of the Norman arch. Each
-of the four angles was traversed along its whole
-extent by a narrow gutter-like depression, and this
-style of fluting, combined with the markings on
-the sides, imparted no little elegance to the shell.
-The conularia is not a common fossil. It has
-been found among the coal-bearing strata of Coalbrook-Dale,
-and was noticed long ago by Dr. Ure in his <i>History of Rutherglen</i>.</p>
-
-<p><span class="pagenum" id="Page_96">- 96 -</span></p>
-
-<p>The <i>Brachiopoda</i> are bivalve molluscs, but unlike most other
-molluscs they are rooted to one spot, and destitute of any power
-of locomotion. Their shells are unequal, the dorsal, or upper
-valve, being smaller and usually more bulged out than the
-under or ventral valve, which in most species is prolonged at
-its narrow end into a kind of beak. In the terebratula this
-beak has a little circular hole, from which there emerges a short
-peduncle or stalk, that fixes itself firmly to a rock or other substance
-at the sea-bottom, and serves the purpose of an anchor
-and cable to keep the little vessel safely moored. When the
-shells are detached, these perforated ventral valves have so
-exactly the form of the old Roman lamps, "that they were
-called <i>Lampades</i>, or lamp-shells, by the old naturalists."<a id="FNanchor_36" href="#Footnote_36" class="fnanchor">[36]</a> Other
-species, as the <i>lingul&aelig;</i>, have no beak, and the long peduncle
-passes out between the valves, which are of nearly equal size,
-and have been compared to the shape of a duck's bill. In yet
-another genus, the <i>crania</i>, there is no peduncle, but the animal
-adheres by its lower valve, much like the oyster, and may often
-be seen clustered in groups on decayed sea urchins or other
-organisms, particularly in the chalk formation.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_36" href="#FNanchor_36" class="label">[36]</a> See the excellent <i>Manual of Mollusca</i>, by Woodward, p. 209.</p>
-
-</div>
-
-<p>The internal structure of these animals is singularly beautiful.
-The inner surface of each valve is lined with a soft membranous
-substance, called the pallial lobe, the margin of which is set
-round with stiff hair-like bristles, that prevent the ingress of
-any foreign body likely to interfere with the play of the delicate
-filaments of the arms. These two soft lobes are furnished with
-veins, and supply the place of a breathing apparatus. The body
-of the animal occupies not quite a third part of the interior of
-its valves, and is situated at the narrow end. There are thus
-two distinct regions within the shell, separated from each other
-by a strong membrane, through the centre of which is the opening
-of the mouth. The smaller cavity next the hinge contains
-the viscera, and the outer larger one, the folded and ciliated arms.
-<span class="pagenum" id="Page_97">- 97 -</span>
-These arms form one of the most characteristic features of the
-brachiopods. They are two in number, and proceeding from
-the margin of the mouth, advance into the outer empty chamber
-of the shell, and return upon themselves in spiral curves
-and folds. They are fringed with slim, flat, narrow filaments,
-set along the arm like teeth along the back of a fine comb.
-Though called arms, these long ciliated appendages are rather
-enormously protruded lips. The vibratory action of the fringes
-causes currents to set inwards towards the mouth, which is
-placed at the inner end or base of the arms. To support these
-long convoluted arms, many of the genera are furnished with
-slender hoops of hard calcareous matter, which are hung from
-the dorsal valve, and are still found within the shells of some
-of the most ancient fossil brachiopods.</p>
-
-<p>The little visceral cavity contains the complex groups of
-muscles for opening and closing the valves, a simple stomach,
-a large granular liver, a short intestine, two hearts, and
-the centre of the nervous system. Without going into the
-details of these various structures, the reader will see that the
-brachiopoda are really a highly organized tribe; and I am thus
-particular in the enumeration, partly that he may the better
-understand the mechanism of the carboniferous shells of that
-type, and partly that he may mark how the oldest forms of life,
-those that meet us on the very threshold of animated existence,
-were not low in organization, but possessed an anatomy as complex
-as it was beautiful.</p>
-
-<p>Who that has ever wielded an enthusiastic hammer among
-the richly fossiliferous beds of the mountain limestone, does not
-remember with delight the hosts of delicately fluted shells that
-the labour of an hour could pile up before him? There was
-the striated productus, with its slim spines scattered over the
-stone. There, too, lay the spirifer with its broader plications,
-its toothed margin, and its deeply indented valve. Less common,
-and so more highly prized, was the slimly-ribbed rhynconella,
-<span class="pagenum" id="Page_98">- 98 -</span>
-with its sharp, prominent beak, or perhaps the smooth, thin
-terebratula, with its colour-bands not yet effaced. These were
-pleasant hours, and their memory must dwell gratefully among
-the recollections of one whose avocations immure him throughout
-well-nigh the livelong year amid the din and dust of town&mdash;the
-<i>fumum et opes strepitumque Rom&aelig;</i>.</p>
-
-<div class="figcenter" id="fig22" style="width: 329px;">
-  <img src="images/fig22.png" width="329" height="202" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 22.</span>&mdash;Productus giganteus.</div>
-</div>
-
-<p>In the <i>productus</i> the dorsal valve is sometimes quite flat,
-while the ventral is prominently arched, and the shell resembles
-a little cup with a flat plate of the same diameter placed over
-it. Usually, however, both the valves are concavo-convex, or
-arched in the same direction like two saucers placed within
-each other. The exterior surface of each valve is differently
-ornamented in the various species. A very common style of
-sculpturing is by a set of fine hair-like longitudinal ribs, diverging
-more or less regularly from the hinge line to the outer margin.
-In some species these ribs are wider, and are furnished
-with little prominent scars. In others (as <i>P. punctatus</i>) a set
-of semicircular ridges runs round the shell, narrowing as they
-converge from the outer lips to the centre of the hinge line, and
-bearing each an irregular row of small scars or tubercules.
-Some of the species are very irregularly ornamented into a sort
-<span class="pagenum" id="Page_99">- 99 -</span>
-of wrinkled surface, in which the stri&aelig; seem, as it were, thrown
-over the valves in bundles at random.</p>
-
-<p>The productus was furnished with slender hollow spines,
-which rose up from the surface of either valve, chiefly, however,
-about the hinge. In <i>P. spinosus</i> they were long and stout,
-like thin rush stalks, while in the smaller species they rather
-resembled stiff bristles. The use of these spines is not very
-well made out. As most of the producti appear to have been
-free, that is, without any peduncle fixing them to the sea-bottom,
-it has been conjectured that the spines, by sinking deep
-into the mud, may have served the place of a peduncle to moor
-the shell.</p>
-
-<p>As regards size, the productus is very variable. You may
-gather some species in the young form, not larger than
-peas, while others may reward your search, having a breadth of
-six or eight inches (<i>P. giganteus</i>). But however much they
-may vary in dimensions, they usually remain pretty constant in
-their abundance, being among the most common fossils of the
-mountain limestone, and even of some limestones in the true
-Coal-measures;<a id="FNanchor_37" href="#Footnote_37" class="fnanchor">[37]</a> and that must be a poor stratum indeed which
-cannot yield you a bagful of producti.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_37" href="#FNanchor_37" class="label">[37]</a> See the table given below in <a href="#Page_188">Chap. X.</a></p>
-
-</div>
-
-<p>The productus no longer ranks among living forms. It
-began during the times of the Upper Silurian system, lived all
-through the Old Red Sandstone, and attained its maximum of
-development in the seas of the Lower Carboniferous group. As
-the coal forests began to flourish, the productus seems to have
-waned; but it is still sometimes found in considerable numbers
-in the ironstones and limestones intercalated among the coal
-seams of northern England and central Scotland. In the
-period which succeeded the coal, that, namely, of the Permian,
-it seems to have died out altogether, at least no trace of its
-remains have as yet been detected in strata of a later age. But
-whilst it lived, the productus must have enjoyed a wide range
-<span class="pagenum" id="Page_100">- 100 -</span>
-of climate, for its valves have been found by thousands both in
-the old world and in the new. I have seen several that were
-brought from the hills of China, and they occur likewise in
-Thibet. Specimens have been brought, too, from the warm
-plains of Australia, and from the snows of Spitzbergen.</p>
-
-<p>In looking over the fossils that lie grouped along beds of the
-mountain limestone, there are two forms that we find almost
-invariably side by side&mdash;the productus and the spirifer. They
-seem to have begun life together, or rather, perhaps, the spirifer
-is somewhat the older brother. They voyaged through the
-same seas, and anchored themselves to the same ocean-bed,
-sometimes among mud and ooze, and often among bowers of
-corals and stone-lilies. They visited together the most distant
-parts of the world, from China to Chili, and from Hudson's
-Bay to New Zealand. I have sometimes laid open fragments
-of limestone where they lay thickly clustered as though they
-had ended a life of friendship by dying very lovingly together.
-But after all the varieties of the productus had died out, some
-species of the spirifer still lived on, and it was not until the
-period of the lias that they finally disappeared. I remember
-meeting with one of these latest spirifers in the course of a
-ramble in early morning along the shores of Pabba, one of the
-lone sea-girt islands of the Hebrides, where the Scottish secondary
-rocks are represented. The beach was formed of low
-shelving reefs of a dark-brown micaceous shale, richly charged
-with the characteristic fossils of the Lias&mdash;ammonites, belemnites,
-gryph&aelig;&aelig;, pectines, &amp;c. In the course of the walk I
-came to a lighter coloured band, with many reddish-brown
-nodules of ironstone, but with no observable fossils. A search,
-however, of a few minutes disclosed a weathered specimen, near
-which a limpet had made good its resting-place; and this solitary
-specimen proved to be one of the last lingering spirifers
-(<i>S. Walcottii</i>). The form struck me at once as a familiar one,
-and recalled the fossils of the mountain limestone. It may
-<span class="pagenum" id="Page_101">- 101 -</span>
-seem a puerile fancy, but to one who had lately been working
-among pal&aelig;ozoic rocks, and remembered the history of the
-spirifer, there was something suggestive in the loneliness of the
-specimen. With the exception of one or two other organisms
-(as <i>rhynconella</i>), it was by far the most ancient form of the
-deposit. Its family had come into the world thousands of
-years before that of the large pinn&aelig; that lay among the neighbouring
-shales, and perhaps millions of years before that of the
-gracefully curved ammonites. But the family was nearly extinct
-when these shales were being thrown down as sandy mud, and
-this wasted specimen, worn by the dash of the waves, seemed in
-its solitariness no inapt representative of an ancient genus that
-was passing away.</p>
-
-<p>The spirifer received its name from the two highly developed
-spiral processes in the interior of the shell attached to the
-dorsal valve. They were hard, like the substance of the shell,
-and sprang from near the hinge, each diverging outwards to near
-the border of the valve. They resembled two cork-screws, but
-the loops were much closer together. These coiled calcareous
-wires almost filled the hollow of the shell (<a href="#fig23">Fig. 23</a>), and ample
-support was thus afforded to the filamentous arms. In recent
-brachiopods, these arms do not always strictly follow the course
-of the calcareous loops. Among pal&aelig;ozoic genera the case may
-have been similar, so that the complex calcareous coil of the
-spirifer may not perhaps indicate a corresponding complexity of
-the arms. But none of the few recent forms exhibit anything
-like the coiled processes of the spirifer.</p>
-
-<p>The Carboniferous system of Great Britain and Ireland is
-stated to have yielded between fifty and sixty species of spirifers.
-Of course, in such a long list the gradations are sometimes
-very nice, and to an ordinary eye imperceptible, but there exist
-many marked differences notwithstanding. The general type
-of the spirifers is tolerably well defined. They had both valves
-arched outwards, not concavo-convex as in the productus.
-<span class="pagenum" id="Page_102">- 102 -</span>
-Their hinge-line, like that of the latter shell, ran in a straight
-line, and their dorsal valve was raised along its centre from
-hinge to outer margin, into a prominent ridge, while in the
-ventral valve there was a furrow exactly to correspond. Most
-of the species were traversed by sharp ribs radiating from the
-centre of the hinge-line like those on the surface of the common
-cockle. But some were quite smooth, retaining only the high
-lobe in the centre, such as <i>S. glaber</i>. In a noble specimen
-figured by M'Coy<a id="FNanchor_38" href="#Footnote_38" class="fnanchor">[38]</a> under the name of <i>S. princeps</i>, the valves
-are covered with broad plaits that sweep gracefully outward
-from the centre of the hinge-line.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_38" href="#FNanchor_38" class="label">[38]</a> <i>Carb. Limest. Foss. of Ireland</i>, pl. 21, fig. 1.</p>
-
-</div>
-
-<div class="figcenter" id="fig23" style="width: 444px;">
-  <img src="images/fig23.png" width="444" height="157" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 23.</span>&mdash;Spirifer hystericus. <i>b</i>, Interior of the same, showing the
-arrangement of the spiral arms.</div>
-</div>
-
-<p>The spirifers vary more in form than in external ornament.
-Some are triangular, others nearly semicircular, others long and
-attenuated. In some species (as the <i>S. glaber</i>), the central ridge
-is very prominent, taking up about a third of the entire area of
-the shell, and thus giving it a trilobed appearance. In others
-(as <i>S. symmetricus</i>) it is less marked, and bears a minor furrow
-down its centre; while in yet a third class (as in some specimens
-of <i>S. trigonalis</i>) the median fold scarcely rises above the
-ribs that are ranged on each side.</p>
-
-<p>These old shells probably anchored themselves to the sea-bottom
-by means of a thin peduncle, and lived by the vigorous
-<span class="pagenum" id="Page_103">- 103 -</span>
-action of those complex fringed arms, whose screw-like skeleton
-still occasionally remains, and which conveyed to the mouth
-the animal substances that served as food.</p>
-
-<div class="figright" id="fig24" style="width: 92px;">
-  <img src="images/fig24.png" width="92" height="139" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 24.</span>&mdash;Terebratula hastata.</div>
-</div>
-
-<p>I shall refer to but one other brachiopod of the carboniferous
-rocks, interesting both as one of the forms of life still
-living in our seas, and as exhibiting, after the lapse of such a
-vast interval, the form of the coloured bands which adorned it
-when alive. It is called <i>Terebratula hastata</i>; a slim delicate
-shell like its representatives of the present day,
-narrow at the beak, and bulging out towards
-the outer margin, which is slightly curved.
-The surface is smooth, and in the older
-specimens has numerous concentric layers of
-growth, especially marked near the margin.
-The stripes of colour radiate from the beak,
-outwards, and though the tint which once
-brightened them is no longer visible, it may be
-that the vessel of the little terebratula, which
-lay anchored perhaps fifty fathoms down, was well-nigh as gaily
-decked as a felucca of the Levant. But the existence of these
-colour-bands is not merely interesting; the geologist can turn
-it to account in investigating the physical conditions of an
-ancient ocean. The late Professor Edward Forbes, after a careful
-series of investigations in the Mediterranean, brought to light
-the fact, that below a depth of fifty fathoms shells are but
-dimly coloured, and hence he inferred, from the numerous
-coloured shells of the carboniferous limestone, that the ocean
-in which they lived was not much more than fifty fathoms
-deep.<a id="FNanchor_39" href="#Footnote_39" class="fnanchor">[39]</a></p>
-
-<div class="footnote">
-
-<p><a id="Footnote_39" href="#FNanchor_39" class="label">[39]</a> Similar coloured bands are found even in the Lower Silurian, e.g., on turbo rupestris
-(Murchison's <i>Siluria</i>, p. 194), while on many of the carboniferous gastropods and lamellibranchiate
-bivalves, they are of frequent occurrence.</p>
-
-</div>
-
-<p>The <i>lamellibranchiate</i> bivalve shells of the British Carboniferous
-system, so far as yet discovered, number about 300
-<span class="pagenum" id="Page_104">- 104 -</span>
-species, belonging to genera some of which are still familiar to us.
-There were the <i>pectens</i> or <i>scallops</i>, the <i>pinnas</i> with their beards of
-byssus, the <i>cardiums</i> or cockles, the <i>mytili</i> and <i>modiol&aelig;</i> or mussels,
-all sea-shells. Then among the fresh-water bivalves we can
-detect several species of the unio or river mussel, that perhaps
-displayed valves as silvery in their lining as those of our own
-pearl-mussels. But with these well-known forms there co-existed
-some that no longer survive. Such was the <i>conocardium</i>,
-a curious form that looks like a <i>cardium</i> cut through the
-middle, with a long slender tube added to the dismembered
-side (<a href="#fig25">Fig. 25</a>). The <i>aviculopecten</i>, a shell allied to our common
-scallop, and sometimes showing still its colour-bands (<a href="#fig25">Fig. 25</a>),
-and the <i>cardinia</i> or <i>anthracosia</i>, a small bivalve that abounds in
-the shales and ironstones of our coal-fields, along with nautili,
-producti, and conulari&aelig; at Coalbrook Dale, and with a thin
-leaf-like lingula at Borrowstounness.</p>
-
-<div class="figcenter" id="fig25" style="width: 374px;">
-  <img src="images/fig25.png" width="374" height="147" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 25.</span>&mdash;<span class="smcap">Carboniferous Lamellibranchs.</span><br />
-    1. Aviculopecten sublobatus (showing colour-bands). 2. Conocardium aliformis.</div>
-</div>
-
-<p>The <i>Gastropods</i> of the carboniferous rocks in the British
-Islands embrace from twenty-five to thirty genera, with upwards
-of 200 species. Here, too, we can detect some forms that
-have not yet passed away. The <i>trochus</i>, so universally diffused
-over the globe at the present day, also lived in the pal&aelig;ozoic
-seas. Its companions, the <i>natica</i>, the <i>turritella</i>, and the
-<i>turbo</i>, likewise flourished in these ancient waters. Among the
-genera now extinct we may notice the <i>euomphalus</i>, with its
-<span class="pagenum" id="Page_105">- 105 -</span>
-whorls coiled in a flat discoidal form; and the <i>bellerophon</i>,
-with its simple coiled shell, resembling in general form the
-nautilus. The gastropods are numerously represented in our
-gardens and woods, by the various species of the snails, animals
-that have a most extensive distribution over the world, and
-number probably not much under two thousand species.</p>
-
-<div class="figcenter" id="fig26" style="width: 407px;">
-  <img src="images/fig26.png" width="407" height="156" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 26.</span>&mdash;<span class="smcap">Carboniferous Gastropods.</span><br />
-    1. Euomphalus peatangulatus. 2. Pleurotomaria carinata (showing colour-bands).</div>
-</div>
-
-<p>For a long time it was matter of surprise that no such land shells
-had ever been detected in the carboniferous rocks. Trees and
-forests had been turned up by the hundred, but never a trace was
-found of any air-breathing creature. From this fact, and from
-the enormous amount of vegetable matter preserved, it was once
-hastily inferred that the atmosphere of that ancient period must
-have been uncongenial to air-breathers; that, in short, it was
-a dense heated medium of noxious carbonic-acid gas, wrapt
-round the earth like a vast mephitic exhalation, favourable in
-the highest degree to the growth of vegetation, yet deadly as
-the air of Avernus to all terrestrial animals. But this notion,
-like most other bold deductions from merely negative evidence,
-has had to be abandoned, for traces of air-breathers have at
-last been found. Among these, not the least interesting is the
-shell of a <i>pupa</i>, a sort of land-snail, which Sir Charles Lyell
-detected, along with the bones of a small reptile, embedded in
-the heart of an upright sigillaria stem in the carboniferous
-<span class="pagenum" id="Page_106">- 106 -</span>
-rocks of Nova Scotia. Small as was the organism, the evidence
-furnished by it proved scarcely less valuable than if it
-had been a large mammal that might have afforded material for
-weeks of study. The similarity of the shell to existing forms,
-showed that the ancient carboniferous forests had at least one
-race of air-breathing creatures among their foliage, and that the
-atmosphere of the period could have differed in no material
-point from that of the present day, for as the snails breathe by
-lungs, and require, consequently, a continual supply of oxygen
-to support respiration, they could not have existed in an atmosphere
-charged with carbonic acid.</p>
-
-<div class="figcenter" id="fig27" style="width: 385px;">
-  <img src="images/fig27.png" width="385" height="219" alt="" />
-  <div class="figcaption"><span class="smcap">Fig 27.</span>&mdash;<span class="smcap">Carboniferous Cephalopods.</span><br />
-
-   1. Nautilus Koninckii. 2. Goniatites crenistria. 3. Orthoceras laterale (fragment).</div>
-</div>
-
-<p>The <i>Cephalopods</i>, or highest class of mollusca, are represented
-among the British carboniferous strata by seven genera.
-Of these the most characteristic is the <i>orthoceras</i>, so named
-from its shell being like a long straight horn. When the
-animal was young it inhabited a single-chambered shell like
-that of many of the gastropods, but as it increased in size and
-prolonged its shell in a straight line, it withdrew from the first
-occupied chamber. This was partitioned off by a thin wall called
-a <i>septum</i>, through the centre of which a tube ran to the narrow
-<span class="pagenum" id="Page_107">- 107 -</span>
-end of the shell (<a href="#fig27">Fig. 27</a>). As the creature grew, chamber
-after chamber was in this way formed, each of them quite air-tight,
-and traversed by the central tube. Suppose a graduated
-series of diminutive watch-glasses to be pierced by a long
-tapering glass-tube in such a way that they should have their
-convex faces towards the narrow end of the tube, and be arranged
-at short intervals, the smallest one placed near the point of
-the tube, and the largest a little below the wider end. Suppose,
-further, that this piece of mechanism were placed within another
-tube tapering to an obtuse point, and that the edges of the watch-glasses
-fitted tightly to the inner surface of this larger tube.
-Such would be a rough model of the structure of the orthoceras.</p>
-
-<p>The inner tube that traverses the centre of the chambers
-from end to end of the shell is called the <i>syphon</i>, but its uses
-are very problematical. At one time naturalists inclined to
-regard it as intended to be filled with fluid, which, by expanding
-the membrane of the tube, would compress the air in the
-chambers, and thus, increasing the specific gravity of the animal,
-enable it to sink to the bottom. In this way, by emptying
-or filling the syphonal tube, the orthoceras might have risen
-rapidly to the surface of the deep, or sunk as swiftly to the
-bottom. But this view, so pretty that one wishes it were confirmed,
-must be regarded as at least doubtful. The orthoceras
-more probably owed its power of progression to the action of a
-funnel connected with the breathing apparatus, whereby jets of
-water were squirted out that drove the shell rapidly along.
-The use of the air-tight chambers was, perhaps, to give
-buoyancy to the shell so as to make it nearly of the same
-specific gravity as water. Such a provision must have been
-amply needed, for Professor Owen mentions an orthoceras from
-Dumfries-shire that measured six feet in length, and similar
-gigantic specimens have been found in America. Unless the
-chambers in these shells had been air-tight, the animals that
-inhabited them would have been held down about as firmly to
-<span class="pagenum" id="Page_108">- 108 -</span>
-one spot as if they had been tied to a sheet-anchor. No
-mollusc could have possessed much locomotion with so ponderous
-a tail, six feet or more in length, to drag after it. But
-this inconvenience was obviated by the simple plan of having
-the chambers close, and filled with nitrogen or other gas evolved
-by the chemistry of the inmate. The shell, in this way,
-acquired no little buoyancy, and probably stood up like a
-church spire, the animal keeping close to the bottom to lie in
-wait for any hapless mollusc or trilobite that might chance to
-come in its way.</p>
-
-<p>The <i>nautilus</i> (<a href="#fig27">Fig. 27</a>), which still lives in our seas, occurred
-likewise in those of the Carboniferous period. It was a coiled
-shell; in truth, just an orthoceras rolled up in one plane like a
-coil of watch-spring. An allied form, called the <i>goniatite</i>
-(<a href="#fig27">Fig. 27</a>), had the margins of its septa of a zig-zag form, like
-the angles of the wall round a fortified town. When the thin
-outer coating of the shell is removed, the ends of these partition-walls
-are seen to form strongly-marked angulated sutures
-or joints, where they come in contact with the shell. Hence
-the name of the genus&mdash;<i>angled</i> shell.</p>
-
-<p>All these animals were predaceous. They did not confine
-themselves to the lower forms of life, polyps and medus&aelig;, nor
-even to the humbler tribes of their own sub-kingdom, but hesitated
-not to wage war with creatures greatly higher in the
-scale of creation than themselves, such as the smaller fishes.
-They swarmed in the pal&aelig;ozoic seas, and well merited the title
-of scavengers of the deep, that has been bestowed on the
-sharks of our own day. They seem to have performed a function
-now divided partly among the fishes and partly among the
-higher gastropodous molluscs. And accordingly we find that
-as these latter tribes increased, the orthoceratites, and goniatites,
-and ammonites waned. At the present day, of all the pal&aelig;ozoic
-cephalopods there remains but one&mdash;the nautilus<a id="FNanchor_40" href="#Footnote_40" class="fnanchor">[40]</a>; a and so rare
-<span class="pagenum" id="Page_109">- 109 -</span>
-is it, that up to the year 1832, all sorts of fanciful notions existed
-as to its nature and functions. In fact, the nautilus was a sort
-of myth which any naturalist could dress up as he chose, much as
-the old poets used to picture the ship Argo. A specimen was at
-length procured and intrusted to the examination of Professor
-Owen, by whom its anatomy was studied, and afterwards philosophically
-described in an elaborate monograph. Then, for the
-first time, did geologists obtain a true notion of the nature of
-those siphonated shells, which lie grouped by hundreds in the
-pal&aelig;ozoic and secondary formations. Yet we still want an
-account of the habits of the nautilus. The older naturalists
-alleged that it could at pleasure rise to the surface or sink into
-the depths of the ocean; that it could spread out its fleshy
-arms and float across the waves or draw them in, capsize the
-little vessel, and so return to a creeping posture among the sea-weed
-at the bottom. These statements may to some extent be
-true, for the chambers of the nautilus shell must impart great
-buoyancy to it. But in the meantime the story of the sailing
-propensities of the animal is derived from a sort of mythic age,
-and must be viewed with some little suspicion. Until further
-observations are made, we shall neither fully understand the
-economy of the nautilus nor the habits of the cephalopods of
-the pal&aelig;ozoic seas. But the day is probably not far distant
-when such doubts will be set at rest, and we shall know
-whether the nautili and orthoceratites swam in argosies over
-the surface of the ocean, or, keeping ever at the bottom, left the
-waves to roll far above them, unvaried save perchance by some
-floating sea-weed or drifted tree.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_40" href="#FNanchor_40" class="label">[40]</a> And perhaps even that is doubtful, for it is not unlikely that after all, the pal&aelig;ozoic
-nautili may belong in reality to another genus. Twenty years hence will probably see
-no little change on our present identifications.</p>
-
-</div>
-<hr class="chap x-ebookmaker-drop" />
-
-<div class="chapter">
-<p><span class="pagenum" id="Page_110">- 110 -</span></p>
-
-<h2 class="nobreak" id="CHAPTER_VII">CHAPTER VII.</h2>
-</div>
-
-
-<div class="blockquot">
-
-<p>Classification of the naturalist not always correspondent with the order of nature&mdash;Incongruous
-grouping of animals in the invertebrate division&mdash;Rudimentary skeleton
-of the cephalopods&mdash;Introduction of the vertebrate type into creation&mdash;Ichthyolites
-of the carboniferous rocks&mdash;Their state of keeping&mdash;Classification of fossil fishes&mdash;Placoids&mdash;Ichthyodorulites&mdash;Ganoids&mdash;Their
-structure exemplified in the megalichthys
-and holoptychius&mdash;Cranium of megalichthys&mdash;Its armature of scales&mdash;Microscopic
-structure of a scale&mdash;Skeleton of megalichthys&mdash;History of the discovery of the
-holoptychius&mdash;Confounded with megalichthys&mdash;External ornament of holoptychius&mdash;Its
-jaws and teeth&mdash;Microscopic structure of the teeth&mdash;Paucity of terrestrial fauna
-in coal measures&mdash;Insect remains&mdash;Relics of reptiles&mdash;Concluding summary of the
-characters of the carboniferous fauna&mdash;Results.</p>
-</div>
-
-<p><span class="smcap">The</span> organic remains hitherto described belong to that large
-division of the animal kingdom instituted by Lamarck, to comprehend
-all those whose internal structure is supported by no
-vertebral column, and which are hence termed invertebrate.
-They are for the most part protected by a hard outer covering,
-or exo-skeleton, which assumes many different modifications.
-We have seen it in the calcareous cells of the little net-like
-fenestella, in the geometric cup of the stone-lily, in the double
-case of the cypris, and in the shells of the mollusca. But the
-order of nature does not always exactly correspond with the
-classification of the naturalist. His system must necessarily be
-precise, formal, and defined. One tribe ends off abruptly, and
-is immediately succeeded by another, with different functions
-and structure, and dignified with a separate name. But in the
-order of creation, such abrupt demarcations are few, for if they
-exist in the present economy, they can not unfrequently be filled
-up from the existences of the past. There is usually a shading
-off of one class into another, like the blending of the tints of
-<span class="pagenum" id="Page_111">- 111 -</span>
-sunset, and it often baffles all the skill of the profoundest anatomist,
-by drawing a distinct line, to pronounce where the one
-division actually ends and the other begins. Any name, therefore,
-which is intended to embrace a large section of the animal
-kingdom, must ever be more or less arbitrary. It will extend
-too far in one direction, and embrace organisms which might
-be classed in a different section. It will probably not extend
-far enough in another, and thus leave beyond its pale animals
-possessing strong affinities to the majority of those included
-under it. More especially is this true of every system of classification
-that proceeds upon the modifications of a single feature,
-or upon mere negative resemblances. Suppose, for instance,
-that it were proposed by some highly systematic individual to
-divide the inhabitants of our country into two great classes&mdash;the
-bearded and the beardless. In the latter category he
-would arrange all the more quiet and orderly portion of the
-community, with perchance a tolerable intermixture of rogues.
-The bearded group would present a most motley array&mdash;from
-the fierce-visaged heroes of the Crimea to the peaceable stone-mason
-or begrimed pitman&mdash;all brought into one list, and yet
-agreeing in no single feature save that of being like Bully
-Bottom the weaver, "marvellous hairy about the face." But
-Lamarck's invertebrate division of the animal kingdom presents
-a grouping of yet more diverse characteristics, as cannot fail to
-be confessed when we recollect that it embraces among its
-members the microscopic monad, the coral polyp, the lobster,
-the butterfly, the limpet, the nautilus, and the cuttle-fish.
-Cuvier's three-fold grouping of the division into <i>mollusca</i>, <i>articulata</i>,
-and <i>radiata</i>, has now supplanted the old name, though
-the latter is still retained as a sort of convenient designation
-for all the animals below the vertebrate type.</p>
-
-<p>The most highly developed of the recent cephalopods exhibit
-a true internal skeleton, in the form of a strong oblong bone,
-on which the body is hung. In this respect they occupy a sort
-<span class="pagenum" id="Page_112">- 112 -</span>
-of intermediate place between the lower molluscs on the one
-hand, and the lower fishes on the other. Theirs is not a vertebral
-column, but rather, as it were, a foreshadowing of it;
-not, however, as a link in some process of self-development from
-mollusc to fish, for these higher cephalopods do not appear to have
-been created until fishes and reptiles had lived for ages. The vertebrate
-type has been traced well-nigh as far back into the past
-as we have yet been able to penetrate. Once introduced, it has
-never ceased to exist, but in the successive geological ages has been
-ever receiving newer and higher modifications, reaching its perfection
-at length in man. The vertebrate form of structure fulfils
-the highest adaptations of which terrestrial beings seem capable.
-We can hardly conceive of corporeal existence reaching a more
-elevated stage of development, save in thereby becoming less
-material, and receiving an impartation of some higher element.
-The vertebrate animals display not merely the most complexly
-organized structures, but manifest in their habits the workings
-of the higher instincts and affections. Among the invertebrate
-tribes the propagation of the species is, in the vast majority of
-cases, a mere mechanical function, like that of feeding or respiration,
-and the eggs once deposited, the parent has no further
-care of her young. But among the vertebrated animals, on the
-other hand, the perpetuation of the race forms the central pillar
-round which the natural affections are entwined. It parcels
-out every species into pairs, in each of which the mates are
-bound together by the strongest ties of attachment. It gives
-birth, too, to that noble instinct which leads the mother to
-expose her own life rather than suffer harm to come to her
-offspring. It produces, at least in man, that reciprocal attachment
-of offspring to parent, from which springs no small part
-of all that is holiest and best in this world. These attributes,
-to a greater or less extent, belong to all the vertebrate animals,
-from the fish up to man. In looking over the relics of animal
-life in the earlier geological formations, we are apt, as we gaze
-<span class="pagenum" id="Page_113">- 113 -</span>
-on the massive jaws and teeth, the strong bony armour, and
-the sharp, barbed spines, to think only of a time of war and
-carnage, when the larger forms preyed upon the smaller, or
-ruthlessly sought to exterminate each other. Yet should we
-not remember, that with all these weapons and instincts of self-preservation
-there were linked attributes of a nobler kind; that
-the earliest vertebrate remains point to the introduction&mdash;though
-perhaps in but a rudimentary form&mdash;of self-sacrificing
-love into our planet? The march of creation from the first
-dawn of life has ever been an onward one, as regards the development
-not only of organic structure but of the social relations;
-and if it be true that physical organization finds its
-archetype in man, it is assuredly no less so that in him too we
-meet with the highest manifestation of those instincts which,
-by linking individual to individual, have ever marked out the
-vertebrate tribes of animals from the more machine-like characteristics
-of the invertebrate.</p>
-
-<p>We pass now to the vertebrate animals, and shall look for a
-little into the general grade and organization of the fishes that
-characterized the carboniferous rivers and seas.</p>
-
-<p>A collection of the ichthyolites of the carboniferous rocks presents
-almost every variety in the mode of preservation. The
-smaller species are frequently found entire, and show their
-shining scales still regularly imbricated as when the creatures
-were alive. The larger forms seldom occur in other than a
-very fragmentary condition. The limestones yield dark-brown
-or black, oblong, leech-like teeth, which are found on examination
-to be those of an ancient family of sharks. The
-shales are often sprinkled over with glittering scales and
-enamelled bones. Some of the coals and ironstones yield in
-abundance long sculptured spines, huge jaws bristling with
-sharp conical teeth, and detached tusks, sometimes five or six
-inches long. In short, the naturalist who would decipher the
-ichthyology of the Coal formation, finds before him, in the rocks,
-<span class="pagenum" id="Page_114">- 114 -</span>
-not a suite of correctly arranged, and carefully preserved
-skeletons, but a set of disjointed, unconnected bones; here a
-tooth, there a scale, now a jaw, now a dermal plate, all mingled
-at random. And yet, though the evidence lie in this fragmentary
-state, our knowledge of these ancient fishes is far from
-being correspondingly meagre. To such precision has the science
-of comparative anatomy arrived, that a mere scale or tooth is
-often enough to indicate the nature and functions of the individual
-to which it belonged, and to establish the existence in
-former times of a particular class or order of animals. Thus
-the smooth rounded teeth of the mountain limestone are found
-to present both externally and internally a close resemblance to
-the hinder flat teeth of the sole living cestraciont (<i>C. Philippi</i>);
-and we hence learn that a family of sharks, now all but extinct,
-abounded in the pal&aelig;ozoic seas. The occurrence of a set of
-dark, rounded little objects, which by the unpractised eye
-would be apt to be mistaken for pebbles, is in this way sufficient
-at once to augment our knowledge of the various animals
-of the Carboniferous period, and to establish an important fact
-in the history of creation.</p>
-
-<p>Of the four great Orders into which Agassiz<a id="FNanchor_41" href="#Footnote_41" class="fnanchor">[41]</a> subdivided the
-class <i>Pisces</i>, the Placoids and Ganoids, agreeing on the whole
-with the cartilaginous fishes of Cuvier, occur abundantly in the
-pal&aelig;ozoic rocks, while the Cycloids and Ctenoids, answering to
-<span class="pagenum" id="Page_115">- 115 -</span>
-Cuvier's osseous fishes, began in the Secondary formations, and
-are found in all subsequent deposits. The two former reached
-their maximum in the earlier geological ages, and have been gradually
-dwindling down ever since, till now they are represented
-by comparatively few genera; the two latter are emphatically
-modern orders; they have been constantly increasing in numbers
-since their creation, and swarm in every sea at the present
-day. The carboniferous ichthyolites belong, of course, only to
-the two first-mentioned orders the placoids and ganoids.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_41" href="#FNanchor_41" class="label">[41]</a> The classification of Agassiz, which is certainly not a little arbitrary and artificial,
-has been altered by M&uuml;ller, a distinguished German anatomist, whose arrangement has
-been modified again by Professor Owen. See Owen's <i>Lectures on Comparative Anatomy</i>,
-vol. ii. p. 47. There is far from anything like unanimity on the subject. Every naturalist
-thinks himself at liberty to modify and restrict the groupings of his predecessors or contemporaries,
-sometimes without condescending to give synonyms or any clue by which one may
-compare the rival classifications. The geological student cannot engage in a more sickening
-task than that of ranging through these various arrangements, and he must possess
-some self-command who can refrain from throwing up the search in disgust. The best
-way of progressing is to select some standard work and keep to it, until the characteristics
-of the genera and families have been mastered, and as far as possible, verified from
-actual observation. After such preliminary training, the student will be more able to
-grope his way through the "chaos and dark night" of synonyms and systems.</p>
-
-</div>
-
-<p>The Placoid, or <i>Plagiostome</i> fishes, are familiar to us all as
-exemplified in the common thornback and skate of our markets.
-They are covered with a tough skin, which either supports a
-set of tuberculed plates as in the thornback, or a thick crop of
-small rounded bony points or plates, as in the shagreen of the
-sharks. The head consists of a single cartilaginous box. The
-spinal column is likewise formed of cartilage, built up in the
-higher genera of partially ossified vertebr&aelig;. The tail is heterocercal
-or unequally lobed, inasmuch as the spinal column,
-instead of ending off abruptly as it does in the herring, trout,
-and all our commoner fishes, passes on to the extreme point of
-the upper half of the tail. This is a noticeable feature, for it
-has been found to characterize all the fishes that lived in the
-earlier geological periods. The fins are often strengthened by
-strong spines of bone, which stand up in front of them and
-serve the double purpose of organs of progression and weapons
-of defence. The teeth vary a good deal in form. In the larger
-number of existing placoids they are of a sharp cutting shape,
-often with saw-like edges. Among the sharks they run along
-the jaws in numerous rows, of which, however, only the outer
-one is used, those behind lying in reserve to fill up the successive
-gaps in the front rank. The teeth do not sink into the
-jaw, as in the ganoids, but are merely bound together by the
-tough integument which forms the lips. Another form of tooth,
-abundant among the ancient placoids, and visible on some of those
-<span class="pagenum" id="Page_116">- 116 -</span>
-at the present day, shows a smooth rounded
-surface, the teeth being closely grouped
-together into a sort of tessellated pavement
-which, in the recent species, runs round the
-inner part of the jaws, while a row of conical
-teeth guards the entrance of the mouth.</p>
-
-<div class="figleft" id="fig28" style="width: 125px;">
-  <img src="images/fig28.png" width="125" height="696" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 28.</span>&mdash;Ctenacanthus
-hybodoides. (Edgerton.)</div>
-</div>
-
-<p>The animals which possess these characteristics
-include the various tribes of the
-sharks and rays, and form the highest group
-of fishes. They are all active and predaceous,
-frequenting every part of the ocean
-where their prey is to be found. The formidable
-spines and hideous "chasm of
-teeth" belonging to the bulkier forms,
-render them more than a match for any
-other denizens of the deep, and thus they
-reign in undisputed supremacy&mdash;the scourge
-of their congeners, and a terror to man.</p>
-
-<p>The seas of the Carboniferous era
-abounded with similar predaceous fishes,
-some of which must have been of enormous
-size. An entire specimen has never
-been obtained; nor, from the destructible
-nature of the animal framework, can we
-expect to meet with one. But the hard
-bony parts of the animals, those capable
-in short of preservation in mineral accumulations,
-are of common occurrence in the
-mountain limestone beds and even among
-the coal seams. The dorsal spines or <i>ichthyodorulites</i>,
-are especially conspicuous (<a href="#fig28">Fig. 28</a>). They stood up along the creature's
-back like masts, the fin which was attached
-to the hinder margin of each, representing
-<span class="pagenum" id="Page_117">- 117 -</span>
-the sail. The spine could be raised or depressed at pleasure,
-its movements regulating those of the fin, much as the
-raising or lowering of the mast in a boat influences the lug-sail
-that is attached to it. The general form of these spines
-was long, tapering, and more or less rounded. But they
-assumed many varieties of surface ornament. Some species
-were ribbed longitudinally, and had along their posterior
-concave side a set of little hooks somewhat like the thorns
-of a rose. Others seem to have been quite smooth, and of
-a flattened shape, with a thick-set row of sharp hooks down
-both of the edges, like the spine on the tail of the sting-ray
-of the Mediterranean. Such weapons have considerable
-resemblance to the barbed spear-heads of savage tribes, and it
-is certain they were intended to act in a similar way, as at once
-offensive and defensive arms. The toothed spines of the sting-rays
-are still used in some parts of the world to point the warrior's
-spear and arrow. Is there not something suggestive in
-the fact that these stings, after having accomplished their
-appointed purpose as weapons of war in the great deep, should
-come to be employed over again in a like capacity on the land;
-and that an instrument, which was designed by the Creator as
-a means of protecting its possessor, should be turned by man
-into an implement for gratifying his cupidity and satiating his
-revenge? Other ichthyodorulites are elegantly ornamented by
-long rows of tuberculed lines arranged in a zig-zag fashion, or
-in straight rows tapering from base to point. In all there was
-a blunt unornamented base, which sank into the back and
-served as a point of attachment for the muscles employed in
-raising or depressing the spine. In some specimens the outer
-point appears rounded and worn, the characteristic ornament
-being effaced for some distance&mdash;a circumstance which probably
-indicates that these fishes frequented the more rocky parts of
-the sea.<a id="FNanchor_42" href="#Footnote_42" class="fnanchor">[42]</a></p>
-
-<div class="footnote">
-
-<p><a id="Footnote_42" href="#FNanchor_42" class="label">[42]</a> See Egerton, <i>Quart. Jour. Geol. Soc.</i>, vol. ix. p. 281.</p>
-
-</div>
-
-<p><span class="pagenum" id="Page_118">- 118 -</span></p>
-
-<p>The placoid teeth of the carboniferous rocks show the usual
-forms of the order. Some of them are sharp and pointed, as
-those of the hybodonts; others have a smooth, rounded, or
-plate-like form, as in the cestracionts. The latter often show
-a dark brilliant surface, and might be readily enough mistaken
-for well-worn pebbles. In the oblong rounded teeth of <i>psammodus</i>
-the surface is densely covered with minute points like
-grains of sand, whence the name of the genus. These teeth,
-when sliced and viewed under the microscope by transmitted
-light, exhibit a complex reticulated internal structure.</p>
-
-<p>Agassiz' second great Order of fishes is named Ganoid, from
-a Greek word signifying brightness, in allusion to the brightly enamelled
-surface of their dermal covering. They differ from the
-placoids in having their outer surface cased in a strong armature
-of bone, which is disposed either in the form of large overlapping
-plates, as among the strange tortoise-like fishes of the Old Red
-Sandstone, or as thick scales, which are either placed at intervals,
-as along the back and sides of the sturgeon, or closely imbricated,
-as in the stony-gar (<i>lepidosteus</i>) of the American rivers.
-This strong, massive skeleton constitutes in many genera the
-sole support of the animal framework, the inner skeleton being
-of a gristly cartilaginous kind, like that of the skate. On this
-account traces of the vertebral column are by no means abundant
-among the older formations. But as the ganoids form a
-sort of intermediate link between the placoid or gristly fishes on
-the one hand, and the bony fishes on the other, they are found
-to present in their different genera examples of both these kinds
-of structure. Thus, the skeleton of the sturgeon consists of a
-firm cartilage, out of which the vertebr&aelig; are moulded, so that
-this fish was at one time ranked with the sharks in the cartilaginous
-tribe of Cuvier. The skeletons of some of the older
-ganoids (as <i>holoptychius</i>), on the other hand, manifest such a
-decidedly osseous structure, with sometimes so much of a reptilian
-cast, that the bones were at first referred to some huge
-<span class="pagenum" id="Page_119">- 119 -</span>
-extinct saurians. The head of the ganoid fishes is encased in a
-set of large massive plates of bone, and the jaws are furnished
-with several rows of small sharp teeth, intermingled with a less
-numerous but larger-sized and more formidable kind. The
-interior of the mouth likewise displayed in many ancient genera
-groups of palatal teeth, so that the dental apparatus of these
-animals must have been very complex and complete. The tail
-in all the older ganoids was heterocercal, like that of the
-sharks, the lobes being not unfrequently densely covered with
-minute overlapping scales of bone&mdash;a peculiarity which also
-extended to the fins. But the fins were sometimes strengthened
-in another way by having the foremost ray greatly thickened
-and enlarged, so as to form a stiff spine like the ichthyodorulites
-of the placoids. The whole of the external surface of these
-ganoidal fishes glittered with enamel, and was usually sculptured
-in the most graceful patterns or ornamented with fine
-lines and punctures so minute as to be almost invisible to the
-naked eye. Every plate, scale, fin-ray, nay, the very lips exhibited
-the characteristic enamel mottled over with the style of
-ornament peculiar to the species. And when we think we have
-exhausted the contemplation of these beauties, it needs but a
-glance through an ordinary microscope to assure us that the
-unassisted eye catches only a superficial glimpse of them. The
-more highly we magnify any portion of these old-world mummies,
-the more exquisite does its structure appear.</p>
-
-<p>In the carboniferous rocks of Great Britain, upwards of forty
-species of ganoids have been detected. They have a wide range
-in size, the smallest measuring scarce two or three inches, while
-the largest, to judge at least from the bones which they have
-left behind, must have reached a length of twenty, or perhaps
-even thirty feet The lesser genera (<a href="#fig29">Fig. 29</a>) were characterized
-by small, angular, glossy scales, usually ornamented either
-with a very minute punctulation, or with fine hair-like lines
-which sometimes exhibited the most complicated patterns.
-<span class="pagenum" id="Page_120">- 120 -</span>
-The scales were likewise occasionally serrated along the exposed
-edges&mdash;a style of ornament which gives no little richness to
-the aspect of the dermal covering. The fins, closely imbricated
-with small angular scales of bone, sometimes displayed a
-striated ray in front, but this neither possessed the strength
-nor the formidable aspect of the corresponding spine among
-the placoids. The head was encased in a set of bony plates
-fitting tightly into each other, and ornamented with various
-patterns according to the species. The teeth were very
-small and fine, resembling the bristles of a brush, but in at
-least some species intermingled with teeth of a larger size.
-The minute style of dentition in these smaller fishes has been
-thought to indicate their habit of keeping to the bottom of the
-water and feeding on the soft decaying substances lying there.
-Nowhere have I seen the small rhomboidal scales of the <i>pal&aelig;oniscus</i>
-so abundant as among dark shales charged with cypris
-cases and fragments of terrestrial plants, and on such occasions
-the idea has often occurred that these graceful little fishes, like
-the <i>amia</i> of the American rivers, may have fed on the cyprides
-that swarmed along the bottom of the estuary.</p>
-
-<div class="figcenter" id="fig29" style="width: 488px;">
-  <img src="images/fig29.png" width="488" height="212" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 29.</span>&mdash;Amblypterus macropterus (a Carboniferous ganoid).</div>
-</div>
-
-<p>Scattered over the fresh-water limestones, ironstones, and
-shales, or crowded together along the upper surface of some of
-<span class="pagenum" id="Page_121">- 121 -</span>
-the coal-seams, there occur the remains of two very remarkable
-ganoidal fishes. They deserve our attention for their great size,
-their complex organization, and the important place in the scale
-of animal life which they occupied during a former period. One
-of them has been called <i>megalichthys</i> or <i>great fish</i>&mdash;an unhappy
-name, since the animal did not reach the dimensions attained
-by not a few of the other ganoids, and was even surpassed by
-at least one of its contemporary congeners. The other is known
-as the <i>holoptychius</i> or <i>wrinkled scale</i>. A more detailed examination
-of these two animals will perhaps best enable us to
-understand the character of the ganoid fishes that lived in the
-waters of the Carboniferous period.</p>
-
-<p>The megalichthys had an average length of about three feet.
-Like the other members of the ganoid order it had a glittering
-exterior, every scale and plate being formed of strong bone, and
-coated with a bright layer of enamel. Wherever this polished
-surface extends, it is found to be ornamented with a minute
-punctulation, the pores of which lie thickly together like the
-finer dots of a stippled engraving. The cranial plates are
-further varied by a scattered and irregular series of larger punctures
-that look as if they had been formed by the insertion of
-a pin-point into a soft yielding surface. The examination of
-the head of the megalichthys as depicted in <a href="#fig30">Fig. 30</a>, will convey
-an adequate conception of the structure of a ganoidal cranium.</p>
-
-<p><span class="pagenum" id="Page_122">- 122 -</span></p>
-
-<div class="figcenter" id="fig30" style="width: 670px;">
-  <img src="images/fig30.png" width="670" height="395" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 30.</span>&mdash;Head of Megalichthys Hibberti, one-sixth of natural size (Agass. <i>Poiss. Foss.</i> Tab. 63).<br />
-    A Upper side. B. Under side. C Profile.</div>
-</div>
-
-<p><span class="pagenum" id="Page_123">- 123 -</span></p>
-
-<p>The snout is formed of an elegantly curved bone (<i>c</i>) fringed
-along its under edge with minute thick-set teeth. On either
-side it is flanked by two triangular plates, which occupy the
-space between the intermaxillary bone (<i>c</i>) and the upper jaws
-(<i>q q</i>). The eye orbits seem to have been at the corners of the intermaxillary,
-circumscribed by the sub-orbitals (<i>f g h</i>) and the ethmoids
-(<i>b</i>). The massive intermaxillary bone had its posterior
-margin of an angular form, and into the notch thus formed there
-was wedged the anterior end of a long strip of plates, which
-expanded as they approached the occipital part of the cranium,
-and terminated in three irregular plates that may represent the
-place of the parietal and occipital bones. The space between
-this belt and the upper jaws was occupied by three large plates
-(<i>i k l</i>) which in other ganoids, as the <i>osteolepis</i> of the Old Red
-Sandstone, were united into a single pre-opercular bone of considerable
-size. The operculum or gill cover (<i>m</i>) was relatively
-large, and had an elegantly curved anterior margin. The
-upper jaws (<i>q</i>) were comparatively small, and had a fringe of
-small conical teeth. The under jaws (<i>r r</i>) reached to nearly
-double the length of the upper, and were similarly set round
-with teeth. The teeth of the megalichthys, like those of the
-living lepidosteus, consisted of two kinds, of which the one
-bristled thickly along the outer edge of the jaw as sharp minute
-points, averaging about a line in length, while behind this outer
-row lay a scattered series of much larger teeth that sometimes
-rose nearly an inch above the jaw. The external surface of
-these more formidable tusks is smooth, glittering, and minutely
-striated with fine lines from base to point, while the root of
-each is farther marked by a circle of short, deep, longitudinal
-furrows. The internal structure displays a close ivory, which
-when viewed under a microscope is seen to be made up of fine
-tubes radiating from the outer surface to the hollow central
-cavity. Some of the bones in the interior of the mouth seem
-to have been also furnished with an apparatus of teeth. The
-under surface of the cranium between the arch of the under
-jaws consists of two oblong central plates (<i>t</i>) surrounded by a row
-of sixteen irregular ones, eight on each side, and terminated in
-front by a large lozenge-shaped scale (<i>u</i>) which fits into their angle
-of junction on the one side, and into the symphysis of the jaws
-on the other. In the osteolepis there were likewise two large
-plates terminating in a similar lozenge-shaped one, but without
-the flanking rows. In the famous Old Red holoptychius of
-Clashbennie, the under surface of the head had but two plates,
-and in the still older and more gigantic asterolepis, there was
-<span class="pagenum" id="Page_124">- 124 -</span>
-but one. It is the delightful task of the paleontologist to
-compare and contrast these various pieces of mechanism, to
-mark how what seems lacking in one comes to be supplied in
-another, and to trace out the various modes in which, during
-the ages of the past, Nature has wrought out the same leading
-plan, sounding, as it were, an ever-changing series of modulations
-upon one key-note. In comparing together the ganoids
-of the Old Red Sandstone and the Carboniferous rocks, he
-finds that in the asterolepis&mdash;a fish belonging to the lower
-part of the former formation&mdash;the pointed arch formed by
-the sweep of the lower jaws is filled up by a single plate like
-some abbey-window with its mullions knocked away, and built up
-with rude stone and lime. Higher in the same group of rocks
-he meets with the cranium of the holoptychius, where there is
-one straight central mullion running in an unbroken line from
-the angle of the arch to its base. In the osteolepis<a id="FNanchor_43" href="#Footnote_43" class="fnanchor">[43]</a> he sees
-this mullion branching into two at its upper end, so that the
-window consists of three divisions, as in the simplest style of
-Gothic. Passing upwards into the Carboniferous system, he encounters
-a still more ornate arrangement in the cranium of the
-megalichthys. The central mullion with its two upper branches
-still remains, but it is flanked by an additional one on each
-side, from which there spring six cross bars that diverge obliquely
-with a slight curve, so as to join the outer arch and
-subdivide the window into nineteen compartments. So varied
-are the plans of the Divine Architect in what to man may
-seem such a little matter as the piecing together of a fish's
-skull.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_43" href="#FNanchor_43" class="label">[43]</a> Hugh Miller's <i>Footprints of the Creator</i>, p. 91.</p>
-
-</div>
-
-<p>The body of the megalichthys was cased in an armature of
-as solid and glittering bone as that which defended its head.
-Where the plates of the cranium ended off they were succeeded
-by large rhomboidal scales that crossed the body obliquely, and
-overlapped each other like the metal plates in the antique scale-armour.
-<span class="pagenum" id="Page_125">- 125 -</span>
-Each scale consisted of two parts, of which one had
-a rhomboid form and was covered over with enamel, while the
-other ran round the two inner sides of the rhomb as a broad
-unenamelled selvage deeply indented along its centre. It was
-the enamelled portion alone that formed the outer surface, the
-rough unpolished border being covered by the overlapping edges
-of the adjoining scales. The scales had not a uniform thickness,
-but were strongest at the covered part from which each thinned
-off to the outer edges. In this way the thin edge of one scale
-pressed down on the thick part of the subjacent one, and a
-covering of uniform strength and smoothness was produced.
-Looking at a set of these scales as they still occupy their original
-position on the creature's body, it is scarcely more than a half of
-each which meets our eye; for the unenamelled border occupied
-about a third of the entire surface, and a fourth of the remainder
-was covered by the overlapping scales. The effect of this arrangement
-must have been to combine great strength with the most
-perfect flexibility. Notwithstanding the bulk of his helmet and
-the weight of his scale-armour, we cannot conceive the megalichthys
-to have been other than a lithe, active, predaceous fish,
-dealing death and destruction among the herring-like shoals of
-little pal&aelig;onisci and amblypteri, though able to maintain perhaps
-but a doubtful warfare with his more bulky contemporary,
-the holoptychius. The internal structure of the scales of the
-megalichthys exhibits the same provision for combining strength
-with the least possible amount of material. Viewed in a transverse
-section under a magnifying power of about eight diameters,
-they are seen to consist of three layers of bone; each
-possessing a peculiar structure. The outermost is formed of a
-tessellated pavement of minute round ocelli, having a fine brown
-colour, and placed close together with considerable regularity.
-They somewhat resemble little wheels, the axle being either a
-dark solid nucleus or a small circular aperture, whence there
-radiates to the outer rim a set of exceedingly minute fibres
-<span class="pagenum" id="Page_126">- 126 -</span>
-which were originally hollow, and served as canals to carry on
-the growth of the scale. The vacant space left where four
-wheels impinge on each other, forms one of the pores that cover
-the enamelled surface of the scale. The whole structure of this
-outer layer very closely resembles that presented by the internal
-part of the base of the teeth, save that the confluent lobes
-shown in the teeth become in the scale detached into separate
-and independent circles. The central stratum of each scale is
-composed of a loose open network of cancellated bone that
-passes into the layer on either side, and resembles in its general
-texture the osseous vertebr&aelig; of the same fish. The under
-layer, one end of which rested immediately on the skin,
-approaches more to the firmness and solidity of the outer one,
-but, in place of a tessellated, ivory-like pavement, it had a close
-fibrous texture, with here and there a scattered cavity, and the
-fibres were matted together so as to resemble the more solid
-structure of the cranial bones. The effect of this triple arrangement
-must have been to impart great strength and lightness to
-the external armature of the fish; the middle spongy layer
-serving, by its porosity, at once to deaden the effect of any blow
-aimed at the outside, and to give buoyancy and lightness to
-what would otherwise have been a coat of mail well-nigh, as
-ponderous as that of a feudal chief. One can hardly conceive
-any implement of warfare in use among the lower animals of
-strength enough to pierce this massive covering. But we shall
-find as we go on that if the megalichthys had a strong defensive
-armour, a bulkier neighbour had a still stronger offensive one,
-and that the enamelled plates of the one fish were scarcely a
-match for the huge pointed tusks of the other.</p>
-
-<p>The megalichthys had an osseous skeleton, with vertebr&aelig; of
-a discoidal form. These internal bones when viewed under the
-microscope are found to display an open cancellated structure,
-resembling that of the central layer in the scales. It thus
-appears that this ancient fish was not merely defended by a
-<span class="pagenum" id="Page_127">- 127 -</span>
-hard external armour, but possessed an equally solid framework
-of bone within.</p>
-
-<p>Mingled with the scales and bones of the megalichthys, there
-are found the remains of a still larger fish, to which the name
-of Holoptychius has been given. Its external ornament differed
-entirely from that of the animal last described. It possessed
-teeth sometimes six or seven times larger, and jaws, plates, and
-bones of a form and dimensions totally distinct. Strange as it
-may seem, however, these two fishes have been constantly and
-systematically confounded from the time when they were first
-discovered. Two or three years ago, there might be seen in
-the British Museum several specimens of the holoptychius, of
-which some bore the correct name, while the rest were labelled
-"Megalichthys;" and a similar error prevailed in several of the
-other museums.<a id="FNanchor_44" href="#Footnote_44" class="fnanchor">[44]</a> The confusion can be traced very distinctly
-in the memoir of Dr. Hibbert, who for the first time described
-the remains of these fishes, and wrote according to information
-received from Agassiz.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_44" href="#FNanchor_44" class="label">[44]</a> The mistake was noticed in 1845 by Hugh Miller, who, in a foot-note to his <i>First
-Impressions of England and its People</i>, p. 71, well defines the distinctions between the
-two ichthyolites.</p>
-
-</div>
-
-<p>In the autumn of 1832, the attention of the scientific public
-of Edinburgh was directed to the extraordinary character of
-some fossil remains obtained from the lime-quarries of Burdiehouse,
-a village about four miles to the south of the town.
-Dr. Hibbert visited the locality, and soon saw enough to excite
-his lively interest in its thorough investigation. The Royal
-Society of Edinburgh warmly supported his exertions, and by
-their means a large suite of specimens was eventually obtained,
-which the Doctor from time to time described as they were
-successively received. At the meeting<a id="FNanchor_45" href="#Footnote_45" class="fnanchor">[45]</a> of the British Association
-in Edinburgh, in 1834, the specimens were exhibited before
-the Geological Section, and a memoir upon them read by their
-successful discoverer. On the conclusion of the paper, a lively
-<span class="pagenum" id="Page_128">- 128 -</span>
-discussion ensued upon the nature of the animal to which the
-scales and teeth had belonged. Dr. Hibbert argued, from the
-deeply-furrowed teeth, and the strong, massive cranial plates,
-that the animal must have been a reptile, and supported his
-assertion by no small amount of anatomical skill. In the midst
-of the discussion, a message was sent to the great ichthyologist
-of Neufchatel, who happened to be at that time busily engaged
-in the Zoological Section. Passing over the fossils as they
-lay grouped upon the table, with that quick perception for
-which he is so justly celebrated, Agassiz at once decided that
-the bones must have been those of some large and hitherto
-undescribed <i>fish</i>. Such a decision from such an authority produced
-of course no little sensation, and the naturalist was told
-with some surprise that the remains had just been elaborately
-described as those of extinct reptiles. "Reptiles!" thought
-Agassiz, and again his quick eye darted over the table; but
-the fossils would yield no other answer than what they had
-already given. Despite their seeming reptilian character, they
-were undoubtedly ichthyic, though belonging to an animal up to
-that time unknown. In the completed memoir which Dr. Hibbert
-subsequently submitted to the Royal Society, his mistake was
-freely acknowledged, and the remains there flourish as those of
-a true fish. But with this amendment a grave error of another
-kind was committed, though in this the Doctor seems to have
-been supported by the authority of Agassiz himself. The large
-bones, scales, and teeth of the Burdiehouse limestone, were all
-indiscriminately thrown into one genus, to which Agassiz gave
-the name of Megalichthys; and in the memoir we find the different
-kinds of scales and teeth described and figured without
-the slightest intimation or suspicion that they might possibly
-have belonged to different animals. The novelty of the discoveries
-soon attracted general attention to Dr. Hibbert's paper.
-It was quoted or referred to in almost every scientific work
-treating of general geology, while in some instances (as in Dr.
-<span class="pagenum" id="Page_129">- 129 -</span>
-Buckland's <i>Bridgewater Treatise</i>) the erroneously-named bones
-were re-engraved. A tooth from the Fife coal-field, drawn for
-one of the woodcuts in a popular elementary manual, was also
-named megalichthys; an error perpetuated through every
-edition till the last, where the tooth has been restored to
-its true owner&mdash;the holoptychius. In truth, no two organisms
-have ever been so maltreated; and if the reader will kindly
-bear with me a little further, it will not be difficult to show
-him that the holoptychius had peculiarities of its own quite as
-distinct as those that have come before us in the megalichthys,
-and that each animal has a full and legitimate claim to a separate
-and independent niche in the gallery of fossil fishes.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_45" href="#FNanchor_45" class="label">[45]</a> See Agassiz, <i>Poiss. Foss.</i>, tom. ii. Part 2, p. 89 <i>et seq.</i></p>
-
-</div>
-
-<p>The word <i>holoptychius</i> means, as I have said, "wrinkled or
-folded all over,"&mdash;a name truly expressive of the peculiar style
-of ornament displayed by every part of the exterior of the animal's
-body. The head-plates, which are of great size, exhibit a
-fine corrugated shagreen-like surface, roughened into knobs, and
-wavy lines of confluent tubercules, that remind one disposed to
-be fanciful, of a frosty December moon with its isolated peaks,
-and confluent mountain chains. The scales are of a rounded or
-oval form, and vary from less than half an inch to fully four or
-even five inches in diameter. Their upper side consists of two
-parts, one of which with a crescent shape lay beneath, the over-lapping
-scales, while the other passed outwards to form a portion
-of the outer visible surface. The part that was hidden by the
-overlapping scale was smooth, with a finely striated surface.
-The exposed portion displayed the usual corrugated sculpturing,
-many of the little tubercules having striated sides, and showing,
-in consequence, no little resemblance to the star-like knobs on
-the dermal covering of the Old Red Sandstone asterolepis. The
-inner surface of the scales was concave, with a central prominent
-oblong point surrounded by encircling scaly ridges, and forming
-what is called the centre of ossification.<a id="FNanchor_46" href="#Footnote_46" class="fnanchor">[46]</a></p>
-
-<div class="footnote">
-
-<p><a id="Footnote_46" href="#FNanchor_46" class="label">[46]</a> The above descriptions of the scales and teeth of these two fishes, are taken from
-specimens in my own collection. None of my holoptychian scales show incontestable
-the proportion of the covered to the exposed part. Judging from the aspect of one of
-them, the wrinkled portion occupied perhaps about three-fifths of the entire scale,
-the remaining part being covered by the overlapping edges of those adjacent; for the
-characteristic corrugated surface was essentially an external ornament, and ceased at
-the point where the external bone passed into the interior. I may remark, that the
-upper side of the scales is not very frequently seen in the Burdiehouse limestone, the
-rough surface usually adhering to the rock, and leaving only the smooth inner side
-exposed. Out of seven specimens from that locality, only one shows the upper side,
-and that by no means in a perfect state of keeping. The structure alike of scales and
-bones can be seen to much greater advantage in the shales, ironstones, and coals of the
-coal-fields, where, owing to the soft nature of their matrix, the fossils can be readily
-cleared and exposed.</p>
-
-</div>
-<p><span class="pagenum" id="Page_130">- 130 -</span></p>
-<p>But perhaps the most remarkable and characteristic parts of
-the carboniferous holoptychius were its jaws and teeth. As we
-might readily conjecture from the great size and strength of
-the scales and cranial plates of this fish, its dentition was of a
-correspondingly massive type. The under jaw, with the usual
-corrugated ornament, frequently exceeded a foot in length, and
-displayed along its upper edge a thick-set group of teeth. Of
-these there were two kinds one of a smaller size and more
-blunted form, with short indented furrows at their base; the
-other of a greatly more formidable size, grouped at intervals
-among the smaller ones. The front end of each under jaw bore
-one of these long conical tusks, serving as it were to guard the
-entrance of the mouth. Each of the larger teeth had a base
-strongly marked with longitudinal furrows, and sank deep
-into the jaw, with the bone of which it sometimes anchylosed.<a id="FNanchor_47" href="#Footnote_47" class="fnanchor">[47]</a>
-The part of the tooth above this socket had an oval form, so
-flattened as to present two cutting edges, one facing the front,
-the other the back of the mouth, and meeting at the upper end
-of the tooth which was sharp and pointed. Such large conical
-tusks may frequently be obtained, having a length of two or
-<span class="pagenum" id="Page_131">- 131 -</span>
-three inches, while occasionally they range as high as six or
-seven, the smaller teeth seldom reaching so much as an inch.
-It is difficult to see how, with such a formidable dentition, the
-jaws could readily close. In some specimens I have seen deep
-hollows beside the bases of the teeth, which may possibly have
-received those of the opposite jaw, but the gigantic tusks at the
-entrance of the mouth seem to have stood high over the jaw,
-passing outside like those of the wild-boar. If this be correct,
-the jaw of the holoptychius would unite the mechanism of both
-the alligator and the crocodile&mdash;its recipient hollows being
-analogous to the tooth-pits in the former tribe, and its protruded
-teeth to the similarly exposed teeth of the latter.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_47" href="#FNanchor_47" class="label">[47]</a> I have seen detached teeth, wherein the length of the root, or part imbedded in the
-jaw, tripled that of the exposed part, sinking four or five inches into the bone without
-any trace of anchylosis. Whether these huge tusks belonged to the upper or under
-maxillary, I do not pretend to say, though no specimen of the under jaw, which has ever
-come under my notice, would accommodate half of such a deep-sunk base.</p>
-
-</div>
-
-<div class="figcenter" id="fig31" style="width: 483px;">
-  <img src="images/fig31.png" width="483" height="152" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 31.</span>&mdash;Jaw of Holoptychius (<i>Rhizodus</i>.&mdash;Owen) from Gilmerton, one-fourth nat.
-size; the large teeth along the middle part of the jaw are here wanting.</div>
-</div>
-
-<p>When we bring the microscope to bear upon the elucidation
-of the structure of these ancient teeth, it seems as if our labour
-had but just begun; and that so far from having by an external
-scrutiny exhausted all that they have to show us, our knowledge
-of them can be but scanty and superficial until we have
-studied them carefully under a magnifying power. Microscopic
-sections of such organic remains are prepared in the
-same way as those of the fossil woods already noticed; and
-a more interesting or beautiful series of objects cannot be conceived
-than a set of slices of these fossil-teeth.</p>
-
-<p>Viewed, then, in longitudinal section from base to point, the
-part above the fluted root of one of the large teeth of the holoptychius
-<span class="pagenum" id="Page_132">- 132 -</span>
-is seen to consist of minute hair-like fibres of extreme
-tenuity, which proceed in straight lines from the outer surface
-to the interior. At right angles to these, and parallel with the
-outer edges, there is a set of dark widely-placed lines conforming
-to the outline of the tooth, like so many long sugar-loaf shaped
-caps, placed within each other. When this part is cut across,
-and viewed in transverse section, the tooth is observed to be of
-a flattened oval form, with the same fine fibres or tubes radiating
-from the centre, and traversed by the same dark bands
-which now assume the form of concentric rings. The appearance
-thus presented reminds one at once of a cross section of some
-dicotyledonous tree, the dark bands resembling the annual layers
-of growth, and like these resulting from a similar thickening of
-the internal tissue. The upper part of the tooth is solid and
-the concentric rings few; the middle exhibits an increase of the
-rings, and possesses, moreover, a hollow centre or pulp-cavity,<a id="FNanchor_48" href="#Footnote_48" class="fnanchor">[48]</a>
-with the usual diverging fibres. Here the oval form is well
-shown, and the encircling rings are considerably flattened at
-the ends of the long axis.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_48" href="#FNanchor_48" class="label">[48]</a> This hollow centre may be seen occasionally filled up by a sharp conical tooth like the
-<i>phragmocone</i> of a belemnite.</p>
-
-</div>
-
-<p>The lower portion of the tooth exhibits a much more complicated
-texture. Externally it is marked by deep longitudinal
-furrows, that run down the enamelled sides and sink into the
-jaw. When cut across at this ribbed part, the tooth is found
-to present the most complex and graceful internal structure.
-The prominent ridges between the furrows are seen to be produced
-by crumpled folds of the substance of the tooth, which
-roll inwards towards the centre, coalescing with each other, and
-forming intricate groups of circling knots and folds. In some
-places they seem all but separated from each other into little
-circles, pierced with a central aperture, and recall the aspect of
-the upper layer in the scale of megalichthys. Each of these
-loops and folds presents a texture exactly similar to that of the
-<span class="pagenum" id="Page_133">- 133 -</span>
-upper part of the tooth. The same minute hair-like tubes,
-darkened and thickened in the long axis, radiate towards the
-centre; the same concentric bands run from centre to circumference;
-so that the lower part of the tooth seems, as it were,
-made up of a bundle of smaller teeth partially melted into each
-other. Between these loops and folds circular meshes frequently
-occur, and add to the complexity as well as the beauty of the
-whole structure. One of these sections, with all its twisting
-crumples, and folds, and knots, and coloured meshes, and encircled
-rings, bears no small resemblance to an antique polished
-table that has been cut out of the gnarled roots of a venerable
-oak. This complex structure arose from the mode of growth
-of the tooth; each prominent external ridge continually turning
-inwards down the furrow on either side, and mingling in freakish
-knots with the folds that had gone before.<a id="FNanchor_49" href="#Footnote_49" class="fnanchor">[49]</a></p>
-
-<div class="footnote">
-
-<p><a id="Footnote_49" href="#FNanchor_49" class="label">[49]</a> For an acquaintance with the remarkable teeth of this ancient fish, more minute
-than it had been my good fortune to possess before, I am indebted to a most interesting
-series of microscopical preparations kindly lent me from his extensive collection by my
-friend Mr. Alexander Bryson of Edinburgh.</p>
-
-</div>
-
-<p>The internal bones of the holoptychius were of great size and
-strength, as befitted such a bulky ganoid. Some of them had
-a singular style of surface ornament, that somewhat resembled a
-frosted widow on a December morning. Their internal structure
-was loose and cancellated; the endo- being usually of a less
-compact texture than the exo-skeleton. Judging from the size
-of such bones, the carboniferous holoptychius must have been one
-of the bulkiest and most formidable denizens of the deep, reaching
-sometimes to a length of twenty feet or even more. Such
-an animal would have been, perhaps, quite a match for our
-hugest crocodile or alligator, for it must have swum about with
-a litheness and agility possessed by none of the saurian reptiles.
-Like that leviathan chosen by the Almighty, in an age long
-subsequent, as an illustration of His power and greatness, the
-holoptychius must have been king over all the inhabitants of
-<span class="pagenum" id="Page_134">- 134 -</span>
-the sea, and the magnificent language of Job, descriptive of the
-living animal, applies not less graphically to the extinct one:
-"Who can open the doors of his face? his teeth are terrible
-round about. His scales are his pride, shut up together as with
-a close seal. One is so near to another, that no air can come
-between them. He maketh the deep to boil like a pot: he
-maketh the sea like a pot of ointment. He maketh a path to
-shine after him; one would think the deep to be hoary."</p>
-
-<p>Our survey has hitherto been directed to the denizens of
-carboniferous lake, river, and sea, and we have found them to
-be alike important in numbers and interesting in organization.
-It is otherwise, however, when we turn in search of the denizens
-of the carboniferous lands. The crowded trees and shrubs
-of the coal strata recalling as they do old forest-covered swamps,
-might seem to indicate the probability of a pretty numerous
-terrestrial fauna. Where are we to look for the fossilized relics
-of land animals, if not in the remains of a submerged land-surface?
-And yet, strange as it may seem, of the inhabitants
-of the land during the Coal-measure period we know almost
-nothing. "We have ransacked hundreds of soils replete with
-the fossil roots of trees,&mdash;have dug out hundreds of erect trunks
-and stumps, which stood in the position in which they grew,&mdash;have
-broken up myriads of cubic feet of fuel, still retaining its
-vegetable structure,&mdash;and, after all, we continue almost as much
-in the dark regarding the invertebrate air-breathers of this
-epoch, as if the coal had been thrown down in mid-ocean."<a id="FNanchor_50" href="#Footnote_50" class="fnanchor">[50]</a></p>
-
-<div class="footnote">
-
-<p><a id="Footnote_50" href="#FNanchor_50" class="label">[50]</a> Sir Charles Lyell's <i>Elements</i>, fifth edition, p. 406.</p>
-
-</div>
-
-<p>The little land-shell already noticed as having been detected
-by Sir Charles Lyell in the carboniferous rocks of Nova Scotia,
-seems to be as yet the only air-breathing mollusc obtained from
-rocks of such high antiquity. Insect remains have been detected
-in the English coal-fields belonging to two or three species of
-beetles; while on the Continent, wing-sheaths and other fragments
-of cockroaches, scorpions, grasshoppers, locusts, crickets,
-<span class="pagenum" id="Page_135">- 135 -</span>
-&amp;c., have been detected. But the most remarkable traces of
-air-breathers consist in various indications of the existence of
-reptiles during the Carboniferous era. Fragmentary skeletons,
-with detached bones and plates, have been found in Bavaria and
-America, together with long tracks of footprints, from which it
-appears that during the time our coal-seams were forming, there
-swam through the sluggish deltas, or crept amid the dank luxuriant
-foliage, strange lizard-like forms, large enough to leave behind
-them on the soft yielding mud or sand the impress of their
-double pair of toed feet. But of these animals we have much
-to learn. Some of them have bequeathed to us merely their
-dismembered broken bones; others have left but the imprints
-of their toes. Yet even these remains, trifling as they may seem,
-become of importance when we remember that they demonstrate
-fishes not to have been the highest types of being during the
-epoch of the Coal, and show that while the bulky holoptychius
-held the supremacy of the waters, lizard-like forms of a less formidable
-type seem, so far as we know, to have ruled it over
-the land.</p>
-
-<p>In fine, then, no one can glance at a list of the carboniferous
-fauna without perceiving either that the animated world of that
-ancient epoch must have had a very different proportioning from
-what now obtains, or that we have only a meagre and fragmentary
-record of it. That the latter conclusion is the more
-philosophical will appear if we reflect upon the many chances
-that exist against the entombment and preservation of animal
-remains, especially of those peculiar to the land. How very
-small a proportion of the remains of animals living in our own
-country could be gathered from the surface-soil of any given
-locality, and how very inadequate would be the meagre list of
-species thus obtained, as representing the varied and extensive
-fauna of Great Britain! In contrasting, then, the rich abundance
-of marine organisms with the extreme paucity of terrestrial
-animals among the carboniferous rocks, it would be too
-<span class="pagenum" id="Page_136">- 136 -</span>
-hasty to infer a corresponding disproportion originally. It must
-be admitted that the rarity of air-breathers, after such long-continued
-and extensive explorations among terrestrial and
-lacustrine beds, presents a difficult problem, only (if at all) to
-be cleared away by patient and persevering investigation. With
-this preliminary caution, we may regard the carboniferous fauna
-as peculiarly rich in marine species. The sea-bottoms swarmed
-with stone-lilies, cup-corals, and net-like bryozoa, mingled with
-the various tribes of molluscan life&mdash;the brachiopods with their
-long ciliated arms; the bivalves and gastropods with their
-coloured shells that recall some of the most familiar objects of
-our shores; and the cephalopods with their groups of siphonated
-chambers, straight as in the orthoceras, or gracefully
-coiled as in the goniatite. The seas swarmed, too, with fishes
-belonging to the two great orders of ganoids and placoids, the
-latter represented now by our sharks and rays, though the exact
-type of the ancient genera is retained only by the cestracion or
-Port-Jackson shark; the ganoids, with their strong armour of
-bone, represented by but two genera, the lepidosteus of the
-American rivers, and the polypterus of the Nile,&mdash;two fishes
-that seem but as dwarfs when placed side by side with the
-gigantic holoptychius of the coal-measures. The rivers and
-estuaries of the same period seem to have been frequented by
-immense shoals of the smaller ganoidal fishes that fed on decaying
-matter brought down from the land, and perhaps, too, on
-the minute Crustacea that lay strewed by myriads along the
-bottom. Into these busy scenes the bulkier monsters from the
-sea made frequent migrations, perhaps in some cases ascending
-the rivers for leagues to spawn, and returning again to their
-places at the mouth of the estuary or in open sea. The rivers
-and lakes swarmed with small crustaceous animals, and nourished,
-too, shells like those of our pearl-mussels. The land&mdash;so luxuriantly
-clothed with vegetable forms&mdash;was hummed over by
-beetles, chirupped over by grasshoppers and crickets, and crawled
-<span class="pagenum" id="Page_137">- 137 -</span>
-over by four-footed reptiles, that united in their structure the
-lizard and the frog. But of the general grade and proportions
-of its denizens we still remain in ignorance. From all that yet
-appears, the scenery of these forests must have been dark,
-silent, and gloomy, buried in a solitude that was startled by no
-tiger's roar, no cattle's low, and neither cheered with the melody
-of birds nor gladdened by the presence of man.</p>
-
-<p>We have lingered, perhaps, too long over the remains of these
-old carboniferous animals. But the delay may be not without
-its use if, by thus bringing before us some of the more marked
-points in the structure of creatures that for ages peopled our
-planet, it broaden our view of creation; and by lifting the curtain
-from off a dim, distant period of our world's long history, it show,
-amid all diversities of arrangement, and all varieties of form,
-still the same grand principles of design, and the same modes of
-working as those which we can see and compare among the living
-forms around us. It is something to be assured that the race of
-man has been preceded by many other races, lower indeed in the
-scale of being, but manifesting, throughout the long centuries
-of their existence, ideas of mechanism and contrivance still
-familiar to us, and serving in this way to link the human era
-with those that have gone before, as parts of one grand scheme
-carried on by one great Creator.</p>
-<hr class="chap x-ebookmaker-drop" />
-
-<div class="chapter">
-<p><span class="pagenum" id="Page_138">- 138 -</span></p>
-
-<h2 class="nobreak" id="CHAPTER_VIII">CHAPTER VIII.</h2>
-</div>
-
-
-<div class="blockquot">
-
-<p>Sand and gravel of the boulder&mdash;What they suggested&mdash;Their consideration leads us
-among the more mechanical operations of Nature&mdash;An endless succession of mutations
-in the economy of the universe&mdash;Exhibited in plants&mdash;In animals&mdash;In the
-action of winds and oceanic currents&mdash;Beautifully shown by the ceaseless passage of
-water from land to sea, and sea to land&mdash;This interchange not an isolated phenomenon&mdash;How
-aided in its effects by a universal process of decay going on wherever
-a land surface is exposed to the air&mdash;Complex mode of Nature's operations&mdash;Interlacing
-of different causes in the production of an apparently single and simple
-effect&mdash;Decay of rocks&mdash;Chemical changes&mdash;Underground and surface decomposition&mdash;Carbonated
-springs&mdash;The Spar Cave&mdash;Action of rain-water&mdash;Decay of granite&mdash;Scene
-in Skye&mdash;Trap-dykes&mdash;Weathered cliffs of sandstone&mdash;Of conglomerate&mdash;Of
-shale&mdash;Of limestone&mdash;Caverns of Raasay&mdash;Incident&mdash;Causes of this waste of calcareous
-rocks&mdash;Tombstones.</p>
-</div>
-
-<p><span class="smcap">From</span> the blackened plants that darkened the upper layers
-of the boulder, the transition was natural to the matrix in
-which they lay. The whole rock consisted of a fine quartzy
-sand more or less distinctly laminated, and showing in its lower
-parts well-rounded pebbles of quartz, green grit, and felspathic
-trap. The contemplation of these features suggested the existence
-of some old land with elevated ranges of hills, and wide
-verdant valleys traversed by rivulets and rivers which bore a
-ceaseless burden of mud, sand, and gravel, onwards to the sea.
-The pebbles afforded some indication of the kind of rocks that
-formed the hill-sides. Perhaps the higher grounds exhibited
-that grey wrinkled appearance peculiar to the quartz districts
-of the north-western Highlands, with here and there a bluff
-crag of felspathic trap shooting up from among the fern-brakes
-of the valley, or cutting across the channel of some mountain
-stream that tumbled over the pale rock in a sheet of foam.
-<span class="pagenum" id="Page_139">- 139 -</span>
-And there may have been among these uplands smooth undulating
-districts, dotted over with dark araucarian pines, and
-densely clothed with a brushwood of rolling fern, but which
-showed in all their ravines the green grit that formed the
-framework of the country,&mdash;its beds twisted and contorted,
-jointed and cleaved, like the grits and slates along the banks of
-many a stream, beloved by the angler, in the classic ground of
-the Ettrick and the Yarrow. But whatever may have been
-the special features of its scenery, there can be no doubt of the
-land's existence. The carbonized plants stand up to tell us of
-its strange and luxuriant vegetation. We have listened to
-their story, and suffered them to lead us away into forest, and
-lake, and sea, to look on the various forms of life, vegetable
-and animal, which abounded in that far-distant age. We
-return again to the boulder, and shall now seek to learn the
-lessons which the sand and pebbles have to teach us. Their
-subject belongs to what is called physical geology, and will
-bring before us some of the more mechanical operations of
-nature, such as the slow but constant action of air, rain, and
-rivers, upon hard rock, the grinding action of the waves, and
-the consequent accumulation of new masses of sedimentary rock.</p>
-
-<p>In all the departments of nature that come under the cognizance
-of man, there is seen to be an endless succession of
-mutations. According to the Samian philosopher&mdash;</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent0">"Turn wheresoe'er we may by land or sea,</div>
-    <div class="verse indent1">There's nought around us that doth cease to be.</div>
-    <div class="verse indent1">Each object varies but in form and hue,</div>
-    <div class="verse indent1">Its parts exchange; hence combinations new.</div>
-    <div class="verse indent1">And thus is Nature through her mighty frame</div>
-    <div class="verse indent1">For ever varying, and yet still the same."</div>
-  </div>
-</div>
-</div>
-
-<p>In the world of life we see how animals are sustained by a
-constant series of chemical changes in their blood, every respiration
-of air adding, as it were, fresh fuel to the flame of life
-within. In plants, too, there is an analogous process. The
-<span class="pagenum" id="Page_140">- 140 -</span>
-atmospheric air is by them decomposed, part of it being given
-off again, and part retained to build up the organic structure.
-Plants withdraw mineral matter from the soil, animals feed
-upon plants, and thus the earthy substances, after having
-formed a part, first of rock masses, then of vegetable, and subsequently
-of animal organizations, are returned again to the soil,
-whence to be once more withdrawn and undergo new cycles of
-mutation. But this perpetual interchange is not confined to
-the vital world. We see it in the action of winds, when heated
-air rises and moves in one direction, and the colder parts sink
-and travel the opposite way. The same principle is exhibited
-by the oceanic currents, the removal of a body of water, from
-whatever cause, always necessitating the ingress of a corresponding
-quantity to supply its place. But perhaps one of the
-most beautiful instances of these interchanges in the whole inorganic
-world is the ceaseless passage of water from the land to
-the sea, and from the sea to the land. The countless thousands
-of rivulets, and streams, and gigantic rivers, that are ever
-pouring their waters into the great deep, do not in the least
-raise its level or diminish its saltness. And why? Simply
-because the sea gives off by evaporation as much water as it
-receives from rain and rivers. The vapour thus exhaled ascends
-to the upper regions of the atmosphere, where it forms clouds,
-and whence it eventually descends as rain. The larger part
-of the rain probably falls upon the ocean, but a considerable
-amount is nevertheless driven by winds across the land. This
-finds its way into the streams, and so back again to the sea,
-only, however, to be anew evaporated and sent as drizzling rain
-across the face of land and sea. This interchange is constantly
-in progress, and seems to have been as unvarying during past
-ages.</p>
-
-<p>But the ceaseless passage of water between land and sea is
-not a mere isolated and independent phenomenon. Like all
-the rest of Nature's processes, even the simplest, it produces
-<span class="pagenum" id="Page_141">- 141 -</span>
-important and complicated effects. And the reader may, perhaps,
-think it worth looking at for a little, when he reflects
-that to this seemingly feeble cause we owe no small part of our
-solid lands, whether as islands wasted by the sea, or as part of
-vast and variegated continents, wide rolling prairies covered
-with verdure and roamed over by herds of cattle, or wintry
-Alpine hills lifeless and bare.</p>
-
-<p>The truth of this will appear when we reflect that the moisture
-which rises from the sea and falls on the land as rain, is
-free from any admixture of impurities; but by the time it
-again reaches the sea, after a circuit of perhaps many miles
-down valley and plain, it has grown turbid and discoloured,
-carrying with it a quantity of mud, sand, and drift-wood.
-The sediment thus transported soon sinks to the bottom, where
-it eventually hardens into rock, and in course of time is raised
-above the waves as part of a new land. Such I conceive to
-have been the origin of the sand, gravel, and imbedded plants
-of our boulder. It may be well, however, in going into the
-details of the subject, to take a wider view of this interesting
-branch of geology, and look for a little at the forms and modes
-of the decomposition of rocks, and the varied manner in which
-new sedimentary accumulations are formed.</p>
-
-<p>All over the world, wherever a land surface spreads out
-beneath the sky, there goes on a process of degradation and
-decay. Hills are insensibly crumbling into the valleys, valleys
-are silently eroded, and crags that ever since the birth of man
-have been the landmarks of the race, are yet slowly but surely
-melting away. It matters not where the hill or plain may lie,
-the highest mountains of the tropics and the frozen soil of the
-poles, yield each in its measure and degree to the influence of
-the general law. It might seem that so universal a process
-should be the result of some equally prevalent and simple cause.
-But when we set ourselves to examine the matter, we find it
-far otherwise. The waste of the solid lands, in place of arising
-<span class="pagenum" id="Page_142">- 142 -</span>
-from some single general action, is found to result from a
-multiform chain of causes, often local in their operation and
-variable in their effects. Such an investigation affords a good
-illustration of the general mode and fashion in which Nature
-delights to work. It shows us that what may seem a very
-simple process may be in reality a very complicated one; that
-in truth there exist in the world around us few if any simple,
-single processes, which stand out by themselves unconnected
-with any other; that, on the contrary, all become intimately
-linked together, the effects of one often forming part of the
-chain of causes in another, and producing by their combined
-action that complex yet strikingly harmonious order that pervades
-all the operations of Nature. To an extent of which
-Cicero never dreamed, there runs through all the world "such
-an admirable succession of things that each seems entwined
-with the other, and all are thus intimately linked and bound
-together."<a id="FNanchor_51" href="#Footnote_51" class="fnanchor">[51]</a> Man separates out these various processes, classifies
-and arranges them, because from the imperfection of his mental
-powers he cannot otherwise understand their effects; all would
-seem but chaos and confusion. But the formal precision and
-the sharp lines of demarcation exist only in his mind. They
-have no place in the outer world. There we see process dove-tailing
-<span class="pagenum" id="Page_143">- 143 -</span>
-with process, and spreading out over the material world
-in an endless network of cause and effect. We feebly try to
-trace out these interlacing threads, but we can follow them far
-in no direction. Proteus-like, they seem to change their aspect,
-blending now into one form, now into another, and so eluding
-our keenest pursuit.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_51" href="#FNanchor_51" class="label">[51]</a> Cicero, <i>De Nat. Deor.</i> lib. i. 4. So, in Bacon's <i>Wisdom of the Ancients</i>, under the fable
-"Pan or Nature:"&mdash;"The chain of natural causes links together the rise, duration, and
-corruption; the exaltation, degeneration, and workings; the processes, the effects, and
-changes, of all that can any way happen to things." Such is the philosopher's explanation
-of the Destinies as sisters of Pan. In no part of his writings can the thorough practical
-character of Bacon's philosophy be more conspicuously seen than in his treatment
-of these ancient fables. Glancing over the titles of the different papers, you are tempted
-to wonder what an intellect which could only appreciate poetry as a mode of narrating
-history or as a vehicle for the teaching of truth, will make of such fairy tales as those of
-Pan, Orpheus, Proteus, Cupid, and many others. They seem like so many airy Naiads
-crushed within the iron grasp of a hundred-banded Briareus. But a perusal of those
-delightful pages will show that the giant has really no malevolent intentions towards his
-fair prisoners; nay, that he only wishes, by stripping them of their paint and finery, to
-show that, with all their lightness and grace, they are nevertheless strong buxom dames,
-of the same doughty race with himself.</p>
-
-</div>
-
-<p>As an instance, therefore, of this remarkable interlacing of
-different causes in what we call a single process, the disintegration
-of rocks deserves our attention. In ordinary language, we
-say a stone rots away, and its debris is washed down by the
-rains and streamlets, and the process does not at first sight
-seem at all more complex than the expression used to describe
-it; yet if we examine the subject, we shall ere long find that
-there are in nature many simpler things than the rotting away
-of a stone. To effect such a result, there come into play a
-whole category of agencies, chemical and mechanical, so combined
-in their operation, and so intimately blended in their
-effects, that it becomes no easy task to tell where one set ends
-and another begins.</p>
-
-<p>A rock is said to undergo a chemical change, when one or
-more of its component parts passes from one state of combination
-to another&mdash;as, for instance, when a mineral absorbs oxygen,
-and, from the condition of a protoxide, changes into that
-of a peroxide; or when, parting with its silicic acid, it takes
-an equivalent amount of carbonic acid, and in place of a silicate
-becomes a carbonate. Now these, and similar metamorphisms,
-are chiefly produced by water permeating through the rocky
-mass, and thus no sooner does the old combination cease, than
-the new one which replaces it is dissolved by the slowly filtering
-water, and carried away either to greater depths, or to the
-surface. Every drop of water, therefore, that finds its way
-through the rock, carries away an infinitesimal portion of the
-mineral matter, and the stone is consequently undergoing a
-continual decay. This condition of things may go on either at
-<span class="pagenum" id="Page_144">- 144 -</span>
-some depth in the earth's crust, or on the surface. In the
-former case, springs and percolating water are the agents in effecting
-the change; in the latter, it is produced chiefly by rain and
-streams. But wherever the process goes on, the results, unless
-where counteracted by some opposite agency, are ultimately the
-same. It may be of use to look at some examples of these
-changes, and, by dividing them in a rough way, into underground
-and surface actions, we shall be enabled to mark more
-clearly their effects.</p>
-
-<p>A common source of the decay of rocks arises from the percolation
-through them of water charged with carbonic acid.
-Decomposing vegetation gives off a large amount of this gas,
-which is readily absorbed by rain-water. The water sinks into
-the ground filtering through cracks and fissures in the rocks,
-whence it afterwards re-emerges in the form of springs. Now
-wherever, in its passage through these subterranean rocks, the
-water meets with any carbonate, the carbonic acid contained in
-the liquid immediately begins to dissolve out the mineral matter,
-and carries it eventually to the surface. There the amount of
-evaporation is often sufficient to cause a re-deposit of the mineral
-in solution. If it be lime, a white crust gathers along the sides
-of the stream, delicately enveloping grass-stalks, leaves, twigs,
-snail-shells, and other objects, which it may meet with in its
-progress. Such "petrifying" springs, as they are popularly
-termed, occur abundantly in our limestone districts. It should
-be borne in mind, however, that they only produce an incrustation
-round the organic nucleus, and do not petrify it. That
-alone is a true petrifaction where the substance is literally fossilized,
-or turned into stone. A familiar instance of a similar
-chemical process may be seen under many a bridge, and along
-the vaulted roofs of many an old castle. Numerous tapering
-stalactites hang down from between the joints of the masonry,
-resembling, so to speak, icicles of stone, often of a dazzling
-whiteness. They are formed by the percolation of carbonated
-<span class="pagenum" id="Page_145">- 145 -</span>
-water through the mortar of the joints, the carbonate of lime
-thus withdrawn being re-deposited where the water reaches the
-air and evaporates. A little pellicle of lime first gathers on the
-roof, and every succeeding drop adds to the length of the
-column. In some cases, where the supply of water is too great
-for the amount of evaporation, part falls on the floor, and, being
-there dissipated, leaves behind a slowly-gathering pile of lime
-called stalagmite. In some of the Eastern grottos, the pillars
-from the roof have become united to those on the floor, forming
-the most exquisite and fairy-like combinations of arch and
-pillar. An example of a calcareous grotto has now become
-pretty familiar to our summer tourists, under the name of the
-Spar Cave. It lies on an exposed cliff-line along the western
-shores of Skye, against which the surge of the Atlantic is ever
-breaking. You approach it from the sea, and enter a narrow
-recess between two precipitous walls of rock, open above to the
-sky, and washed below by the gurgling tide. Crossing the
-narrow, shingly beach, you find the ground thickly covered
-with herbage, while, grouped along the dark walls, are large
-bunches of spleenwort, hart's-tongue fern, and other plants that
-love the shade. Soon after entering the cave, all becomes sombre
-and cold; and the few candles, with which the party have
-furnished themselves, only serve to heighten the gloom. After
-scrambling on for a time across dank, dripping rocks, and over
-a high bank of smooth marble, on which it is difficult to creep,
-almost impossible to stand, you arrive at a deep pool of clear,
-limpid water, which extends across the cave from side to side,
-barring all farther passage. The scenery at this point will not
-readily be forgotten. The roof towers so high that the lights
-are too feeble to show it, while the walls, roughened into every
-form of cusp and pinnacle, pillar and cornice, all glittering in
-the light, resemble the grotto of some fairy dream. On returning
-again to the light of day, if you ask the cause that has
-given rise to all this beauty, it will be found a very simple one.
-<span class="pagenum" id="Page_146">- 146 -</span>
-The cleft occupied by the cave has been once filled by a wall
-of igneous rock called a trap-dyke. Atmospheric influences,
-aided probably by the waves, have caused the decomposition
-and removal of this intruded rock, and the calcareous sandstone
-on either side 'now stands up in a wall-like form. The upper
-part of the dyke remains as a roof to the cave, but it has
-become completely covered over with the calcareous deposits
-left by the carbonated water that filters through the adjacent
-limy sandstone. The amount of water is considerable, and consequently
-every part of the cavern&mdash;roof, walls, and floor&mdash;has
-been incrusted with a white crystalline carbonate of lime. In
-volcanic countries, where the springs often come to the Surface
-in a highly heated state, charged, too, with various chemical
-ingredients, they produce no slight amount of physical change
-on the surrounding districts, and must be regarded as important
-geological agents.</p>
-
-<p>But perhaps the most common and widely-diffused form of
-decomposition, is that produced on the surface of the earth by
-the action of rain-water, in slowly dissolving out the soluble
-parts of rocks, and washing away the loose, incoherent grains
-that remain behind. It is hard to say whether this process is
-more chemical or mechanical. The solution of the mineral
-matter belongs to the former class of changes, while the removal
-of debris must be ranked among the latter. The results
-of these combined forces form one of the most important branches
-of investigation which can occupy the attention of the physical
-geologist, and in contemplating them, we are at a loss whether
-most to admire their magnitude, or the immense lapse of time
-which they must have occupied. It may be worth while to
-look at the progress of this kind of disintegration, that we may
-see how wide-spread and constant is the waste that goes on
-over the world, and how materially the effects of running water
-are by this means increased. A volume might be written about
-the decay of rocks, and a most interesting one it would be, but
-<span class="pagenum" id="Page_147">- 147 -</span>
-its authorship would devolve rather on the chemist than the
-geologist.<a id="FNanchor_52" href="#Footnote_52" class="fnanchor">[52]</a> We can do no more here than merely glance at one
-or two illustrative examples.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_52" href="#FNanchor_52" class="label">[52]</a> A German chemist, Bischoff by name, has written two learned volumes in which
-this subject is discussed (translated into English, and published by the Cavendish
-Society), valuable for their facts, but not always very safe in their deductions.</p>
-
-</div>
-
-<p>Among the mineral substances that most readily yield to the
-action of the weather, are the silicates and the carbonates. The
-rocks containing the former belong in large measure to what we
-call the igneous class, such as the granites and traps; while
-those containing the latter form the bulk of our useful stones,
-such as limestone and sandstone. The removal of alkaline silicates
-is due to their conversion into carbonates, which are
-readily soluble in water. Rain falling on a rock in which they
-are largely present, dissolves a small portion, and carries it into
-the soil or into streams, and thence to the ocean. Every shower
-in this way withdraws a minute amount of mineral matter, and
-tends to leave the harder insoluble grains of the rock standing
-out on the surface in the form of a loose pulverulent crust,
-easily washed away. The debris thus formed, where allowed
-to accumulate, makes an excellent kind of soil known to the
-Scottish farmers as "rotten rock."</p>
-
-<p>The tourist who has visited any of our granitic districts,
-such as the south-western parts of Cornwall, the rugged scenery
-of Arran, or the hills of the Aberdeenshire Highlands, must be
-familiar with some of the forms of waste which the rocks of
-these regions display. Mouldering blocks, poised sometimes on
-but a slender base, and eaten away into the most fantastic
-shapes, abound in some localities, while in other parts, as for
-instance at the summit of Goatfell in Arran, the rock weathers
-into a sort of rude masonry, and stands out in its nakedness
-and ruin like some crumbling relic of Cyclopean art. In other
-districts, as in Skye and in the adjoining island of Raasay, the
-granitic hills are of a still more mouldering material. Their
-<span class="pagenum" id="Page_148">- 148 -</span>
-summits, white and bald, sometimes rise to a height of fully
-two thousand feet above the sea, while down their sides are
-spread long reddish-yellow tracks of debris intermingled with
-patches of stunted herbage. Every winter adds to the waste,
-and lengthens the lines of rubbish. Some of these hills form a
-good field wherein to study the disintegration of granitic rocks,
-such, for instance, as Beinn na Cailleaich, that rises from the
-shores of Broadford Bay. Around the eastern base of that
-mountain there stretches a flat moory district, with a few protruding
-blocks that have rolled down into the plain. The
-earlier part of the ascent lies over a region of metamorphic
-limestone, where the grey weathered masses of the calcareous
-rock, often like groups of mouldering tombstones, are seen protruding
-in considerable numbers through the rich soft grass and
-the scanty brushwood of hazel and fern. Leaving this more
-verdant zone, we enter a district of brown heath that slowly
-grows in desolation as we ascend. Huge blocks of syenite&mdash;a
-granitic rock of which the upper part of the mountain entirely
-consists&mdash;cumber the soil in every direction, and gradually
-increase in numbers till the furze can scarcely find a nestling-place,
-and is at last choked altogether. Then comes a scene of
-utter desolation. Grey masses of rock of every form and size
-are piled upon each other in endless confusion. Some of them
-lie buried in debris, others tower above each other in a rude
-sort of masonry, while not a few perched on the merest point
-seem but to await the storms of another winter to hurl them
-down into the plain. The ascent of such a region is no easy
-task, and must not unfrequently be performed on hands and
-knees. But once at the top, the view is enough to compensate
-a tenfold greater exertion. Far away to the west, half sunk in
-the ocean, lie the isles of Eigg, Coll, and Tiree, with the nearer
-mountains of Rum. North-west, are the black serrated peaks
-of the Coolins, that stand out by themselves in strange contrast
-with every other feature of the landscape. Northward, stretches
-<span class="pagenum" id="Page_149">- 149 -</span>
-the great range of syenitic hills, with the sea and the northern
-Hebrides beyond. Away to the east, across the intervening
-strait, lie the hills of the mainland, with all their variety of
-form and outline, and all their changing tints, as the chequered
-light and shade glide athwart the scene. Southward, the eye
-rests on the grey wrinkled hills of Sleat, and far over along the
-line where earth and sky commingle, are the mountains of
-Morven, stretching westwards till they end in the bold weather-beaten
-headland of Ardnamurchan, beyond which lies the blue
-boundless ocean. The top of Beinn na Cailleaich is flat and
-smooth, surmounted in the centre by a cairn. Tradition tells
-that beneath these stones there rest the bones of the nurse of a
-Norwegian princess. She had accompanied her mistress to
-"the misty hills of Skye," and eventually died there. But
-the love of home continued strong with her to the end, for it
-was her last request that she might be buried on the top of
-Beinn na Cailleaich, that the clear northern breezes, coming
-fresh from the land of her childhood, might blow over her grave.</p>
-
-<p>I have already alluded to the wasting away of a trap-dyke.
-This decomposition arises from the same cause as among the
-granites&mdash;the solution, and removal of the silicates. All these
-trap-rocks are igneous, and seem to have risen from below
-through open fissures and rents. As they contain a large percentage
-of felspar&mdash;the same mineral that gives to many granites
-their mouldering character&mdash;they may be seen exhibiting every
-form and stage of decay. Often they stand out in prominent
-relief from some cliff of soft shale, with a brown surface,
-picturesquely roughened into spherical masses of all sizes, that
-give to the rock somewhat the appearance of a hardened pile
-of ammunition in which ponderous shells lie intermingled with
-round shot, grape, and canister. Each of the concretionary
-balls when examined is found to exfoliate in concentric pellicles
-like the coats of an onion, and you may sometimes peal off a
-considerable number before arriving at the central core, which
-<span class="pagenum" id="Page_150">- 150 -</span>
-consists of the hard rock still undecomposed. In this case the
-process of degradation is aided by the decay of another mineral
-called augite, which contains a variable percentage of iron,
-and imparts the peculiar yellowish-brown tint to the weathered
-rock. Trap-dykes may also be seen in a still more wasted condition,
-where, in place of protruding from a cliff-line, they
-recede to some depth and give rise to deep clefts and fissures.
-An instance of this kind has been referred to in the case of the
-Spar Cave, and many others may be seen along the same coast-line.
-The shore there for miles is formed of a low cliff of white
-calcareous sandstone, fissured by innumerable perpendicular
-clefts of greater or less width, and sometimes only a yard or
-two apart. Each of these has once been filled by a dyke of
-trap, which originally rose up in a melted state, and after
-having solidified into a compact stony mass, began to yield to
-the process of decay. In all these and similar cases, the
-primary cause of the waste lies in the decomposition of the
-felspar. Rain-water acts in removing the soluble portions, and
-the harder grains that remain, deprived of the cementing
-matrix, ere long crumble down and are washed off by the rains.
-In this way the rock insensibly moulders away, every frost
-loosening its structure, and every shower carrying away part of
-its substance.</p>
-
-<p>Among the many objects of interest along a rocky coast some
-of the more striking are certainly to be found in the curious
-and often grotesque forms assumed by the weathered cliffs.
-Above high-water mark and thus away from the dash of the
-waves, we can often trace the progress of decay among such
-sedimentary rocks as sandstones and conglomerates. Worn
-into holes and scars, projecting cusps and tapering pinnacles, or
-eaten away into the rude semblance of a human form, headless
-perchance, or into the shape of a huge table poised on a narrow
-pedestal, the rock affords an endless variety of aspects and a
-continual source of pleasure. If we chance to light upon any
-<span class="pagenum" id="Page_151">- 151 -</span>
-building constructed out of the sandstone of such cliffs, it is
-worth noting that the removal of the stone has not deprived it
-of its mouldering qualities; nay, that houses erected within the
-memory of people still living already begin to wear an aspect of
-venerable antiquity. I remember meeting with an interesting
-example in the case of an old castle built on a similar rocky
-coast-line. It stood on a little ness or promontory of dull red
-stone, washed on all sides save one by the wild sea. The walls,
-of which but a fragment remained, were built of a dark red
-sandstone; but the lapse of centuries had told sadly on their
-masonry. The stones rose over each other tier upon tier, corroded
-sometimes into holes and hollows, sometimes into a close
-honey-combed surface, but the mortar that had been used to
-cement them together still stood firm and protruded from
-between the tiers to show, by no doubtful or ambiguous sign,
-how silently yet how surely the wasting forces had been at
-work. The scutcheon over the only remaining gateway had
-been carved out of another kind of stone of a lighter colour and
-harder texture, and so its grim lions looked nearly as fresh and
-formidable as when first raised to the place of honour which
-they still occupied. In this case, as before, the decomposition
-was owing to the presence of a considerable proportion of soluble
-matter, which the rains of four centuries had carried away along
-with the loosened incoherent sandy grains.</p>
-
-<p>Conglomerate or pudding-stone has often a picturesque outline
-in its decay, more especially if its included fragments have
-a considerable range of size. Large tracts Of this rock exist in
-various parts of Britain, particularly in Scotland, where the
-basement beds of the Old Red Sandstone consist of a coarse
-conglomerate, sometimes several thousand feet in thickness.
-Such enormous masses form the scenery of a large part of East
-Lothian, and are found in detached patches across into Peeblesshire
-and Lanark. In the north, too, the neighbourhood of Inverness
-and other parts of the same district display conspicuous
-<span class="pagenum" id="Page_152">- 152 -</span>
-conglomerate hills. Unless where laid bare by streams or by the
-action of breakers, the contour of these hills is rounded and
-tame, with a scanty covering of short scrubby grass and very
-few protruding bosses of rock. But where a mountain torrent
-has cut its way down the hill side, the ravine thus formed
-exhibits broken walls and pillars of rock made up of rounded
-balls of every shade and size, cemented by a dark-red or green
-paste. The cementing material is sometimes clay, sometimes
-lime, and its variable nature gives rise to a corresponding
-inequality in the amount and form of decomposition. Where
-the rounded pebbles are bound together by clay, rains act with
-rapidity in washing away the cement, and the component balls
-fall out by degrees, leaving a cliff strangely roughened by protruding
-knobs, and eaten away into clefts and hollows. When
-the pebbles are held in a crystallized matrix of lime, they
-usually remain longer together, and may sometimes be seen
-standing up in the form of detached rugged pillars that defy
-all regularity of size or outline, and remind one of a sort of rude
-grotto-work. Such irregularities become still more marked
-where to the action of the rains there has been added the spray
-of the ocean. A coast-line of conglomerate, where the rock rises
-into cliffs, is always a romantic one; caves, pillars, and ruined
-walls, all in the same rough grotto style, meet us at every step.
-Here, too, we can mark the varying effect of the waves upon
-the lower portions of the rock, eating it into cavernous holes and
-leaving rugged projecting pinnacles to which the mottled colours
-of the included pebbles give an additional and peculiar effect.</p>
-
-<p>A cliff of shale seldom shows much of the picturesque, though
-often a good deal of the ruinous. The rock is easily undermined
-by streams, and a shale ravine usually exhibits in consequence
-either heaps of crumbling rubbish, or, where the stream
-comes past with a more rapid current, perpendicular walls,
-jointed and laminated, but without much variety of outline.
-Such cliffs, however, merit the careful attention of the observer,
-<span class="pagenum" id="Page_153">- 153 -</span>
-for from their friability they are most easily decomposed and
-washed down by streams, to form new accumulations of similar
-soft argillaceous matter. A shale coast-line sometimes shows
-cliffs of considerable altitude, as in some parts of Skye and
-Pabba, where the Lias shales may be seen piled over each other
-often to a height of seventy or eighty feet, and spreading out
-along the shore as low flat reefs and skerries, brown with alg&aelig;
-at their seaward ends, and showing on the higher slopes of the
-beach the characteristic fossils of the Lias&mdash;<i>ammonites</i>, <i>belemnites</i>,
-and <i>gryph&aelig;&aelig;</i>&mdash;crowded together by hundreds. The
-action of the decomposing forces has operated more effectually
-on the soft material of the shale than on the hard crystalline
-lime of the included shells, so that the latter stand out in relief
-from the dull-brown surface of the rock, and from their numbers
-and prominence form one of the most marked features of
-the coast-line.</p>
-
-<p>Probably few have ever visited a limestone district without
-marking the manner in which that rock yields to the action of
-the elements, whether in an inland part of the country where
-rivers have cut deep gullies through the rock, or along some
-exposed shore where the stone has been wasted by a still ruder
-assailant. An exposed cliff of hard homogeneous limestone
-weathers into deep clefts and holes; the entire surface assumes
-a pitted appearance, somewhat like a sandy beach after a showier
-of rain, and the planes of stratification, or lines formed by the
-parallel junction of the beds are often worn away until the
-rock looks not unlike a piece of old masonry, in which the
-mortar has decayed and dropped out, leaving the angles of the
-stones to get wasted and rounded by the action of the weather.
-In many districts, too, where the rock is richly fossiliferous,
-the broken joints of encrinites along with corals and shells may
-be seen crowded together by myriads, their hard skeletons protruding
-from the wasted rock in such a way as to show that
-the stone can contain very little else. By this means we often
-<span class="pagenum" id="Page_154">- 154 -</span>
-learn that a limestone bed is nothing but an old sea-bottom,
-where the calcareous sediment was mainly derived from broken
-stone-lilies, corals, and shells, though if we break off a piece of
-the rock the internal fracture may show very little or no trace
-of any organic structure. And hence if the geologist would
-form an accurate conception of the origin and structure of many
-of the stratified rocks, he must study them not in hand specimens
-neatly trimmed and arranged along the shelves and drawers
-of a cabinet, nor even in the ponderous blocks daily exhumed
-by the quarryman, but along some surf-beaten cliff-line or down
-some precipitous ravine where the rock for centuries has been
-exposed to the wear and tear of the elements.</p>
-
-<p>Limestones and other calcareous formations are liable to more
-than ordinary decay, for, as we have seen above, percolating
-rain-water constantly carries away mineral matter from their
-subterranean portions. Accordingly, in some parts of the
-country, as for instance in Yorkshire, the interior of such rocks
-has been eaten away into great caverns by this form of decomposition.</p>
-
-<p>Some remarkable examples occur in the island of Raasay,
-one of the north-eastern Hebrides. Its eastern margin shoots
-up from the sea to a height of over 900 feet, the cliff-line being
-formed of a calcareous grit as perpendicular as a wall, and fissured
-by deep chasms and rents. The narrow table-land between
-the edges of this cliff and an abrupt ridge that rises behind, is
-perforated by innumerable holes and clefts, into which if a
-stone be thrown it may be heard for several seconds rumbling
-far below. The edges of these pitfalls are often fringed with
-ferns, rushes, and long grass, so as to be nearly hidden, and it
-requires no little caution to traverse this elevated region in
-safety. Innumerable sheep have been lost by falling into the
-subterranean abysses, and even the wary natives seem to have
-sometimes lost their footing. A story is told of a woman who
-had crossed to the other side of the island for the purchase of
-<span class="pagenum" id="Page_155">- 155 -</span>
-some commodities, and returning by the high grounds had got
-nearly within sight of her own cottage, when by some unlucky
-accident she took a false step and instantly disappeared.
-Unfortunately her errand had been performed alone, so that
-some time elapsed ere she was missed. The search continued
-unremitting for two days, but no trace of the missing traveller
-could be found. At last on the third day her figure was seen
-creeping slowly along the road not many hundred yards from
-her own door. It appeared that she had first slid down a sheer
-height of about fifty feet, when her further passage was intercepted
-by the sides of the fissure. During the earlier part of
-her confinement she strove hard to re-ascend the chasm, and it
-was not until, the effort seeming fruitless, she had begun to resign
-herself to despair, that a glimmering of light from below induced
-her to attempt a descent. This proved no easy matter, and
-occupied many weary hours of labour and suspense; but at
-length she succeeded in worming herself to the bottom, and
-crawled out more dead than alive only a little way from her
-home. There still stand perched on some of these precipitous
-cliffs the remains of a few villages, the inhabitants of which
-were accustomed to tether their children to the soil, whence
-one of the hamlets received in Gaelic the soubriquet of Tethertown.
-Many a valuable commodity disappeared by rolling
-over the cliff, and I have been assured that it was no unfrequent
-occurrence for a pot of potatoes capsized at the doorway
-to tumble down the slope and make no stop until safely
-esconced at the sea-bottom.</p>
-
-<p>The process whereby these fissures and caverns originate is the
-same as that noticed already in the Spar Cave. Water containing
-an impregnation of carbonic acid filters down through cracks and
-fissures of the calcareous rock, dissolving out in its passage a portion
-of the lime which it eventually carries back to the surface,
-and either deposits there or transports into streams, and thence
-to the sea. Thus atom by atom is removed wherever the percolating
-<span class="pagenum" id="Page_156">- 156 -</span>
-water reaches, until in the course of ages an irregular
-cavern of greater or less extent is produced. The decomposition
-of limestone at the surface results from the same kind of
-action, that of carbonated water. Every shower of rain insensibly
-carries away a fraction of the constituent parts of the
-rock, so that the size and form of detached blocks as well as
-of exposed cliffs is constantly changing. How often do we see
-the same decay going on with a melancholy rapidity among the
-exposed marble tombstones of our churchyards. In a few
-years the tablet gets worn and furrowed as though it had stood
-there for centuries. Eventually, too, the inscription becomes
-effaced, and perhaps ere the bones of the deceased have mouldered
-away and mingled with their kindred dust, the epitaph
-that recorded for the admiration of posterity his many virtues
-and his vigorous talents, has faded from the stone&mdash;often, alas!
-only too fit an emblem of how speedily the memory of the dead
-may fade away out of the land of the living.</p>
-<hr class="chap x-ebookmaker-drop" />
-
-<div class="chapter">
-<p><span class="pagenum" id="Page_157">- 157 -</span></p>
-
-<h2 class="nobreak" id="CHAPTER_IX">CHAPTER IX.</h2>
-</div>
-
-
-<div class="blockquot">
-
-<p>Mechanical forces at work in the disintegration of rocks&mdash;Rains Landslips&mdash;Effects of
-frosts&mdash;Glaciers and icebergs&mdash;Abrading power of rivers&mdash;Suggested volume on the
-geology of rivers&mdash;Some of its probable contents&mdash;Scene in a woody ravine&mdash;First
-idea of the origin of the ravine one of primeval cataclysms&mdash;Proved to be incorrect&mdash;Love
-of the marvellous long the bane of geology&mdash;More careful examination shows
-the operations of Nature to be singularly uniform and gradual&mdash;The doctrine of slow
-and gradual change not less poetic than that of sudden paroxysms&mdash;The origin of the
-ravine may be sought among some of the quieter processes of Nature&mdash;Features of the
-ravine&mdash;Lessons of the waterfall&mdash;Course of the stream through level ground&mdash;True
-history of the ravine&mdash;Waves and currents&mdash;What becomes of the waste of the land&mdash;The
-Rhone and the Leman Lake&mdash;Deltas on the sea-margin&mdash;Reproductive effects
-of currents and waves&mdash;Usual belief in the stability of the land and the mutability
-of the ocean&mdash;The reverse true&mdash;Continual interchange of land and sea part of the
-economy of Nature&mdash;The continuance of such a condition of things in future ages
-rendered probable by its continuance during the past.</p>
-</div>
-
-<p><span class="smcap">The</span> forms of decomposition noticed in the last chapter were
-chiefly of a chemical kind. Their effects were observable alike
-on the surface of the earth and below ground; in the latter case
-we saw them excavating caverns and long irregular chasms, in
-the former we noted the production of debris which if undisturbed
-went to the formation of soils. It must be borne in
-mind however, that in these operations other forces than simply
-those of a chemical kind come into play. The percolation of
-water and the removal of insoluble particles on the exposed
-parts of rocks rank as mechanical processes. So also do those by
-which new surfaces of mineral masses are brought within the
-sphere of the chemical agencies, such as the action of frosts,
-rains, rivers, and waves. In short, as already noticed, any subdivision
-of the forces at work in effecting the decomposition of
-rocks must ever be more or less arbitrary; but it remains
-<span class="pagenum" id="Page_158">- 158 -</span>
-nevertheless useful, if we bear in mind that the exactly defined
-boundary lines are of our making, not Nature's. With this
-caution we may proceed to examine what are termed the
-mechanical agencies in the disintegration of mineral masses,
-and in so doing, we shall find that the chemical forces are not
-less helpful to the mechanical than the latter to the former.</p>
-
-<p>First, we may notice the effect of rains in washing away the
-disintegrated particles to lower levels or into river-courses
-whereby fresh portions of rock become exposed to the decomposing
-forces. Rains also act powerfully in altering the form
-of cliff-lines and steep declivities, especially where these consist
-more or less of friable earthy matter. After a long continuance
-of wet weather, I have seen the abrupt sides of a river-channel
-that were formed of a stiff blue clay completely cut up by rents
-of various dimensions, whereby large masses had subsided many
-feet, while others had rolled down altogether and lay in the bed
-of the stream where they were undergoing a rapid abrasion.
-The cause of this alteration was obvious. The rains pouring
-down from the sloping grounds on either side of the river had
-excavated deep channels on the abrupt face of the cliffs, while
-a considerable quantity of water finding its way through the
-soil, had permeated through joints and crevices in the clay some
-feet from the edge of the bank. By the combined operation of
-these causes, masses of clay several yards in extent lost their
-cohesion and either settled down a few feet, or found their way
-to the bottom. Such landslips are of frequent occurrence where
-large masses of rock of a hard compact nature rest upon loose
-shales and clays more or less inclined. Whole hills have been
-known to be hurled in this way into the valleys below.</p>
-
-<p>But these results become perhaps still more marked where to
-the ordinary operations of water there are added those of intense
-frost. The effects of a severe winter (such, for instance, as a
-Canadian one), in loosening the particles of rocks and facilitating
-the breaking-up of large masses, must be ranked among the most
-<span class="pagenum" id="Page_159">- 159 -</span>
-powerful agencies of nature. In such a season, the percolating
-water with which nearly every surface-rock is charged becomes
-frozen, and in the act of congelation expands. The result of this
-dilatation is to exert great pressure on the particles of the rock,
-and thereby loosen their cohesion. When thaw comes the
-frozen liquid contracts again, but the loosened particles have
-no such elastic power, and so, having lost hold of each other,
-crumble down. If the season be a changeable one, frost
-and thaw quickly alternating, the amount of waste produced
-becomes very great. Not only is the outer surface of the stone
-decomposed, but the water filtering through the joints of the
-rock freezes there, and thus on the arrival of milder weather
-vast masses become detached from the cliffs, and roll down, to
-be worn by the grinding action either of waves or of rivers, as
-the case may be. Spring at last sets in with its warmth and
-its showers; the snow rapidly melts away; the whole country
-streams with water; every valley and hollow has its red turbid
-rivulet, that bears a burden of muddy sediment into the nearest
-river; and thus the loosened portions of the rocks get washed
-away down to sea, leaving a new surface for the action of next
-winter. We can easily understand, therefore, that in certain
-regions the combined effects of frost and thaw may work in the
-course of ages changes of almost inconceivable extent, and that
-the agency of ice must be not less varied and important on the
-land than, in the case of the boulder clay, we found it to be in
-the ocean.</p>
-
-<p>Besides this action in winter, which goes on more or less in
-every country wherever the temperature sinks sufficiently low
-to permit of the freezing of water, ice effects many changes on
-the surfaces of rocks when it takes the form of glaciers and
-icebergs. We have already noted the operation of a glacier
-during its slow progress in crushing down large fragments of
-stone, scratching and abrading the rocks over which it passes,
-and eventually producing a vast quantity of mud, which is carried
-<span class="pagenum" id="Page_160">- 160 -</span>
-down by streams to form new accumulations either in lakes
-or seas. We have also marked the effects of the drifting iceberg
-in materially modifying the contour of submarine hills,
-and depositing over the ocean-bottom mud, gravel, and boulders.
-Nothing further, therefore, need be done here than simply to
-keep these agencies in view, as playing an important part in
-the disintegration of rocks.</p>
-
-<p>Another highly interesting aqueous action is that of streams
-and rivers, in scooping out for themselves channels through
-sometimes the hardest and most solid rock. Such effects may
-be seen all over the globe, in the old world and in the new,
-in the bed of the tiniest rivulet, as well as in the course of the
-mightiest river. And accordingly, in all the long list of geological
-agents, we find none so well known and so often described
-alike by poets, historians, and scientific writers, as well in ancient
-as in modern times. What a delightful volume might be written
-about the geology of rivers! It would, perhaps, begin with
-that "great river," the Euphrates, along whose green banks
-lay the birthplace of the human race, tracing out the features
-of its progress from the ravines and cataracts of Armenia, with
-all their surrounding relics of ancient art, down into the plains
-of Assyria, amid date-palms and Arab villages, onwards to the
-mounds of Nineveh and Babylon, and thence to the waters of
-the Persian Gulf. Well-nigh as remote, and perhaps still more
-interesting in its human history, would be the story of the Nile.
-We should have to follow that river from the mystic region of
-its birth,<a id="FNanchor_53" href="#Footnote_53" class="fnanchor">[53]</a> marking the character of the rocks through which
-winds its earlier channel, and the effects upon them of the
-floods of untold centuries; it would be needful, too, to note the
-influence of the waters on the lower grounds, from where the
-stream flows over the cataracts of Syene, down through the
-alluvial plains of Egypt; and lastly, the concluding and perhaps
-<span class="pagenum" id="Page_161">- 161 -</span>
-most onerous part of our labour would be the investigation
-of the delta, marking its origin and progress, its features in
-ancient times, as made known to us in the graphic chapters of
-Herodotus, and the changes which the lapse of more than
-twenty centuries has since wrought in its configuration. The
-rivers of Europe would detain us long, not less perhaps by
-their historic interest than by the variety and attractiveness
-of their physical phenomena. One could scarce help lingering
-over the Rhine, with its source among Alpine glaciers, its lakes
-and gorges, its castles and antique towns; and when once the
-narrative entered the classic ground of Italy, it would perhaps
-become more antiquarian than geological. The ravine of Tivoli,
-for instance, would certainly lay claim to a whole chapter for
-itself, with its long-continued river action, its ancient travertin,
-its beautiful calcareous incrustations, and above all its exquisite
-scenery.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_53" href="#FNanchor_53" class="label">[53]</a> "Fontium qui celat origines Nilus" a description not less true now than in the
-days of the Sabine bard.</p>
-
-</div>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent7">"Domus Albune&aelig; resonantis,</div>
-    <div class="verse indent1">Et pr&aelig;ceps Anio, ac Tiburni lucus, et uda</div>
-    <div class="verse indent2">Mobilibus pomaria rivis."<a id="FNanchor_54" href="#Footnote_54" class="fnanchor">[54]</a></div>
-  </div>
-</div>
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_54" href="#FNanchor_54" class="label">[54]</a></p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent0">"Albuna's grey re-echoing home,</div>
-    <div class="verse indent1">And Anio, headlong in his foam,</div>
-    <div class="verse indent2">And grove of Tivoli,</div>
-    <div class="verse indent1">And orchards with their golden gleam,</div>
-    <div class="verse indent1">Whose boughs are dipping in the stream</div>
-    <div class="verse indent2">That hurries to the sea."</div>
-  </div>
-</div>
-</div>
-
-<p><span class="smcap">Hor.</span> <i>Carm.</i> L vii. 12.</p>
-
-</div>
-
-<p>And when could we exhaust all, that might be said about the
-rivers of our own land?</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent4">"Of utmost Tweed, or Ouse, or gulfy Dun,</div>
-    <div class="verse indent1">Or Trent, who, like some Earth-born giant, spreads</div>
-    <div class="verse indent1">His thirty arms along the indented meads</div>
-    <div class="verse indent1">Or sullen Mole, that runneth underneath;</div>
-    <div class="verse indent1">Or Severn swift, guilty of maidens' death;</div>
-    <div class="verse indent1">Or rocky Avon, or of sedgy Lee;</div>
-    <div class="verse indent1">Or coaly Tyne, or ancient hallow'd Dee;</div>
-    <div class="verse indent1">Or Humber loud, that keeps the Scythian's name;</div>
-    <div class="verse indent1">Or Medway smooth, or royal-towered Thame."</div>
-  </div>
-</div>
-</div>
-
-<p>Passing to the new world, a vast field would spread out before
-<span class="pagenum" id="Page_162">- 162 -</span>
-us: the Mississippi, the Atchafalaya, the Ohio, the St. Lawrence,
-the Amazon, and many other rivers that in some cases
-rise high among the regions of perpetual snow, and after traversing
-large areas of country in the temperate zone, fall into
-the waters of tropical seas. By studying such examples of
-river-action and delta-formation as are presented by these
-gigantic streams, we should arrive at some conception of the
-conditions anciently at work in producing our present coal-fields.
-Nor would our researches assume aught like completion
-until after a scrutiny of all the larger and more important
-rivers of the globe. Such a work could be undertaken, perhaps,
-only by another Humboldt. Its successful accomplishment
-would certainly insure the highest renown to its author,
-and incalculable benefits to science.</p>
-
-<p>From what we have seen of the wide waste and decay everywhere
-in progress on the solid lands of our planet, it becomes
-no difficult matter to perceive what a number of agencies must
-be at work in the formation of a river channel. Let the reader
-take his stand in some wooded ravine, where the shelving rocks
-on either side are hung all over with verdure, and a tiny
-streamlet murmurs on beneath with a flow so quiet and gentle
-as scarcely to shake the long pendant willow branches that dip
-into its surface, while the polished pebbles that strew its bed
-lie unmoved by the rippling current that glides over them. If
-in the midst of such a scene the question were to arise in his
-mind, How came this deep, narrow ravine into existence? what
-answer would in all likelihood be the first to suggest itself?
-His eye would scan the precipitous walls of the dell, with their
-rocks cleft through to a depth of perchance fifty feet. It
-would require no great scrutiny to assure him that the beds on
-the one side formed the onward prolongations of those on the
-other, and that consequently there must have been a time ere
-yet the ravine existed, when these beds stretched along unbroken.
-Satisfied with these results, his first impulse might be
-<span class="pagenum" id="Page_163">- 163 -</span>
-to bethink him of some primeval earthquake, when the solid
-land rocked to and fro like a tempested sea, and broke up into
-great rents and yawning chasms. Into one of these clefts he
-might suppose the little streamlet had eventually found its way,
-moistening the bare and barren rocks, until at length their surface
-put on a livery of moss, or lichen, or liver-wort, and the
-birch, the alder, and the willow, found a nestling-place in their
-crevices. Such a view of the origin of the woody dell would
-be certainly a very natural one, and in some instances might be
-sufficiently correct, but in the present case it will not explain
-the phenomena. If the reader will kindly permit me to visit
-the locality in his company, perhaps we may be able to light
-upon the true explanation, and see a few appearances worthy
-our attention.</p>
-
-<p>First, then, how can we make sure that no convulsion of
-nature has produced a rent in the rocks, and so helped the
-streamlet to a channel? a simple question that may be well-nigh
-as simply answered. We stand in the centre of the dell
-on a broad ledge of stone, round whose well-worn sides the
-rivulet is ever eddying onwards. The block consists of a pale
-sandstone lying in a bed about three feet thick, that dips gently
-down the stream and underlies a seam of dull, soft, blue shale,
-full of small shells. We trace the edge of this sandstone bed
-across to the left-hand side of the ravine, and away up into the
-precipitous cliff, till it is lost amid the ferns and brushwood.
-There can be no doubt, therefore, that the ledge on which we
-were but now standing is a continuous portion of the rocks that
-form the left side of the ravine. Returning again to the centre
-of the stream, we proceed to trace out the course of the other
-end of the same bed, and find that it, too, strikes across to
-the rocks on the right-hand side without a break or fissure, and
-passes up into the cliff, of which it forms a part. Clearly, then,
-the sandstone bed runs in an unbroken, unfissured line, from the
-one side to the other, and the rocks of either cliff form one
-<span class="pagenum" id="Page_164">- 164 -</span>
-continuous series. There occurs no break or dislocation, which,
-of course, there must have been had the ravine owed its origin
-to any subterranean agency. And so we come to conclude that
-no great cataclysm in primeval times, no yawning abyss, or
-gaping chasm, has had anything whatever to do with the
-formation of our deep sequestered dell. What then? "Whither
-shall we turn," you ask, "to find another agency equally grand
-and powerful in its operation and mighty in its results?"</p>
-
-<p>Stay, gentle reader. That craving for the grand and the
-sublime, that hungering after cataclysms and convulsions, that
-insatiable appetite for upheavals, and Titanic earth-throes, and
-all the mightier machinery of Nature, has done no little mischief
-to geology. Men have reasoned that gigantic results in
-the physical structure of the earth must have had equally
-gigantic causes operating in sublime conflict and in periodic
-paroxysms, now heaving a mountain chain to the clouds of
-heaven, now swallowing up a continent in the depths of the
-sea. Happily such extreme notions are fast passing away,
-though the old tendency in a modified form still abounds. A
-closer scrutiny of Nature as she actually shows herself, not as
-theorists fancy she should be, has revealed to us that her operations
-are for the most part slow, gradual, and uniform, and that
-she oftentimes produces the mightiest results by combinations
-of forces that to us might seem the very emblems of feebleness
-and inactivity. In place of sudden paroxysms she demands only
-an unlimited duration of time, and with the aid of but a few of
-these simple, tardy agents, she will eventually effect results perchance
-yet more gigantic than could be accomplished even by
-the grandest catastrophe. Nor in thus seeking to explain the
-past by defining what seems the usual mode of Nature's operations
-in the present, do we, as is sometimes alleged, deprive
-them of their high poetic element. Assuredly there is something
-thrilling to even the calmest imagination in contemplating the
-results of vast and sudden upheavals, in picturing the solid crust
-<span class="pagenum" id="Page_165">- 165 -</span>
-of the earth heaving like a ground-swell upon the ocean, in
-tracing amid</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent0">"Crags, knolls, and mounds, confusedly hurl'd,</div>
-    <div class="verse indent1">The fragments of an earlier world;"</div>
-  </div>
-</div>
-</div>
-
-<p>and in conjuring up visions of earthquakes, and frightful abysses
-from which there ever rose a lurid glare as hill after hill of
-molten rock came belching up from the fires below. But while
-far from denying that such appearances may have been sometimes
-seen during the long lapse of the geological ages, and that
-they give no little vividness and sublimity to a geological picture,
-we claim for the doctrine of the tranquil and uniform
-operation during past time of existing laws and forces, an element
-not less poetic. In the former case the pervading idea
-is that of unlimited expenditure of power, in the latter that
-of unlimited lapse of time. In the one case the action is
-Titanic but transient, in the other it is tranquil but immensely
-protracted. The two doctrines in this way counterbalance each
-other; yet I cannot but think that however impressive it may
-be to stand in some lone glen, and while gazing at its dark
-jagged precipitous cliffs, to dream about the paroxysmal convulsions
-of some hour far back in the distant past, the scene
-becomes yet more impressive when we look on its nakedness
-and sublimity not as the sudden and capricious creation of a
-day, but as the gradual result of a thousand centuries. These
-cliffs may once have been low-browed rocks rising but a little
-way out of a broad grassy plain, and serving as a noon-tide
-haunt for animals of long extinct races. Thousands of years
-pass away and we see these same rocks higher and steeper in
-their outline, brown with alg&aelig; and ever wet with surf, while
-around them stretches a shoreless sea. Ages again roll on,
-and we mark still the same rocks shooting up as bleak crags
-covered with ice and snow. Another interval of untold extent
-elapses, and rock, snow, and ice have all disappeared beneath
-a broad ocean cumbered with ice-floes and wandering bergs.
-<span class="pagenum" id="Page_166">- 166 -</span>
-Again the curtain drops upon the scene, and when once more
-it rises, the cliffs stand out in much the same abrupt precipitous
-aspect with that which they now present, save that their bald
-foreheads look less seamed and scarred than now, and their dark
-sides show no trace of bush or tree. The white cascades that
-to-day pour down from their summits and sides&mdash;seeming in
-the distance like the white hairs of age&mdash;are insensibly deepening
-the scars and furrows on these ancient hills, and thus slowly
-but yet surely carrying on the process of degradation and decay.
-Musing on all this long series of stages in the formation of one
-single cliff-line, is there not something more sublime, something
-yet more impressive than if we pictured but the chance
-random result of the gigantic paroxysm of an hour?</p>
-
-<p>Let us not be deterred then from seeking an explanation of
-the origin of the ravine among some of the quieter and more
-unobtrusive forces of Nature. Give them but an unlimited
-period to work in and they will abundantly satisfy all our
-demands.</p>
-
-<p>We return again to the rocky ledge in mid-channel, and proceed
-to ascend the course of the stream, marking as we go the
-changes in the character and features of the stone that forms
-the cliff on either hand. We come to a bare part of the ravine
-where brushwood and herbage find but a scanty footing and
-where accordingly the rocks can be attentively studied. The face
-of the escarpment shows a number of beds of pale grey sandstone
-alternating with courses of a dark crumbly shale. The sandstones
-being harder and firmer in texture stand out in prominent
-relief while the shales between have been wasted away, covering
-the bottom of the slope with loose debris. We can mark too
-that, as this decay goes on, the harder beds continually lose their
-support, cracking across chiefly along the lines of joint, and
-rolling down in huge angular blocks into the stream. In truth
-we cannot doubt that every year adds to this decay and thus slowly
-widens the dell, for the broken fragments do not form in heaps
-<span class="pagenum" id="Page_167">- 167 -</span>
-over the solid rock below so as to protect it from the weather,
-but are evidently carried away by the stream and hurried down
-the ravine onwards to the sea. From what has been said above
-relative to the disintegration of rocks by percolating water,
-frosts, and other causes, the reader will easily see how this
-rotting away of the sides of the ravine must be carried on;
-and he will not fail to mark that here we have at work an
-agency not yet considered, that of running water. The effects
-of the weather are seen in the crumbling, ruinous cliffs overhead;
-the effects of the streamlet are observable in the
-continual removal of the rubbish whereby a fresh surface is
-ever exposed to the decomposing forces, while at some points
-we can mark the water actually undermining an overhanging
-part of the cliff from which there are ever and anon vast masses
-precipitated into the channel where eventually they get worn
-down and carried away out to sea. "Still," you may remark,
-"these forces are at work only in widening a channel already
-made. How was the ravine formed at first?"</p>
-
-<p>We continue our ascent. A scrambling walk through briars
-and hazel-bushes, sometimes on rocky ledges high among the
-cliffs, sometimes among the prostrate blocks that dam up the
-stream, brings us at last full in front of a sparkling waterfall
-that dashes over a precipitous face of rock some twenty feet
-high. The appearances observable here deserve a careful attention.
-Our eyes have not been long employed noting the more
-picturesque features of the scene ere they discover that the
-dark-brown band of rock forming the summit of the ledge over
-which the water tumbles is continuous all round the sides of
-the dell. There is consequently no break or dislocation here.
-Approaching the cascade we note the rock behind it so hollowed
-out that its upper bars project several feet beyond the under
-ones. In this way the body of water is shot clear over the
-top of the cliff without touching rock till it comes splashing
-down among the blocks in the channel. And yet this hollowed
-<span class="pagenum" id="Page_168">- 168 -</span>
-surface is never dry; the spray of the fall constantly striking on it
-keeps it always dank and dripping. In some parts the rock stands
-out bare and worn, while on the less exposed portions there
-gathers a thick green scum which is replaced on the drier ledges
-by the soft cellular leaves of the liver-wort. Now our examination
-of the influence of percolating water upon even the
-hardest rocks teaches us that this moist soaked surface is just
-the very best condition for favouring the decay of the rock.
-Nay more, the green vegetation that mantles over the stone
-serves to prevent the water from running off too rapidly, and
-keeps the rock in a still more moist state than would otherwise
-happen. So that the portion of sandstone behind the cascade
-comes to be in a still more favourable situation for speedy
-decay than the ledge over which the water is rapidly driven.
-We can see, therefore, how in the lapse of years the corrosion
-may go on until the upper projecting part of the cliff loses its
-support and falls with a crash into the rocky pool below, while
-the form of the waterfall becomes thus greatly altered, and new
-surfaces are exposed to the wear and tear of the stream.</p>
-
-<p>But we have not yet exhausted all that the rocks at the cascade
-can teach us. By dint of some exertion we climb the cliff and gain
-the upper edge of the fall. The rocks that form the bed of the
-stream are now seen to be deeply grooved and worn, every exposed
-surface having a smoothed blunted aspect. We can mark
-how the stone has split up along the natural lines of joint,
-whereby great facility is given to the removing power of the
-current, and how large irregular angulated blocks become detached
-and are swept down the stream. In not a few parts,
-too, we may notice circular holes of greater or less depth, in
-the bottom of each of which lie perhaps a pebble or two, that
-with a constant gyratory movement, caused by the eddying
-water, have eaten their way downwards into the solid rock.
-When the stream is in flood and comes roaring down the rocky
-gorge bearing along with it a vast amount of mud, gravel, and
-<span class="pagenum" id="Page_169">- 169 -</span>
-stones, one can easily see how the friction of the transported
-material must wear down the hard bed and sides of the channel,
-and how this process repeated month after month and year after
-year, must aid the decomposing forces in scooping out a deep
-ravine. From the cascade the ascent of the stream becomes
-steeper and the run of water is consequently more rapid. Soon
-however we emerge from the woody copse, and find ourselves on
-a flat alluvial cultivated plain through which the rivulet winds
-in a tortuous meandering course, bending back upon itself into
-loops that almost meet and well-nigh form broad flat islets.
-Strolling along this winding route we can mark the effects of the
-stream in eating away the soft clay and sand at one part of the
-bend and piling them up at another. Such loose material can
-present but little resistance to a stream swollen with rains, and
-consequently a large quantity of the mud and gravel along with
-the interspersed boulders must be swept away down into the
-dell at every season of flood. The matter thus removed will
-of course be still further comminuted in its passage, and at the
-same time will help to grind down the hard rock surfaces over
-which it is driven.</p>
-
-<p>Here then may be found the whole history of the ravine.
-Originally the streamlet wound its devious course through a
-flat alluvial country with a channel sunk but a foot or two
-below the level of the plain. Such continued its character till
-it reached a low bluff, down which the water flowed more
-rapidly to gain a second level undulating region. The part of
-this bluff crossed by the stream was ere long bared of its covering
-of soil and clay, and the rock below came to be washed by
-a group of little cascades. Once exposed to the decomposing
-and disintegrating forces, the stone soon began to decay and the
-cascades ere long merged into one. By slow degrees the rock
-gave way and the waterfall retreated from the bluff. For perchance
-thousands of years the same process has been going on,
-now with greater, now with less rapidity, according to the nature
-<span class="pagenum" id="Page_170">- 170 -</span>
-of the rocks encountered and other modifying causes, until the
-fall has eaten its way back for well-nigh three miles and scooped
-out a wild rocky gorge some fifty or sixty feet deep. This is
-but a solitary and insignificant instance of what may be seen
-all over the world, for the process remains the same whether
-we stand beside a tiny rivulet in some lone Highland glen or
-listen to the roar of the falls of Niagara.</p>
-
-<p>There is but one other principal agency at work in the demolition
-of rock-masses, the waves and currents of the ocean.
-But we have already noted the effects thus produced, and need
-not now retrace our steps further than to recall the vast amount
-of devastation which can be shown to have been effected in our
-own country by marine causes, both in breaching the existing
-shores and in scooping out valleys and grinding down hills at
-former periods when the land was either rising above or sinking
-below the level of the sea.</p>
-
-<p>Having now satisfied ourselves that there goes on all over
-the world an incessant waste of the solid lands, that the disintegrated
-debris is washed down by rains and transported seawards
-by rivers, and that the waves are ever eating their way
-into the iron-bound coast-line as well as into the low alluvial
-shore, we naturally come to ask the result and end of all this
-decay. What becomes of that vast amount of mineral matter
-annually removed from the land? To be able to answer this
-question clearly and distinctly, let us look for a little at what
-takes place in lakes, at river-mouths, and in open sea.</p>
-
-<p>The river Rhone rises among the Bernese Alps, and after a
-course of about 100 miles through the Canton of Valais, it enters
-the upper end of the Lake of Geneva. Its waters, where they
-mingle with those of the lake, are muddy and discoloured, but
-where they pass out at the town of Geneva are limpid and clear.
-The mud, therefore, which they bring into the lake must be
-deposited there, and as the stream may have continued to flow
-for thousands of years, we may reasonably expect to find some
-<span class="pagenum" id="Page_171">- 171 -</span>
-trace of the large amount of sediment necessarily deposited
-during the whole or part of that long period. Accordingly,
-careful examination of the Lake of Geneva has shown that such
-accumulations have really been formed, and that their progress
-and amount during part of the historic period can be approximately
-calculated. Where the turbid current of the Rhone
-enters the still water of the lake, the mud slowly sinks to the
-bottom. In the lapse of centuries layer after layer has been
-thrown down, rendering the lake at this part sensibly shallower,
-until a large area or delta has been filled up and converted into
-a flat alluvial plain. Thus, a town which in the time of the
-Romans formed a harbour on the water's edge, now stands more
-than a mile and a half inland. This new-formed land is entirely
-the work of the stream, and if we could obtain a complete
-section of it from the surface to the bottom, "we should see a
-great series of strata, probably from 600 to 900 feet thick (the
-supposed original depth of the head of the lake), and nearly two
-miles in length, inclined at a very slight angle." These strata,
-which are said to have taken about eight centuries to form,
-"probably consist of alternations of finer and coarser particles;
-for, during the hotter months, from April to August, when the
-snows melt, the volume and velocity of the river are greatest, and
-large quantities of sand, mud, vegetable matter, and drift-wood,
-are introduced; but, during the rest of the year, the influx is comparatively
-feeble, so much so that the whole lake, according to
-Saussure, stands six feet lower."<a id="FNanchor_55" href="#Footnote_55" class="fnanchor">[55]</a> If the present conditions
-continue for a sufficient length of time, the lake may be eventually
-filled up with mud, sand, and gravel, deposits that would
-eventually harden by pressure into shale and sandstone. So
-that the day may yet arrive when the blue waters of the Leman
-lake shall have passed away, when the Rhone perchance may
-have ceased to flow or found its way by some other channel, when
-the peasant may guide the plough where now the boatman plies
-<span class="pagenum" id="Page_172">- 172 -</span>
-the oar, and when the geologist shall trace out in quarries and
-excavations the successive deposits of hardened sediment with
-their lacustrine shells and drift-wood, and, musing on the
-changes of which they are the silent yet impressive witnesses,
-may sit down to pen a record of the gradual extinction of the
-Leman lake on that classic ground where an immortal historian
-described the decline and fall of the empire of Rome.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_55" href="#FNanchor_55" class="label">[55]</a> Lyell's <i>Principles of Geology</i>. Ninth edition, p. 252.</p>
-
-</div>
-
-<p>The alluvial matter deposited by the Rhone at its entrance
-into the Lake of Geneva suffers perhaps no change when it once
-reaches the bottom. Layer after layer accumulates tranquilly,
-without disturbance from surface currents or other causes, so
-that the renovating effects of the stream have here every advantage.
-It is otherwise, however, where a delta gathers at the
-mouth of a river upon the sea-margin. There tides and currents
-are ever demolishing what the stream has piled up. Often,
-too, owing to the prevalence of high winds from seawards,
-the river is dammed up for leagues, and the waters of the ocean
-encroach far on the delta, mingling in this way marine remains
-with those that are fluviatile or terrestrial. But with these
-modifications the process of delta-formation remains essentially
-the same, both in lakes and at the sea. The vast quantities of
-sand and gravel transported by rivers during the flood-season
-sink to the bottom as soon as the motion of the water will
-permit. This takes place at the shore, where eventually wide
-tracts of low alluvial land encroach upon the sea, covered with
-marshes and overgrown with vegetation. A section of any of
-these deltas, obtained in boring for water, shows a succession of
-sands and clays, with occasionally a few calcareous beds and
-quantities of peaty matter formed of vegetation either drifted
-or that grew on the spot.<a id="FNanchor_56" href="#Footnote_56" class="fnanchor">[56]</a> If, now, a sufficient amount of
-matter were piled over these loose incoherent strata, they would
-<span class="pagenum" id="Page_173">- 173 -</span>
-eventually become as hard and compact as any of our ordinary
-building stones. The sand would subside into a firm compact
-sandstone; the clay, in like manner, would consolidate into
-fissile shale; the peat would become chemically altered into
-coal; the calcareous seams would take the form of layers of
-limestone; while the leaves, twigs, branches, and trunks, dispersed
-through all the beds, would get black and carbonized, so as
-precisely to resemble the lepidodendra, calamites, stigmari&aelig;, &amp;c.,
-of the carboniferous rocks. And thus might a mass of fossiliferous
-strata, thousands of feet deep and thousands of square
-miles in extent, be amassed by the prolonged operation of a
-single river.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_56" href="#FNanchor_56" class="label">[56]</a> The structure of maritime deltas, especially their relation to the growth and entombment
-of forests, will be more fully alluded to in a subsequent chapter, when we come to
-inquire into the origin of a coal-field.</p>
-
-</div>
-
-<p>It often happens that a delta is prevented from extending
-further seawards owing to the prevalence of some marine current
-that comes sweeping along the coast-line and cuts away
-the accumulations thrown down by the river. The sediment
-thus removed is often carried to great distances, and eventually
-settles down as a fine mud along the floor of the sea, entombing
-any fucoids, infusoria, shells, corals, fish-bones, or other
-relics that may lie at the bottom.</p>
-
-<p>He who has witnessed a storm along a rocky coast-line, has
-marked the breakers battering against the weather-bleached
-cliffs, and heard the thunder-like rattle of the shingle at the
-recoil of every wave, needs not to be told how vast an amount
-of sediment must in this way be formed. The pebbles of the
-beach are ground down still smaller, the sand produced by their
-friction finds its way to a lower level, while the finer particles
-taken up by the water are borne out to sea, and if a current
-traverse the locality may be transported for leagues, till they
-at last settle to the bottom. The floor of the sea is consequently
-always receiving additions in the form of fine mud&mdash;the waste
-of the land&mdash;derived either from breaker-action, rivers, or icebergs,
-so that a series of marine deposits exactly similar to
-those we find among the rocks of our hills and valleys, must
-<span class="pagenum" id="Page_174">- 174 -</span>
-be constantly in the course of formation. If circumstances be
-favourable, the shingle of the beach may eventually either be
-covered over or reach a part of the sea undisturbed by currents
-or waves, and then consolidate into what we call conglomerate
-or pudding-stone. The sand, as before, becomes sandstone, and
-the mud laminated shale or hardened clay. These deposits may
-go on forming for thousands of years, until at last some slow
-elevation or some sudden upheaval of the ocean bed brings
-them to the light of day as part of a new continent. Thus
-exposed they would differ in no respect from rocks of a similar
-kind now visible, and the geologist, in tracing out their origin
-and history, would have no hesitation in ranking them among
-the ordinary marine formations of the globe.</p>
-
-<p>In fine, we cannot quit the subject without being convinced
-that these ceaseless changes afford one of the grandest examples
-of that continuous series of mutations&mdash;cycle and epicycle&mdash;which
-has been already alluded to as a distinguishing feature
-in all the operations of Nature. We are accustomed to think
-and speak of "the everlasting hills." We look on the solid
-lands whereon we dwell as the emblem of all that is stable and
-steadfast, and on the boundless ocean as the type of all that
-is unsteady and changeful. The traveller who stands on those
-plains where the human race was cradled, marks still the same
-valleys with their winding rivers, still the same rocks and hills,
-still the same blue sky overhead. The dust of centuries has
-gathered over the graves and the dwellings of the early races,
-yet the covering is but thin, and if we could conjure from their
-resting-place some of these venerable patriarchs, they might perhaps
-see little or no change on the haunts of their boyhood.
-We feel it otherwise, however, when we contemplate the ocean.
-In sunshine and in storm its surface never rests. The wave
-that now breaks against some bald headland of our western
-shores may have come sweeping across from the coast of
-America, and the broad swell that rolls into surf along the
-<span class="pagenum" id="Page_175">- 175 -</span>
-shores of Newfoundland may have travelled from the frozen
-seas of the North Pole. And so it has ever been; the "far
-resounding sea" of Homer is the "far resounding sea" still;
-and the "countless dimpling of the waves," invoked in his
-agony by the chained Prometheus, remains restless and playful
-as ever.</p>
-
-<p>"Firm as a rock," and "fickle as the sea," have therefore
-become proverbs of universal acceptance. Yet when we investigate
-the matter as we have done in this and the preceding
-chapter, it appears that an exactly opposite arrangement would
-be nearer the truth. It is the sea that remains constant&mdash;</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent0">"Time writes no wrinkle on its azure brow;"</div>
-  </div>
-</div>
-</div>
-
-<p>while the land undergoes a continual change. Hills are insensibly
-mouldering away, valleys are ever being widened and
-deepened, rocky coasts and low alluvial shores suffer a constant
-abrasion, while even within the bowels of the earth the process
-of decomposition uninterruptedly proceeds. And thus, in place
-of remaining unchanged from the beginning, we know of nothing
-more mutable than the land on which we dwell, so that if the
-waste everywhere so apparent were to go on unchecked or unmodified,
-island and continent would eventually disappear
-beneath the waves. Here, however, another principle comes
-into operation. The debris removed from the land, as we have
-seen, is not annihilated. Slowly borne seawards, it settles
-down at river mouths or on the floor of the ocean as an ever-thickening
-deposit, which eventually hardens into rock, as solid
-and enduring as that whence it was derived. But it does not
-always remain there. Owing to the action of subterranean
-agencies with which we are but slightly acquainted, different
-parts of the sea-bottom are continually rising. Sometimes this
-process goes on very slowly, as along the shores of Sweden,
-where the coast has been ascertained to emerge in some localities
-at the rate of about thirty inches in a century; sometimes with
-<span class="pagenum" id="Page_176">- 176 -</span>
-prodigious rapidity, as on the coast of Chili, where the land
-was upheaved from two to seven feet in a single night. There
-can thus be no doubt that the mysterious agency which produces
-earthquakes and volcanoes on the land affects equally
-that portion of the earth's crust covered by the waters of the
-ocean, and must be ceaselessly employed in elevating large areas
-of sea-bottom into new continents, that will ere long become
-clothed with vegetation and peopled with animals. In contemplating,
-therefore, the constant decay in progress on the surface
-of the land, we see not a mere isolated process of waste, but a
-provision for future renovation. The sandstone cliffs of the
-shore are battered down and their debris carried out to sea, but
-when sea-bottom comes to be land-surface, they may be sandstone
-cliffs again, lashed once more by the breakers, and once
-more borne as sediment to the depths of the sea. And thus,
-in what may seem to us sublime antagonism, land is ever rising
-in the domain of ocean, and ocean ever encroaching on the
-regions of land. No sooner does a new island, or mountain
-peak, or wide area of continent, appear above the waves, than
-the abrading agencies are at work again. Rain, air, frost,
-rivers, currents, breakers, all begin anew the process of destruction,
-and cease not until the land has utterly disappeared, and
-its worn debris has sunk in mid-ocean to be in process of time
-once more dry land, and suffer another slow process of obliteration.</p>
-
-<p>Such is the economy of nature around us now, and that such
-will continue to remain the condition of things in the future,
-we can affirm with probability from a consideration of the history
-of the past. The geologist can point to masses of rock
-several miles in thickness, and occupying a large area of the
-globe, formed entirely of the worn debris of pre-existing formations.
-The very oldest rocks with which he is acquainted are
-made up of hardened sediment, pointing to the existence of
-some land, even at that early period, worn down by rivers or
-<span class="pagenum" id="Page_177">- 177 -</span>
-wasted by the sea. During all the subsequent ages the same
-principles were at work, and now well-nigh the only evidence of
-the geological periods is to be gathered from the layers of sediment
-that successively settled down at the sea-bottom. The
-records which it is the task of the geologist to decipher, are for
-the most part written in sand and mud&mdash;the deposits of the
-ocean, for in by far the larger number of formations into which
-the stratified part of the earth's crust has been divided, and
-which form his only guide to the history of the past, he can
-detect no trace of land. Hill and valley have alike disappeared,
-and the character of their scenery and inhabitants he
-can often but dimly conjecture from the nature of the sediment
-and of the drifted terrestrial relics that may chance to be found
-among strata wholly marine.</p>
-<hr class="chap x-ebookmaker-drop" />
-
-<div class="chapter">
-<p><span class="pagenum" id="Page_178">- 178 -</span></p>
-
-<h2 class="nobreak" id="CHAPTER_X">CHAPTER X.</h2>
-</div>
-
-
-<div class="blockquot">
-
-<p>The structure of the stratified part of the earth's crust conveniently studied by the
-examination of a single formation&mdash;A coal-field selected for this purpose&mdash;Illustration
-of the principles necessary to such an investigation&mdash;The antiquities of a country
-of value in compiling its pre-historic annals&mdash;Geological antiquities equally valuable
-and more satisfactorily arranged&mdash;Order of superposition of stratified formations&mdash;Each
-formation contains its own suite of organic remains&mdash;The age of the boulder
-defined by this test from fossils&mdash;Each formation as a rule shades into the adjacent
-ones&mdash;Mineral substances chiefly composing the stratified rocks few in number&mdash;Not
-of much value in themselves as a test of age&mdash;The Mid-Lothian coal-basin&mdash;Its
-subdivisions&mdash;The limestone of Burdiehouse&mdash;Its fossil remains&mdash;Its probable
-origin&mdash;Carboniferous limestone series of Mid-Lothian&mdash;Its relation to that of England&mdash;Its
-organic remains totally different from those of Burdiehouse&mdash;Structure
-and scenery of Roman Camp Hill&mdash;Its quarries of the mountain limestone&mdash;Fossils
-of these quarries indicative of an ancient ocean-bed&mdash;Origin of the limestones&mdash;Similar
-formations still in progress&mdash;Coral-reefs and their calcareous silt&mdash;Sunset
-among the old quarries of Roman Camp Hill.</p>
-</div>
-
-<p><span class="smcap">Among</span> the standard jokes of ancient Athens was that of
-the simpleton who, with the intent of selling his house, carried
-about a brick as a specimen. In this and the following chapter
-I propose to follow his example, and, for the purpose of
-giving my reader a correct notion of the structure displayed in
-the stratified portion of the earth's crust, to select therefrom a
-single formation whose details will connect together the subjects
-discussed in the previous pages. And in so doing it will, I trust,
-be found that what was ludicrous in the hands of the Greek
-becomes sober sense in those of the geologist. The "brick,"
-then, which I would humbly present to the thoughtful consideration
-of the reader as really a specimen of the house of
-which it forms a part, has been termed the "Carboniferous
-System," and consists of a series of stratified rocks sometimes
-<span class="pagenum" id="Page_179">- 179 -</span>
-nearly 15,000 feet thick. The plants and animals found in
-these strata have been already described somewhat in detail,
-and we have turned aside to look at the processes whereby
-such masses of sedimentary rock came to be accumulated.
-But we shall probably better understand the habits of the
-animals and the general aspect of the vegetation, as well as the
-agencies at work in depositing vast beds of mineral matter, if
-we take a coal-field and analyse it stratum by stratum, marking
-as we go their varied and ever-changing character, and the corresponding
-diversity of the included organic remains. Such an
-examination will bring before us some of the more striking and
-important laws of geological research, and while of use to the
-young observer, may be not without some share of interest to the
-general reader. Before beginning, however, let me endeavour
-to illustrate the principles that will guide us by a simple
-though hypothetical story.</p>
-
-<p>Suppose the bed of the Firth of Forth were raised above the
-level of the sea and covered over with verdure, and that, in
-ignorance of the previous topography of the locality, a mason
-were to excavate on the lately-born land the foundation for a
-dwelling-house. Immediately below the grass he would com?
-upon layers of hardened mud containing oyster-beds, with
-detached valves of cockles, mussels, fish-bones, and perhaps the
-tooth of an anchor or the timber of some old herring-boat.
-Now, if he were gifted with but ordinary intelligence, what
-would he at once conclude from these remains? Plainly, that
-the spot on which he stood had once been the bed of the sea.
-And if in place of appearing as dry mud and sand these
-deposits had got hardened into shale and sandstone, and the
-shells, too, had become hard and stony, this would not alter
-his convictions. He would still assert positively that he stood
-upon an old sea-bottom. And suppose further, that all this
-were far away from any sea, still such a circumstance could
-make no change in his opinion; he would rightly assert that
-<span class="pagenum" id="Page_180">- 180 -</span>
-the place of sea and land might vary, and that the ocean's
-being now many miles distant could be no argument against
-the waves having once rolled over the site of the intended
-dwelling-house. Let us further imagine that he continues his
-trench, and in sinking deeper comes to a bed of dark peat with
-snail-shells and bones of sheep, deer, and oxen. What will he
-infer from these? Clearly that they represent an old land-surface,
-once covered with vegetation and browsed over by
-ruminant animals, and that this old land-surface has at some
-distant period been submerged beneath the sea. Suppose,
-moreover, that below the peat there were a thin bed of reeds
-and rushes intermingled with the mouldering remains of fresh-water
-shells. He would in that case infer that before the
-formation of the peat the locality was occupied by a lake.</p>
-
-<p>Putting now all these deductions together, our mason would
-have evolved a very interesting history. He would have ascertained
-that in a bygone age the spot on which he stood was the
-site of a lake, tenanted by delicate shells and fringed with reeds
-and rushes, where the coot and the mallard may have reared their
-young; that in process of time the vegetation gained upon the
-water, choking up the lake, so as gradually to form a soil firm
-enough to support sheep, deer, and oxen, and yielding shady
-coverts whither the antlered stag could retire and lay him
-down to die; that in after years the sea had encroached upon
-the peat-moss, and oyster-beds begun to form where cattle had
-been wont to browse; that again the ocean receded, and the
-land emerged to assume new verdure and receive new inhabitants.</p>
-
-<p>Now, in all this reasoning there is no hypothesis or speculation.
-The mason proves himself an intelligent, honest fellow,
-and uses his eyes and his head where many other men would
-perchance see very little need for the use of either. There can
-be no setting aside of his story; he can appeal to facts.
-"There," says he, "is a layer of peat with the rush-stalks and
-<span class="pagenum" id="Page_181">- 181 -</span>
-moss-fibres matted together in the soft brown mouldering substance,
-exactly as I have seen them a hundred times in the
-peat-cuttings on the moors, and I cannot but believe that they
-must both have had the same origin, that is, that they grew in
-swampy hollows of the land. There, too, lies a stratum of
-fresh-water shells identical with those that occur in our ponds
-and marshes. Although mouldering now, they are evidently
-not fragmentary, but entire and unbroken; some of them are
-young, others full-grown, and they lie grouped together as in
-our present lakes. Such shells could only live in fresh water,
-therefore the spot where I stand must have been at one time a
-fresh-water lake. There, again," he continues, "is a bed of
-oysters which cannot have been transported hither, for their
-valves are together, lying just as they do in our present oyster-beds.
-This green field, therefore, must have been at one
-period a muddy sea-bottom."</p>
-
-<p>After this manner and upon this kind of evidence must all
-inquiries into the past changes of the earth's surface be conducted.
-And provided only we proceed cautiously, reasoning
-from positive facts, and striving as far as possible to exhaust
-what Bacon calls the "negative instances," our deductions possess
-all the certainty of truth. For in much the same fashion
-do we derive no small part of our acquaintance with the early
-history of our own land, as well as with the arts and customs
-of other nations. The scattered relics turned up by the operations
-of the farmer&mdash;wooden canoes, flint hatchets, gold torques,
-bronze pots, fragments of pottery, and rusty coins&mdash;all have
-their bearing upon the annals of the country, and so clear is
-the evidence which they read out that an eminent antiquary
-has divided the early ages of Scotland into three periods, distinguished,
-from the character of their relics, as the "Stone
-Period," the "Bronze Period," and the "Iron Period."<a id="FNanchor_57" href="#Footnote_57" class="fnanchor">[57]</a> But
-<span class="pagenum" id="Page_182">- 182 -</span>
-in such a classification the historian has little to guide him
-save the nature of the relics themselves. He places the rudest
-first, and groups the rest in succession, according to the degree
-of advancement in civilisation which they respectively indicate.
-And the grouping seems just, though in some cases objects
-belonging to two of these periods may have been to some
-extent contemporaneous, just as thatched roofs gave way to tiles,
-tiles to slates, and slates partly to lead, though at the present
-day a walk of half an hour in some localities will bring before
-us specimens of all these styles still in use. If, however, the
-relics of geological history lay scattered about like those of
-early Scottish history, all hope of ever attaining to anything
-like a correct chronology and arrangement would have to be
-abandoned in despair. In truth, it would then be impossible
-to conjecture whether any succession of ages preceded man,
-during which other tribes of plants and animals lived and died,
-or whether the whole mass of fossiliferous rocks had been
-accumulated since the human era, or perhaps created just as we
-find them. But all this uncertainty and confusion has been
-obviated simply by the fossils being ranged in beds vertically
-above each other, the oldest at the bottom and the latest at
-the top. So that if we find in a low cliff along the shore
-blown sand and broken whelks immediately beneath the vegetable
-mould, and oyster-valves in a clayey bed three feet below,
-we pronounce the oysters to have lived before the whelks, and
-that between their respective lifetimes a sufficient interval must
-have elapsed to allow three feet of sand, clay, and gravel, to
-accumulate. What is thus true on the small scale holds
-equally so on the large. The stratified formations in which
-organic remains occur are found to be grouped regularly over
-each other in a settled invariable order. If A be below B in
-England it will be below B all over the world, and if C be
-above D at the North Pole it will be so at the South Pole too,
-and at every locality where the two rocks lie together. This
-<span class="pagenum" id="Page_183">- 183 -</span>
-order of superposition forms one of the grand tests for the age
-of different rock masses. By means of this simple rule the
-geologist has been enabled to arrange the different stratified
-formations, supplying the missing portions of one locality from
-the more complete series of another, so as to form a chronological
-table of no small part of our planet's primeval history.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_57" href="#FNanchor_57" class="label">[57]</a> See Dr. Daniel Wilson's deeply interesting work <i>The Pre-historic Annals of
-Scotland</i>.</p>
-
-</div>
-
-<p>But this is not all. We must attend to the character of the
-organisms as well as to their order of occurrence. We must
-distinguish the animal from the vegetable, the terrestrial from
-the marine, and scrupulously examine the peculiarities of each
-so as to recognise them again in other strata. By such careful
-scrutiny we may trace out the successive changes in the physical
-aspect of a district during past times, viewing in terrestrial
-plants (when clearly occupying their original site) evidence of an
-old land-surface; in <i>cyprides</i>, <i>unios</i>, and <i>paludin&aelig;</i>, traces of a
-former lake; and in corals and marine shells, unmistakable
-proofs of an ancient sea-bottom. Still further, by marking the
-specific character of such fossils we obtain a key to the age of
-many rocks that otherwise would be unintelligible, for it is
-found that each of the stratified formations, from the oldest
-upwards, has its own peculiar and characteristic organisms recognisable
-all over the world. This test of the geological position
-and age of any fossiliferous rock has a peculiar value, for it can
-be applied with infallible success where every other fails. The
-order of superposition is often obscured by dislocations and
-other causes, and the mineralogical texture of a formation may
-change entirely in a short space; but if the imbedded fossils
-remain, we can be at no loss as to the relationship of the rock
-which contains them. And hence, if in some lone island of the
-Hebrides, haunted only by the screaming sea-fowl, we find a patch
-of shale containing ammonites, belemnites, and a host of other
-shells in large measure identical with those occurring among
-the clays and limestones of Gloucestershire, we infer that they
-must all belong to one series and be of the same age; that, as
-<span class="pagenum" id="Page_184">- 184 -</span>
-we know the English beds to form part of a formation called
-Lias, of which, the exact place in the geological scale has been
-ascertained, so in like manner the Scottish beds must occupy a
-position in the same series; and that consequently there was a
-time when the site of Cheltenham and part of the Hebrides lay
-each beneath a sea which teemed with ammonites, belemnites,
-and many other mollusca, along, too, with the bulky saurians
-of the Lias. And yet no study of the surrounding rocks in the
-northern locality, even if carried on for a thousand years, could
-ever have thrown one ray of light upon the subject. In an
-earlier page our grey rounded boulder was introduced to the
-reader as a mass of sandstone belonging to the Carboniferous
-group of rocks. How could one be sure of the precise geological
-age of a loose water-worn block that might have journeyed
-all round the world? Simply by its included fossils.
-The calamite, lepidodendron, and stigmaria, revealed the date of
-the stone as clearly and unmistakably as if we had seen it
-lifted from its original bed by the lever and crane of the quarryman.
-These plants are peculiarly characteristic of the Carboniferous
-strata, and they consequently stamp as undoubtedly
-of carboniferous age the rock which contains them, whether it
-be sandstone or conglomerate, limestone or shale, and whether
-we meet with it among the newly-raised blocks of the quarry,
-or among the pebbles of the sea-shore. Each geological formation,
-I repeat, beginning at the oldest known to us, and ending
-with those that are still forming in our lakes and seas, has its
-own set of organic remains whereby we can detect it wherever
-it may chance to occur, from the equator to the poles. Each
-has its <i>style</i>, so to speak, just as we can at once tell whether
-a drawing represents a Hindoo, Egyptian, Assyrian, Greek,
-or Gothic temple, simply from the general <i>style</i> of the architecture.</p>
-
-<p>Could we but voyage back in time as we can sail forward in
-space, we should find each of the geological formations not less
-<span class="pagenum" id="Page_185">- 185 -</span>
-clearly defined than are the different nations and countries of
-the present day.<a id="FNanchor_58" href="#Footnote_58" class="fnanchor">[58]</a> Were the reader suddenly set down in an
-out-of-the-way street of Paris, he would probably not be long
-in discovering that he stood on French ground. Or if spirited
-away in his sleep he should awake on the banks of the Nile, he
-would soon ascertain himself to be in the land of the Ptolemies.
-And so if you transported a geologist blindfold into a quarry
-where ammonites and belemnites abounded, mingled here and
-there with bones of ichthyosaurs and plesiosaurs, he would tell
-you at once that the quarry lay among liassic strata. Or if
-he were placed in a ravine where the rocks on either hand displayed
-fern-stems, lepidodendra, stigmari&aelig;, and sigillari&aelig;, he
-would tell you that the surrounding district was one of carboniferous
-rocks, and that probably at no great distance there
-might be found smoking engines and dozens of coal-pits. Or
-could you set him down in some dark night upon a wild coast-line,
-and show him, perchance by the flare of torch-light, bones
-and scales of osteolepis, pterichthys, and dipterus, lying on the
-rocks around, he would tell you that the grim crags which shot
-up into the gloom were as ancient as the era of the Old Red
-Sandstone. In any case the character of the rock would
-signify nothing, nor would he care about the general features of
-the landscape, though these too become important characteristics
-in certain cases. Show him but a few recognisable fossils, and
-you give him, as it were, an "Open Sesame" to which the
-rocks unfold their gates and reveal a store of wonders yet more
-varied than those in the cave of Ali Baba.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_58" href="#FNanchor_58" class="label">[58]</a> See <i>ante</i>, pp. 31, 32, and the Table of Rocks at the end of the volume.</p>
-
-</div>
-
-<p>But though the geological systems stand thus strongly marked
-off from each other when viewed as a whole, their boundary lines
-can often be only approximately drawn, thereby reminding us that
-the divisions are of man's device, and can have had no place in
-the plans of Him who needs not to chronicle His working by
-years and ages, but with whom there is no past and no future.
-<span class="pagenum" id="Page_186">- 186 -</span>
-One formation insensibly passes into another just as one nation
-merges into those around it. There are sometimes gaps, however,
-between the formations, serving to mark out strongly the
-limits of each,<a id="FNanchor_59" href="#Footnote_59" class="fnanchor">[59]</a> precisely as intervening seas and mountain-chains
-serve to mark put the boundaries of different peoples and tribes.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_59" href="#FNanchor_59" class="label">[59]</a> Such cases, however, are probably merely local, and may have originated from some
-features in the ancient physical geography of the districts where they occur. For instance,
-it has always been thought that pal&aelig;ozoic ages were marked off by a strong line of demarcation
-from succeeding secondary times. But the gap which occurs in England,
-France, and Germany, is being slowly filled up from the evidence furnished by other
-countries, and we shall probably find in the end that the Permian dovetailed with the
-Trias as closely as the Silurian with the Old Red, or the Lias with the Oolite. In truth,
-the longer we study the past history of our planet the less do we see of hiatus and chasm
-and sharp clearly defined boundary line; while the doctrine of a uniform system of
-laws and arrangements in the physical world, first philosophically propounded in the
-immortal "Principles" of Sir Charles Lyell, is ever receiving fresh confirmation.</p>
-
-</div>
-
-<p>The mineral substances of which these formations consist are
-comparatively few in number, being chiefly varieties of sandstone,
-shale, conglomerate, and limestone. One sandstone can
-often be scarcely distinguished from another, and so also with
-the other rocks; hence such tests as mineralogical texture supplies
-can seldom be relied on to determine the age of rocks. We can
-prove, for example, that a series of limestones in England may
-be identical in age with a set of sandstones in Sweden, and with
-a group of shales in America, because they all contain the same
-or representative genera and species of organic remains. They
-occupy the same position in the geological scale; that is, the
-animals whose fossilized remains lie buried in these rocks were
-all living at the same time, while lime was gathering at the
-sea-bottom over the site of part of England, and sand was being
-thrown down upon a portion of what is now Sweden, and mud
-was accumulating over a submerged area of America. In such
-cases the differences of mineralogical character go for nothing
-in determining the age of the rocks; we have to rely solely on
-the embedded fossils, and on the order of superposition.</p>
-
-<p>Keeping in view, then, that the formations into which the
-<span class="pagenum" id="Page_187">- 187 -</span>
-geologist has grouped the stratified portion of the earth's crust
-have a settled and invariable order of occurrence, that each of
-them contains its own peculiar and characteristic group of organic
-remains whereby it can be recognised in any part of the
-world, and that such remains form often the sole test at once
-of the geologic age and of the origin of the rocks wherein they
-lie, we may return to the plan above proposed and endeavour to
-understand the structure of a coal-field. For this purpose it
-may be well to select one of the northern coal-fields of Britain,
-since these perhaps display a greater variety in their organic contents,
-and bear evidence of more diversified changes in their mode
-of formation than can be seen in those of the south. The strata
-that compose the coal-basin of Mid-Lothian will probably best
-suit our purpose, as they are free from the disturbing effects
-of those igneous intrusions which play so important a part
-among similar rocks to the north and west.</p>
-
-<p>The Mid-Lothian coal-field comprises a mass of stratified beds
-of sandstone, shale, coal, ironstone, and limestone, the united
-depth of the whole being above 3000 feet. By reference to
-the annexed Table it will be seen that the lowest beds of the
-section are chiefly sandstones and shales, extending downwards
-to an unknown depth, without any coal that can be profitably
-worked. These under-strata form the Lower Carboniferous
-group. Above them comes a middle zone in which the characteristic
-beds are of limestone, comprising the middle portion or
-Mountain Limestone of the Scottish Carboniferous rocks. The
-third and highest subdivision forms the Upper Carboniferous
-group or true Coal Measures, and constitutes the whole of what
-is properly the Mid-Lothian coal-field. For the sake of noting
-some of the remarkable changes exhibited in the character of
-the rocks, it may be well to begin our survey among the upper
-beds of the under group. Let us take as our base the famous
-limestone of Burdiehouse, and work our way upward through
-the four thousand feet of strata that lie piled above it.</p>
-
-<p><span class="pagenum" id="Page_188">- 188 -</span></p>
-
-
-<p class="caption3">VERTICAL SECTION OF THE MID-LOTHIAN COAL-FIELD.</p>
-
-<table class="pmb4" summary="data">
-<tr>
-  <td colspan="3">UPPER CARBONIFEROUS<br />OR COAL-MEASURES.</td>
-  <td class="bdr bdl"></td>
-  <td></td>
-</tr>
-<tr>
-  <td rowspan="3"><img src="images/bracel_320.png" width="11" height="320" alt="" /></td>
-  <td class="tdc"><b>Flat Coal Group.</b><br />(Above 1000 feet.)</td>
-  <td><img src="images/bracel_86.png" width="11" height="86" alt="" /></td>
-  <td class="bdr bdb bdl">&nbsp;</td>
-  <td>&nbsp;A series of sandstones, shales,<br />
-    &nbsp;&nbsp;&nbsp;and fire-clays, with interbedded<br />
-    &nbsp;&nbsp;&nbsp;seams of coal occupying the<br />
-    &nbsp;&nbsp;&nbsp;central area of Mid-Lothian<br />
-    &nbsp;&nbsp;&nbsp;coal-field.</td>
-</tr>
-<tr>
-  <td class="tdc"><b>Roslyn Sandstone<br />Group.</b><br />(About 1500 feet.)</td>
-  <td><img src="images/bracel_86.png" width="11" height="86" alt="" /></td>
-  <td class="vbot bdl bdr">&middot;&middot;&middot;&middot;&middot;&middot;&middot;&middot;&middot;<br />
-    &middot;&middot;&middot;&middot;&middot;&middot;&middot;&middot;&middot;<br /><br /><br /><br />
-    &middot;&middot;&middot;&middot;&middot;&middot;&middot;&middot;&middot;</td>
-  <td>&nbsp;A great series of sandstones<br />
-    &nbsp;&nbsp;&nbsp;and shales with three seams of<br />
-    &nbsp;&nbsp;&nbsp;marine limestone (marked here<br />
-    &nbsp;&nbsp;&nbsp;by dotted lines), With the<br />
-    &nbsp;&nbsp;&nbsp;exception of one or two thin seams<br />
-    &nbsp;&nbsp;&nbsp;it contains no coal, and serves in<br />
-    &nbsp;&nbsp;&nbsp;this way to mark off the coal-bearing<br />
-    &nbsp;&nbsp;&nbsp;beds above from the still<br />
-    &nbsp;&nbsp;&nbsp;richer coal-bearing beds below.</td>
-</tr>
-<tr>
-  <td class="tdc"><b>Edge Coal Group.</b><br />(800-900 feet.)</td>
-  <td><img src="images/bracel_86.png" width="11" height="86" alt="" /></td>
-  <td class="bdt bdr bdl">&nbsp;</td>
-  <td>&nbsp;A group of sandstones and<br />
-    &nbsp;&nbsp;&nbsp;shales similar to those at the<br />
-    &nbsp;&nbsp;&nbsp;top, and like them abounding in<br />
-    &nbsp;&nbsp;&nbsp;coal seams, some of which are<br />
-    &nbsp;&nbsp;&nbsp;thick and valuable.</td>
-</tr>
-<tr>
-  <td class="bdt tdl" colspan="3">CARBONIFEROUS LIMESTONES.</td>
-  <td class="bdt bdr bdl"></td>
-  <td class="bdt"></td>
-</tr>
-<tr>
-  <td class="bdb"><img src="images/bracel_86.png" width="11" height="86" alt="" /></td>
-  <td class="bdb tdc"><b>Roman Camp<br />Limestones.</b><br />(150-200 feet.)</td>
-  <td class="bdb"><img src="images/bracel_86.png" width="11" height="86" alt="" /></td>
-  <td class="bdb bdl bdr"></td>
-  <td class="bdb">&nbsp;A set of marine limestones<br />
-    &nbsp;&nbsp;&nbsp;intercalated with sandstones,<br />
-    &nbsp;&nbsp;&nbsp;shales, and a few seams of coal.</td>
-</tr>
-<tr>
-  <td class="bdt tdl" colspan="3">LOWER  CARBONIFEROUS.</td>
-  <td class="bdt bdr bdl"></td>
-  <td class="bdt"></td>
-</tr>
-<tr>
-  <td class="bdb" rowspan="2"><img src="images/bracel_160.png" width="11" height="160" alt="" /></td>
-  <td class="tdc"><b>Burdiehouse<br />Limestone.</b><br />(27 feet.)</td>
-  <td><img src="images/bracel_86.png" width="11" height="86" alt="" /></td>
-  <td class="bdl bdr">&middot;&middot;&middot;&middot;&middot;&middot;&middot;&middot;&middot;</td>
-  <td class="bdb" rowspan="2">&nbsp;Sandstones and shales extending<br />
-    &nbsp;&nbsp;&nbsp;to an unknown depth, often<br />
-    &nbsp;&nbsp;&nbsp;with seams of dull-grey compact<br />
-    &nbsp;&nbsp;&nbsp;limestone, rarely of coal. The<br />
-    &nbsp;&nbsp;&nbsp;beds become very red towards<br />
-    &nbsp;&nbsp;&nbsp;the base, and wholly devoid of<br />
-    &nbsp;&nbsp;&nbsp;fossils.</td>
-</tr>
-<tr>
-  <td class="bdb tdl">&nbsp;Thickness of Lower<br />
-    &nbsp;&nbsp;&nbsp;Carboniferous Rocks<br />
-    &nbsp;&nbsp;&nbsp;unknown, but probably<br />
-    &nbsp;&nbsp;&nbsp;greater than that of<br />
-    &nbsp;&nbsp;&nbsp;the upper.</td>
-  <td class="bdb"></td>
-  <td class="bdb bdr bdl"></td>
-</tr>
-</table>
-
-<p><span class="pagenum" id="Page_189">- 189 -</span></p>
-
-<p>The Burdiehouse limestone is twenty-seven feet thick, of a
-yellowish or bluish-grey colour, very compact, splintery, and
-often fissile in structure, with a finely striped and laminated
-appearance, which probably indicates a slow and tranquil origin.
-It is Crowded with fossils, every fragment when taken up showing
-its seed-cone, fern-stem, fish-scale, or minute <i>cyprides</i>. All
-the plants seem to belong to terrestrial species, and have a
-broken and often a macerated look. Manifestly they never
-grew where we now find their remains; they must have come
-drifting down from swamp, or jungle, or hill-side. And so we
-come to know that during the later ages of the Lower Carboniferous
-period, there lay somewhere in the neighbourhood of
-Burdiehouse a land clothed with ferns and club-mosses, and
-through whose swampy hollows there spread a network of stigmari&aelig;,
-while sigillari&aelig; waved their fronds high overhead.
-From what has been said on a previous page we may infer that
-the climate of the old land was moist and equable like that of
-New Zealand, nourishing a prolific growth of ferns and other
-plants comparatively low in the botanical scale. The scenery
-of the vegetation displayed perhaps no great variety of outline,
-but exhibited rather an endless succession of the same graceful
-forms.</p>
-
-<p>But the limestone presents us with other remains than merely
-those of terrestrial plants. It displays in abundance the minute
-dissevered cases of <i>cypris</i>, the small crustaceous animal described
-above. Recent species of this genus inhabit stagnant ponds or
-the bottoms of gently-flowing rivers, and we hence infer that
-the ancient species must in like manner have possessed a similar
-habitat, and consequently that the rocks which preserve
-their remains must have been deposited in fresh (or, perhaps,
-brackish) water. Tried by this test the Burdiehouse limestone
-must be regarded as a lacustrine, or more probably a fluviatile
-formation, which gathered slowly on an undisturbed bottom
-swarming with crustaceans and plentifully covered with leaves,
-<span class="pagenum" id="Page_190">- 190 -</span>
-branches, rootlets, and other fragments of terrestrial plants
-brought down by streams from the adjoining land. Thus the
-inferences drawn from the numerous plants, and from the
-countless multitude of cypris-cases, come to be mutually corroborative.
-The former tell us of some neighbouring forest-covered
-country; the latter lead us, as it were, into its river-mouths,
-whence we can descry the waving woods on either side.</p>
-
-<p>Still we have not exhausted all the fossil remains of the
-Burdiehouse rocks. Mingled among the stems of ferns and
-lepidodendra, and the scattered valves of the cyprides, lie the
-scales, teeth, and bones, of several large ganoidal fishes, along
-with entire specimens of the smaller genera. The scales of
-holoptychius are especially abundant, often crowded together
-by dozens, and probably not far out of the arrangement they
-had when grouped on the body of the living animal. Detached
-teeth of the same fish also frequently occur along with disjointed
-internal bones. The remains of the contemporary
-megalichthys likewise abound, more particularly the scales, which
-have a fine nut-brown colour, and dot the surface of the rock
-with their bright glittering enamel. Several other smaller
-ganoids may be met with, especially a small and elegant
-species of Pal&aelig;oniscus (<i>P. Robisoni</i>), and one of Eurynotus,
-a fish remarkable for the great size of its dorsal fin. Not
-uncommon, too, are the ichthyodoralites of a gigantic placoid&mdash;the
-<i>Gyracanthus formosus</i>&mdash;with all their delicately-fretted
-ornament and a peculiar crystalline glistening surface when
-broken across, whereby the smallest fragment can be easily
-distinguished from any other bone in the limestone. Such are
-the ichthyic remains of the Burdiehouse beds; what deductions
-can be legitimately drawn from them?</p>
-
-<p>As before, we must have recourse to the analogy of living
-nature. The existing ganoidal fishes chiefly inhabit lakes and
-rivers, especially near the confluence of the latter with the
-ocean. They feed on the decaying matter brought down from
-<span class="pagenum" id="Page_191">- 191 -</span>
-the land, or on the minute Crustacea that swarm upon the
-river-bottom. If, as seems probable, the ancient ganoids had
-habits similar to those of their present representatives, then the
-rocks wherein their remains occur abundantly may have originated
-on river-bottoms, and such may have been the case at
-Burdiehouse. So that here again we have corroborative evidence
-of the fluviatile origin of the limestone in question. But
-besides the remains of ganoidal fishes there occur the defensive
-spines of placoids. Now, the placoids are emphatically marine
-fishes, and the sole living representative of the most ancient
-genera of this order is the Port-Jackson shark, that haunts the
-seas round Australia. The ichthyodorulites of Burdiehouse,
-therefore, if we would apply analogy consistently, must be
-regarded as the relics of marine species. And this conclusion,
-too, will be found in entire harmony with those already obtained,
-for if we are right in assuming the Burdiehouse strata
-to have originated at a river-bottom, particularly near the sea,
-we may expect to find the remains of marine predaceous fishes
-imbedded in the sediment that gathered there, just as the teeth
-of the shark may be preserved among the mud forming in the
-upper reaches of many British estuaries, seeing that not a few
-instances are known where that fish has been stranded on such
-shores as those of the higher parts of the Firth of Forth.
-These Burdiehouse ichthyodorulites give positive proof that the
-limestone could not have originated in a lake, and the only
-explanation left is that of a river-bottom.</p>
-
-<p>But it may perhaps be objected that, after all, these fish-remains
-are for the most part fragmentary, and may consequently
-be drifted specimens, so that no conclusion as to the source of
-the rock can be based on their occurrence there. The imbedded
-land-plants confessedly came from some distance, why may not
-the same have been the case with the bones and scales of the
-river-haunting ganoid fishes? And, indeed, did we regard
-these fish-bones and scales merely in themselves, the argument
-<span class="pagenum" id="Page_192">- 192 -</span>
-might not perhaps be very easily answered, although the great
-numbers and perfect outline of the bones, teeth, and scales,
-afford pretty strong evidence that the owners lived and died in
-the locality where their remains are found. But there is a
-curious kind of evidence to be gleaned from the rocks around
-them whereby this objection can be at once set aside. In the
-limestone itself, and especially in some of the shales above,
-there occur vast numbers of small oblong coprolitic concretions
-of a dirty yellow or brown colour, full of scales and fragments of
-bone. There can be no doubt that these are the excremental
-remains of predaceous animals, while their great number and perfect
-preservation assure us that they could not have been drifted
-from a distance, but must rather have been deposited on the spot
-where we now find them. And thus we conclude that the site of
-Burdiehouse must have been a favourite haunt of these bone-covered
-fishes; that the bulkier forms, armed with pointed teeth
-or barbed-spines, preyed upon their humbler congeners, while
-these in turn may have fed on the cyprides that swarmed by
-millions at the bottom of the estuary. I have often detected
-in these coprolites the peculiarly-sculptured scales of the pal&aelig;oniscus.
-These graceful little animals must, therefore, have died
-that their lordlier brethren might dine.</p>
-
-<p>On a survey, then, of the whole evidence from fossils, we are
-led to conclude that the Burdiehouse limestone was slowly
-elaborated at the bottom of an estuary, into which the remains
-of terrestrial plants were drifted from the land, while bone-covered
-fishes haunted the waters, and into these busy scenes
-huge sharks ascended from the sea to share in the decaying
-putrescent matter ever brought down from the interior.</p>
-
-<p>The upper part of the limestone is shaly and argillaceous,
-and rests below a series of shales and thin sandstones. If the
-question were asked, what caused the change from limestone
-to shale, from the deposition of a calcareous to that of a muddy
-sediment, several answers might be given. The most probable
-<span class="pagenum" id="Page_193">- 193 -</span>
-seems to be the following. The limestone on weathered surfaces
-displays the mouldering casts of cypris-cases sometimes in such
-abundance as to show that the rock must be largely made up of
-them. The cyprides of the present day probably cast their shells
-annually; the integuments thus thrown off forming under
-favourable circumstances a thin mouldering calcareous marl at
-the bottom of the pond or marsh, along with the decaying
-shells of <i>paludina</i>, <i>planorbis</i>, <i>limnea</i>, or other fresh-water
-molluscs. We may conceive the Burdiehouse limestone to have
-had a similar origin. The cyprides, inhabiting water that contained
-little argillaceous matter, must have propagated by
-myriads, and during a long period of repose, in which the conditions
-of land and sea, and the directions of tidal currents and
-river-courses, appear not to have greatly varied in the neighbourhood
-of Burdiehouse, the calcareous exuvi&aelig; of these minute
-animals, along perhaps with the remains of other estuarine or
-fluviatile organisms,<a id="FNanchor_60" href="#Footnote_60" class="fnanchor">[60]</a> would form each year a scarce appreciable
-stratum, until by slow aggregation a bed twenty-seven feet deep
-was elaborated. Each successive annual layer would hardly
-settle down more perceptibly or more rapidly than "the flickering
-dust that mottles the floor of some old haunted chamber."</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_60" href="#FNanchor_60" class="label">[60]</a> Though I have never observed molluscan remains in the limestone of Burdiehouse,
-they are abundant twelve miles to the west, in the equivalent strata around Mid-Calder,
-one little gastropod being especially plentiful near the base of the calcareous rock in a
-seam known to the quarrymen as the "Buckie fake." I have not met with specimens
-sufficiently perfect for identification, the hard splintery nature of the rock seldom allowing
-anything but a cross-section to be seen save on weathered specimens, where the
-general contour of the shells has sometimes reminded me of <i>Paludina multiformis</i> grouped
-together in a recent fresh-water marl. In the shales above the Burdiehouse limestone,
-Dr Hibbert states he found a <i>unio</i> (?), called by him <i>U. nuciformis</i>. <i>Trans. Roy. Soc.
-Edin.</i> vol. xiii. p. 245.</p>
-
-</div>
-
-<p>At last, however, this condition of things came to be modified.
-The direction of the river channel along some part of its
-course had varied, or some analogous change had taken place,
-so that muddy sediment transported from the land sank down
-amid the cyprides at the bottom. In circumstances so uncongenial
-<span class="pagenum" id="Page_194">- 194 -</span>
-these tiny denizens of the estuary diminished in numbers
-until the silt and sand came down so rapidly and in such
-abundance that they eventually died out. Alluvial matter
-still darkened the water and covered the river-bottom, enveloping
-now the fronds of a delicate fern that had waved
-along the margin of some sequestered lake far inland, anon a
-seed-cone that had been shaken by the breeze from the spiky
-branches of some tall club-moss. Among these muddy beds
-occur numerous coprolites and fish-scales, along with cypriscases
-and a few shells of unio (?), showing that though the
-cyprides were decreasing, the water still presented the old estuary
-conditions and still swarmed with life.</p>
-
-<p>Eventually there came other changes in the direction or
-rapidity of river currents, and the accumulations of mud and
-silt were succeeded by a long protracted deposition of yellow
-sand, now forming the sandstone of Straiton. It enclosed
-many stems of stigmaria, lepidodendron, &amp;c., and in certain
-limited areas these plants matted together in such quantities
-that their remains now form thin irregular seams of coal. It
-would appear, therefore, that notwithstanding these changes in
-the matter transported and deposited at the locality in question,
-the estuary character of the locality remained essentially the
-same. The sand was at length replaced by fresh accumulations
-of mud and sandy silt, which went to form the beds of shale
-and shaly sandstone now found above the Straiton rock.</p>
-
-<p>When in the course of many long centuries a depth of strata
-amounting to fully 300 feet had been amassed, the area of Mid-Lothian
-underwent a total change. Owing to a depression of
-the earth's crust, that seems to have been general over the whole
-of central Scotland, the estuary in which the Burdiehouse limestone
-and superincumbent strata were deposited became open
-sea. As the evidence of this change rests solely on the character
-of the imbedded organic remains, we shall pursue our
-induction by examining the beds somewhat in detail.</p>
-
-<p><span class="pagenum" id="Page_195">- 195 -</span></p>
-
-<p>Rather more than 300 feet above the limestone of Burdiehouse
-there occurs in the Mid-Lothian coal-field a series of
-shales and seams of limestone. The former are sometimes
-black and hard, sometimes bluish-grey, soft, and frequently
-imbedding the remains of several genera of mollusca and other
-organic remains. The limestones vary considerably in the
-thickness and general aspect of their several seams, some being
-highly crystallized and about two or three feet in depth, others
-dull, compact, and ranging up to twenty and thirty feet thick.
-The shales and limestones are intercalated with and sometimes
-pass into each other, through the gradations of shaly limestone
-and calcareous shales. The whole series may measure 150 to
-200 feet, resting on the Straiton sandstone below, and passing
-upwards into the under part of the coal-bearing strata of Mid-Lothian
-known as the <i>Edge series</i>. These limestones form the
-northern <i>marine</i> equivalents of the mountain limestone of England,
-while the sandstones and shales on which they rest,
-including the Burdiehouse beds and all the Lower Carboniferous
-group, must probably be regarded as <i>estuarine</i> equivalents of
-the same formation. That is to say, while marine limestones
-were accumulating over the site of central England, sandstone,
-shale, and drifted plants, were slowly gathering in a wide
-estuary over what is now central Scotland, and only at the
-close of the period did marine limestones form simultaneously
-at both localities.</p>
-
-<p>In examining these Mid-Lothian beds we are struck at once
-with the great dissimilarity that obtains between their organic
-remains and those of the underlying strata. All the land-plants
-disappear&mdash;ferns, lepidodendra, sigillari&aelig;, and stigmari&aelig;.
-The cyprides, too, no longer occur, though the shales seem, at a
-first glance, to differ in no respect from those underneath, in
-some of which the cypris-cases were seen to abound. Neither
-can we detect the glittering scales and teeth that stood out in
-such strong relief upon the rocks below. Yet the fossils are
-<span class="pagenum" id="Page_196">- 196 -</span>
-scarcely less numerous than they were in the lower beds. Nay,
-in some of the limestones they lie so crowded together that the
-rock seems entirely made up of them. Plainly such a total
-renovation of organic life points to some equally extensive
-change of a physical kind. Let us examine for a little some of
-the fossil remains occurring in the mountain limestone series
-of Mid-Lothian, and read off, if we can, the revolutions which
-they chronicle.</p>
-
-<div class="figcenter" id="fig32" style="width: 507px;">
-  <img src="images/fig32.png" width="507" height="124" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 32.</span>&mdash;Section from Gilmerton to Crichton; <i>a</i>, Lower Carboniferous; <i>b</i>, Mountain
-Limestone; <i>c</i>, Edge Series; <i>d</i>, Roslyn Sandstone Group; <i>e</i>, Flat Coals; <i>y</i>, Drift.</div>
-</div>
-
-<p>The neighbourhood of Edinburgh affords many facilities for
-the study of these rocks. They can be seen, for instance, at
-many points along the ridge of the Roman Camp Hill, near
-Dalkeith, exposed in the operations of quarrying. That ridge
-is formed by what is known technically as an anticlinal axis
-(<a href="#fig32">Fig. 32</a>); in other words, the lower beds of the coal-measures
-rise up here into a sort of broad wave-like undulation, round
-the sides of which the higher parts of the series are folded.
-The elevated area has either been pushed up from below, or
-the more level country around has subsided into two trough-like
-hollows, so that now the strata, which geologically speaking
-are lowest, come to occupy the highest ground in the
-district. Seated on some of the opener spots of this woody
-eminence the observer has a noble prospect on which to expatiate.
-The ground around him is rich in historic associations,
-and links itself to many a varied page in the annals of Scotland.
-The hill on which he rests is crowned by the mouldering
-mounds of what tradition reports to have been a Roman
-<span class="pagenum" id="Page_197">- 197 -</span>
-station, but which may perhaps belong to a still earlier era.
-A few hundred yards north rise the wooded slopes of Carberry
-Hill, where the hapless Mary surrendered to her rebel lords,
-and whence she was led into her own capital amid the insults
-of an infuriate rabble. Northward, too, lies the fatal field of
-Pinkie, and eastward the less deadly but not less decisive field
-of Prestonpans. To the west the eye can mark the grey smoke
-of the Scottish metropolis, with its dusky towers and its lion-shaped
-hill, and then the blue waving outline of the Pentlands
-that sweep away south and lose themselves among the distant
-hills which girdle in the coal-basin of Edinburgh and Haddington.
-The course of the Esk&mdash;that <i>fabulosus amnis</i>&mdash;passes
-by many a time-honoured spot, from Habbie's Howe and the
-scene of the Gentle Shepherd down by the haunted scenery of
-Roslyn, the cliffs of Hawthornden, the grounds of Newbattle,
-and the old Roman station of Inveresk. East, west, and south,
-the broad expanse of green field and clustering wood swells upward
-to the distant hills that encircle the landscape with a wavy
-line of softest blue. Northward the eye rests on the Firth of
-Forth with its solitary sails, bounded by the bosky heights of
-Fife, and opening outwards by the May Island and the Bass
-Rock into the far-off hazy ocean. On every side objects of
-historic interest lie crowded together, about which many pleasant
-volumes have been and might still be written. If the
-observer be a lover of geological science he will find an examination
-of the structure of the hill to impart an additional
-interest to the scene. From the wide panorama of hill and
-dale, river and sea, with all its battle-fields, castles, and abbeys,
-and all its memories of the olden time, let him turn into one
-of the quarries that indent the flanks of the hill, and try to
-decipher there the records of a still older history. An hour or
-two thus spent will pass swiftly and pleasantly away, and on
-quitting the quarry he will have gained a new light in which
-to look on the landscape that lies spread out below.</p>
-
-<p><span class="pagenum" id="Page_198">- 198 -</span></p>
-
-<p>The mountain limestone of Mid-Lothian consists, as has been
-mentioned, of several seams interbedded with black and calcareous
-shales. The quarries on Roman Camp Hill have been opened
-in several of the thickest of these seams. Let us enter one of
-the excavations. A vertical face of rock forms the background,
-overhung above by long dangling tufts of withered grass, and
-washed below by a pool of water having that milky green tint
-peculiar to old lime-quarries. The lowest rock visible is a dull
-grey limestone with a yellowish weathered surface. Above it
-rests a mass of hard yellow calcareous shale, known to the workmen
-as "bands." This rock is worthless as a source of lime,
-nor from its irregular laminations and shivery structure has it
-much value in any other way. A few inches of surface-soil
-form the upper part of the section. It requires but a glance
-over the weathered surface of the limestone to mark that the
-rock abounds in fossils. Of these by far the most numerous
-are the joints of the stone-lily, for the most part of small size,
-and when broken across, with their minute central apertures,
-looking like so many fractured stems of tobacco-pipes. Other
-organisms also occur, such as a small delicately-plaited productus,
-a larger and more boldly-ribbed spirifer, a small cyathophyllum
-or cup-coral, and the fragile interlacing meshes of one
-of the net-like bryozoa&mdash;the fenestella. Of rarer occurrence are
-the whorled shells called bellerophon, the long chambered
-shells of orthoceratites, and the grooved tapering shells of pinn&aelig;.
-Many of the same fossils can be detected in the beds above,
-which thus evidently all form part of one series with the rock
-below. What, then, were the circumstances under which these
-strata originated?</p>
-
-<p>The answer to such a question is not far to seek. The
-corals and crinoids are exclusively marine families, and so any
-stratum in which their remains occur must have had a submarine
-origin. It matters not in this case though the specimens
-be fragmentary, showing a broken and drifted appearance.
-<span class="pagenum" id="Page_199">- 199 -</span>
-For even supposing that they did not live at the spot where
-their petrified relics are now exhumed by the operations of the
-quarryman, granting that they were drifted from a distance,
-still they could only have been drifted from one part of the
-sea-bottom to another. The state of keeping of the specimen
-often tells vastly on the value of its evidence when it belongs
-to a land or fresh-water tribe. Thus, in one of the limestones
-of West-Lothian I have found a black carbonized stem of sigillaria.
-Now, the sigillaria was a land-plant as much as any
-of our hazels or willows, and where the evidence from the
-associated organisms coincides, furnishes its own testimony as
-to the origin of the rock which imbeds its remains. But the
-stem in question was a mere fragment, and showed moreover a
-worn macerated surface. Such a fossil had evidently no value
-as a test of the origin of the limestone, which might have been
-elaborated either in an inland lake or in open sea. That it
-had really a marine origin, and that the sigillaria actually was,
-as it seemed to have been, a drifted plant, I ascertained beyond
-a doubt by detecting on the same slab hundreds of encrinal
-stems along with the shells, and thin, delicate, silvery spines of
-productus. Thus, then, the organisms of the land may be carried
-into the sea, and in dealing with their fossilized remains
-in the deposits of former ages we must be very careful in the
-use of evidence derived from fragmentary and drifted specimens.
-But no such caution is needed in regard to the productions of
-the sea. If they be fragmentary and drifted, we may believe
-they were rolled about by tides and currents previous to their
-final entombment; but still they remain as good a test as ever
-of the marine character of the rock in which they occur.<a id="FNanchor_61" href="#Footnote_61" class="fnanchor">[61]</a></p>
-
-<div class="footnote">
-
-<p><a id="Footnote_61" href="#FNanchor_61" class="label">[61]</a> The exceptional instance, of the accumulation on the land of blown sand imbedding
-the broken remains of marine shells, needs only to be noticed here.</p>
-
-</div>
-
-<p>The fossils of Roman Camp Hill are not drifted specimens.
-They must have lived and died where the quarryman now finds
-them. We recognise them as all unequivocally marine; corals,
-<span class="pagenum" id="Page_200">- 200 -</span>
-crinoids, and brachiopodous molluscs, are all clearly the denizens
-of the sea, and hence we conclude that they mark the
-site of an ancient ocean. The snail-shells that swarm about
-the fruit-trees of our orchards not more unmistakably indicate
-a land-surface than do these petrified relics evidence an old sea-bottom.
-We can argue, too, from the crowded way in which
-they lie grouped together, that life must have been prolific in
-these primeval waters. Every fragment of the rock shows its
-dozens, nay, hundreds, of stone-lily joints, disjointed indeed,
-yet easily recognisable. They must have swarmed as thickly
-along the floor of the sea as the strong-stemmed tangle that
-darkens the bottom of many a picturesque bay along our
-western coasts, yet with a gracefulness of outline such as none
-of our larger sea-weeds can boast. Less numerous but not less
-markedly <i>in situ</i> are the shells of productus and spirifer, the
-former with its finely-striated surface fresh as if the creature
-had died but yesterday, while the slender spines with which it
-was armed lie strewed around. In short, the whole suite of
-organisms points to a period of tranquil deposition in a sea of
-probably no great depth, where the lower forms of the animal
-kingdom flourished in abundance, contributing by their calcareous
-secretions to form continuous layers of limestone.</p>
-
-<p>Such a condition of things finds a parallel in many parts of
-the globe at the present day. Thus, the shores of the islands
-of the Pacific are white with fine calcareous mud, that results
-from the action of breakers on the surrounding coral-reefs.
-This mud, enveloping fragments of coral, shells, sea-weed, drift-wood,
-and other extraneous substances, hardens on exposure, and
-becomes eventually a limestone, travertine, or calc-sinter. We
-may believe that the same process goes on out at sea, around
-the edges of atolls or circular coral-reefs, and that the sediment
-thus thrown down will enclose any zoophytes or molluscan
-remains that may lie at the sea-bottom, along perhaps with
-<i>fuci</i>, and occasional water-logged fragments of wood that have
-<span class="pagenum" id="Page_201">- 201 -</span>
-been drifted from land. Along the shores of Guadaloupe a bed
-of this calcareous silt has formed since America was colonized
-by man, for it has been found to contain fragments of pottery,
-arrow-heads, and other articles of human workmanship.<a id="FNanchor_62" href="#Footnote_62" class="fnanchor">[62]</a> The
-same rock has yielded, besides, the partially-petrified bones of
-several human skeletons, one of which, though without the
-head, forms a prominent object among the fossil treasures of
-the British Museum. The rock in which these remains are
-embedded is described as harder than statuary marble, notwithstanding
-its recent origin. By supposing the same process
-to be carried on over a large area and for a long period, we
-may see how a continuous stratum of limestone could be elaborated,
-full of fossil relics of corals, molluscs, and other marine
-productions. And in some such way, we may be permitted to
-believe, the seams of limestone on Roman Camp Hill were
-accumulated. The billows of that old carboniferous ocean may
-not have sent up their white surf against the margin of snowy
-coral-reefs, but the currents below did their work of demolition
-as effectually, and by sweeping through the submarine groves
-of stone-lilies and cup-corals, as the night winds of autumn
-sweep athwart the heavy-laden fields, would prostrate many a
-full-grown stem and scatter its loosened joints among the
-thickening lime that covered the bottom. Stone-lily, cup-coral,
-net-coral, productus, spirifer, pinna, nautilus, orthoceratite,
-all would eventually be entombed amid the decaying
-remains of their congeners, and thus produce a slowly-increasing
-seam of limestone.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_62" href="#FNanchor_62" class="label">[62]</a> Lyell's <i>Manual of Elementary Geology</i>, p. 121. Fifth edition.</p>
-
-</div>
-
-<p>We still linger in the old quarry on Roman Camp Hill, but
-the day draws rapidly to a close, and the long level beams of
-the setting sun lighten up the higher grounds with a golden
-flush, while the valley below lies deep in shade. The rays fall
-brightly on the abrupt face of limestone at the further end of
-the quarry, every prominence standing out in bold relief, and
-<span class="pagenum" id="Page_202">- 202 -</span>
-casting its shadow far behind. Our eye, in passing over the
-sunlit rock, can detect the fractured joint of many an encrinite
-glancing in the light; along, too, with the strongly defined outlines
-of some of the lesser and more abundant molluscs&mdash;spirifers
-or producti. Some of them, sorely effaced by the rains,
-have begun to yield a scanty nestling place for creeping fibres
-of moss; others yet bare, afford a rest to the <i>Vanessa</i> whereon
-to spread its wings in the mellow sunset ere flitting homewards
-among the dewy herbage. The bushes overhead scarcely rustle
-in the light-breathing air that comes fitfully across the land,
-and the long grass nods dreamily on the margin of the pool
-below. There rests a calm stillness on all the nearer landscape,
-and the distant ground blends away into the shades of evening.
-The scene, in short, has about it that solemn impressive repose
-which irresistibly arrests the fancy, and sets it to dress up into
-fantastic shapes the massive clouds that float in the western
-sky, to picture grim forms amid the misty shadows of the
-valley, or to dwell half dreaming upon the memories of the
-past, that come crowding through the mind in quick succession.
-Our labours among the fossils of the old quarry, however, enable
-fancy to draw her stores from another source. We muse on
-these petrified relics, gilded by the last rays of the setting sun,
-when slowly, like a dissolving view, sunset and herbage melt
-away, and the bottom of the old carboniferous ocean lies before
-us with its corals and shells and stone-lilies, stretching out their
-quivering arms, or expanding and contracting their flower-like
-petals amid a scene of ceaseless animation and activity. Geology
-delights in contrasts, and assuredly the contrast presented
-to us this evening between the present and the past of Roman
-Camp Hill, will not rank among the least striking of those
-which she has to reveal. There is now spread over us the blue
-sky, richly hung with tinted clouds, and melodious with the
-evening songs of the lark, the blackbird, and the thrush. Not
-less surely did a wide expanse of sea during the Carboniferous era
-<span class="pagenum" id="Page_203">- 203 -</span>
-roll over the hill on which we stand. And yonder silvery moon
-that mounts up amid the violet twilight of the east, has witnessed
-each scene and all the countless changes that have
-intervened between them. The same pale light that now begins
-to steal through the woods and athwart the fields, must have
-streamed down upon that old sea and illumined its green depths.
-Oceans and continents, islands and lakes, hills and valleys, have
-come and gone with all their successive races of living things,
-and that same planet has marked them all. She has seen, too,
-as but a thing of yesterday, the appearance of man upon the
-scene, with all the successive centuries that have elapsed since
-then. Truly the "goddess of the silver bow" would have a
-strange story to tell us could we interrogate her about the past.
-But the days of Endymion have gone by, and she now no longer
-visits in a personal form the seat of beings who gaze at her
-crescent orb and daringly pronounce it a scene of blasted ruin
-and desolation.</p>
-<hr class="chap x-ebookmaker-drop" />
-
-<div class="chapter">
-<p><span class="pagenum" id="Page_204">- 204 -</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XI">CHAPTER XI.</h2>
-</div>
-
-
-<div class="blockquot">
-
-<p>Intercalation of coal seams among mountain limestone beds of Mid-Loihian&mdash;North
-Greens seam&mdash;Most of our coal seams indicate former land-surfaces&mdash;Origin of coal
-a debated question&mdash;Erect fossil trees in coal-measures&mdash;Deductions to be drawn
-therefrom&mdash;Difference between the mountain limestone of Scotland and that of
-England&mdash;Coal-bearing character of the northern series&mdash;Divisions of the Mid-Lothian
-coal-field&mdash;The Edge coals&mdash;Their origin illustrated by the growth of modern
-deltas&mdash;Delta of the Nile&mdash;Of the Mississippi&mdash;Of the Ganges&mdash;Progress of formation
-of the Edge coals&mdash;Scenery of the period like that of modern deltas&mdash;Calculations
-of the time required for the growth of a coal-field&mdash;Why of doubtful value&mdash;Roslyn
-Sandstone group&mdash;Affords proofs of a general and more rapid subsidence beneath
-the sea&mdash;Its great continuity&mdash;Probable origin&mdash;Flat coals&mdash;Similar in origin to the
-Edge coals below&mdash;Their series not now complete&mdash;Recapitulation of the general
-changes indicated by the Mid-Lothian coal-field.</p>
-</div>
-
-<p><span class="smcap">Among</span> the old quarries of Roman Camp Hill and down the
-course of several streams in the same county, the limestone beds
-of the mountain limestone series are seen to be associated with
-strata of shale, some of which are highly calcareous, and charged
-with the same organic remains that occur in the limestones.
-Such shaly intercalations mark as before the transport and
-deposition of muddy sediment around and above the corals and
-stone-lilies of the sea-bottom. All these beds must undoubtedly
-be regarded as marine. But there occur, besides, seams of
-sandstone and black partially-bituminous shale, with layers
-of coal and fire-clay. To this singular intermixture it may be
-well to advert more particularly, since it forms one of the distinguishing
-features of these northern rocks, as contrasted with
-those of central and south-western England, and more especially
-since it will lead us to mark again the value of fossil remains
-as evidence of the ancient changes of land and sea.</p>
-
-<p><span class="pagenum" id="Page_205">- 205 -</span></p>
-
-<p>The southern part of Mid-Lothian consists of a broad heathy
-moorland, that slopes northward into the more cultivated
-country, and swells upward to the south into the series of undulating
-ridges that form the Moorfoot Hills. It is traversed by
-several streams which rise high among the pasture grounds of
-the south, and flow some into the valley of the Esk, and thence
-into the sea at Musselburgh; others past the ancient fortalices
-of Borthwick and Crichton, and so by the valley of the Tyne
-into the sea at Tyningham. In their upper course they traverse
-a broad belt of the mountain limestone that stretches across
-this part of the country from east to west, and dips away north
-under the coal-field. Where the streams have been able to cut
-through the thick mantle of heath, sand, gravel, and clay, by
-which these higher grounds are covered, we sometimes obtain
-a complete section of the strata displayed in regular sequence
-along the bottom of the channels. Thus, one of the rivulets
-that trickles slowly through the swampy ground of Middleton
-Muir, on approaching the line of limestone begins to descend
-more rapidly, and has excavated its course through several feet
-of the rock below. The limestones are well exposed along each
-side of the stream, forming in some places steep walls tapestried
-with moss and overhung with scraggy furze, and offering to
-the student an instructive series of sections. Near the farm of
-Esperston, where the stream flows through a narrow secluded
-valley, the limestones form a floor which the water in the
-course of centuries has worn smooth, so that the rock with its
-included encrinal stems and shells, polished by the ceaseless
-flow of the current, shows like a sheet of variegated marble.
-At one point on the side of the water-course the observer may
-notice a low ledge of rock jutting out for a short way along
-the edge of the stream. The upper part is a hard compact
-limestone, full of small crinoidal joints. The bed underneath
-it has been greatly eroded by the rivulet, but enough remains
-to show that the stratum is one of coal. It rests upon the
-<span class="pagenum" id="Page_206">- 206 -</span>
-series of limestones and sandstones seen in the upper part of
-the water-course, and is surmounted by the thick limestones of
-Arniston and Middleton. A similar seam nineteen inches thick
-has been worked among the limestone about three miles to the
-west at Fountain. The same bed occurs among the quarries on
-Roman Camp Hill already mentioned, and I have seen an equivalent
-stratum intercalated among sheets of cup-corals and stone-lilies
-on the shore at Aberlady, where the waves have laid open
-perhaps the finest section of Carboniferous limestone strata in
-Scotland. In West-Lothian, too, the same intercalation of coal-seams
-among the mountain limestone beds can be seen in many
-places. Thus, in the bed of the River Almond, near Blackburn,
-the following section is laid bare:&mdash;</p>
-
-<p style="margin-left: 30%;">
-  Calcareous shale.<br />
-  Limestone (marine), eight feet.<br />
-  Calcareous shale, with <i>spirifers</i>, &amp;c.<br />
-  Coal, six to eight inches.<br />
-  Fire-clay.<br />
-  Sandstone.<br />
-</p>
-
-<p>A short way further down the stream another bed of limestone
-occurs with several seams of coal below it, one of them attaining
-a thickness of six feet.</p>
-
-<p>In addition to the thin seam at Esperston, the Mid-Lothian
-field contains several others. Of these by much the most
-important is that known as the North Greens Seam. It varies
-in thickness from only a few inches to fully 5 feet, and has
-been extensively worked for the <i>parrot</i> or gas-coal which it
-contains. It rests upon a pavement of shale, sometimes of
-fire-clay, and occurs about midway between two thick marine
-limestones, being from 80 to 90 feet distant from each. I
-have laid open many a block of the parrot-coal at the pit mouth,
-and marked the well-defined outlines of the stigmaria covered
-with a yellowish efflorescence of iron pyrites, like gilded figures
-<span class="pagenum" id="Page_207">- 207 -</span>
-upon a black velvet ground. The plants lie with their divergent
-rootlets spread out regularly along the stem like teeth on the
-back of a comb, thus seeming to indicate no hurried agglomeration
-by some tidal wave or turbid river, but rather a slow
-and tranquil deposition.</p>
-
-<p>The fossils of the coal-seams consist for the most part of the
-plants above described, which we saw to belong to <i>terrestrial
-species</i>. But the reader will now understand that in dealing
-with organic remains we cannot infer, because a certain stratum
-contains nothing but land-plants, that it must necessarily by consequence
-be a land-formation. For we have seen that the plants
-of the Burdiehouse limestone, though all terrestrial, gave no
-support to the idea that the rock had originated on land. In
-all such cases regard must be had not only to the nature of the
-imbedded organisms, but their condition and mode of occurrence,
-and to the character of those associated with them.
-Especial care must be taken to distinguish what has been
-transported from what is <i>in situ</i>, otherwise, by attending only
-to one part of the evidence, we shall miss the import of the
-whole, and altogether misinterpret the records which we seek
-to decipher.</p>
-
-<p>For years the subject of the origin of coal formed one of
-the many battle-fields on which geologists delighted to break
-lances. They ranged themselves under two banners, the "drift"-theory
-men and the "growth"-theory men, the former maintaining
-strenuously that coal was simply vegetation transported
-from the land and deposited in large troughs at river-mouths
-or sea-bottoms, the latter as eagerly contending that the vegetation
-had not been drifted, but grew on the very locality where
-its remains are now exhumed. Neither party lacked plausible
-arguments in support of its doctrines. The "drift" combatants
-stoutly affirmed it to be contrary to all experience that a land-surface
-should be so oscillating as their opponents required,
-that in short it was absurd to hold each coal-seam as marking
-<span class="pagenum" id="Page_208">- 208 -</span>
-a period of elevation, for there were often dozens of seams in
-as many yards of strata, some of them scarcely an inch thick,
-and yet, according to the "growth" theory, each would have
-required for its accumulation a special uplifting of the land
-above the sea-level. These and many other difficulties were
-thought to be triumphantly overcome by the hypothesis of
-transport and deposition. The vegetation borne down by some
-ancient Mississippi would collect in vast rafts, and these
-becoming water-logged would sink to the bottom, where, by
-getting eventually covered over with silt and sand, they would
-in process of time be chemically altered into coal. This
-explanation was, however, vigorously resisted by the opposite
-side. They alleged that the "drift" theory could account
-neither for the wide extent of coal-seams nor for their remarkable
-persistency in thickness. If the vegetation had really
-been hurried out to sea by river-action, it seemed natural to
-expect that the coal-seams should occur in sporadic patches of
-very unequal thicknesses, according as the drifted plants had
-been more densely or more loosely packed. But this was found
-not to be the case in point of fact. The coal-seams were ascertained
-to be generally singularly continuous, and to retain for
-the most part a pretty uniform thickness over considerable
-areas. And what was still more worthy of note, they were, as
-a whole, markedly free from extraneous matter, such as sand
-and mud. Where these impurities did occur, it was usually in
-the form of intercalated seams or partings, often quite as regular
-and extensive as the coal itself. Had the vegetation, therefore,
-been transported into the sea, it could hardly fail to get
-mixed up with the fine impalpable mud which, like that of the
-Ganges or Mississippi, might have discoloured the ocean for
-leagues from the river-mouth, and settled down as a thickening
-stratum at the sea-bottom. And many other arguments,
-derived from the nature and arrangement of the
-strata interbedded among the coal-seams, were urged to prove
-<span class="pagenum" id="Page_209">- 209 -</span>
-that the latter had originated from vegetation which grew on
-the spot.</p>
-
-<div class="figright" id="fig33" style="width: 185px;">
-  <img src="images/fig33.png" width="185" height="532" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 33.</span>&mdash;Section from Cape Breton
-    coal-field, showing four planes of vertical stems, and seven ancient soils with their
-    covering of vegetation.<br />
-    <i>a</i>, sandstones; <i>b</i>, shales; <i>c</i>, coal; <i>d</i>,
-    fire-clays; <i>e</i>, arenaceous shales.</div>
-</div>
-
-<p>The warfare seems now pretty nearly at an end, and as
-often happens in such cases, it has
-been found that each party was to
-some extent in the right and to
-some extent in the wrong. It has
-been ascertained that some coal-seams
-must have originated from the
-deposition of drift-wood in the mud
-and ooze of the sea-bottom, while
-others undoubtedly arose from the
-decay and entombment of vegetation
-in swampy plains of the land. That
-the latter mode of formation has been
-the usual one in most of our coal-fields
-has been generally acknowledged
-since Sir William Logan's announcement
-that each coal-seam, for
-the most part, rests upon a bed of
-fire-clay, which, with its embedded
-roots, marks the site of an ancient
-soil. This fact has been abundantly
-confirmed in every part of this
-country, and indeed wherever an extended
-series of coal-seams has been
-examined. Not only have the underlying
-fire-clays been found, but in not
-a few instances erect stems of trees,
-passing down through the coal-seam
-and spreading out their divergent
-roots in the clay below, exactly as
-they must have done when they
-flourished green and luxuriant in the
-<span class="pagenum" id="Page_210">- 210 -</span>
-times of the Carboniferous system. This was especially the
-case in the Parkfield Colliery, Wolverhampton, where seventy-three
-trunks were laid bare in the space of about a quarter of an
-acre, each with its roots attached. The same appearance was
-observed some years ago in the Dalkeith coal-field, where a
-group of erect trees was encountered covering a space of several
-square yards. Some instructive sections of such fossil-forests
-are given by Mr. Brown from the Cape Breton coal-field.<a id="FNanchor_63" href="#Footnote_63" class="fnanchor">[63]</a> In
-one of them (<a href="#fig33">Fig. 33</a>) no fewer than four planes occur, each
-supporting its group of erect steins. Now, no one can glance over
-this and the other sections illustrative of the same paper, or
-the descriptions given by Sir Charles Lyell and others of
-the Nova Scotian coal-field, without being compelled to admit
-that the trees in question grew just where their upright stems
-can still be seen, and consequently that the accompanying
-coal-seams originated not from vegetation drifted by river-action,
-but from vegetation that grew upon the spot. And
-though erect stems do not exist in every coal-field, we seldom
-fail to detect the not less important occurrence of the fire-clays
-and hardened shales that support the coal-seams and prove by
-their embedded rootlets their identity with ancient soils. Thus
-we arrive at the inference that while in certain localities coal-seams
-have resulted from drifted vegetable matter, they have
-nevertheless for the most part been formed from plants that
-flourished where the collier now excavates, amid damp and
-dripping caverns, their carbonized remains.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_63" href="#FNanchor_63" class="label">[63]</a> <i>Quart. Jour. Geol. Soc.</i> vol. vi. pp. 120, 130. The cut given above (<a href="#fig33">Fig. 33</a>) is taken
-from one of these sections as modified by the late Sir Henry de la Beche (<i>Geological
-Observer</i>, p. 582). In the original the beds are inclined at a considerable angle, but for
-the sake of clearness they are here reduced to horizontality.</p>
-
-</div>
-
-<p>Applying, then, this deduction to the strata occurring on the
-horizon of the mountain limestone in Mid-Lothian, we are led
-to believe that the North Greens coal-seam marks the site of a
-former land-surface. It shows no vertical stems, but has all
-<span class="pagenum" id="Page_211">- 211 -</span>
-the other accompaniments of an ordinary seam, such as the
-underlying fire-clay and shale, with their included stigmari&aelig;.
-And this conclusion has more than ordinary interest, for if it be
-true, we have evidence of a terrestrial formation among strata
-unequivocally marine; in other words, we see proofs either of
-an elevation or a filling-up<a id="FNanchor_64" href="#Footnote_64" class="fnanchor">[64]</a> of the sea-bottom carried slowly on
-until land-plants grew up in matted swamps where once there
-swarmed corals and encrinites, and then of a gradual subsidence,
-so that marine organisms flourished again in abundance
-over the site of the submerged vegetation. It is not insisted
-that each of the thin coal-seams among the limestone strata
-marks a former terrestrial area. Some of them may possibly
-have resulted from the transport and deposition of plants borne
-from the land. Yet there are others of wide extent resting
-upon beds of fire-clay which contains stigmaria rootlets, &amp;c.
-These I cannot but regard as the remains of plants that grew
-upon the spot. And so, while we recognise in the beds of
-limestone undoubted evidence of a former sea-bottom, I am
-persuaded we must equally admit that at least several of the
-coal-seams bear fair evidence of a former land-surface, scarcely
-raised above the sea-level indeed, but nourishing nevertheless a
-thickly matted vegetation. In this way we shall see the mountain
-limestone series of the Lothians to be not a purely marine
-formation, but one partly marine and partly deltoid, showing in
-the succession of its strata proofs of a gradual submergence,
-interrupted by movements of elevation, so that the area which
-at one period formed the ocean-bed became at a later time low
-<span class="pagenum" id="Page_212">- 212 -</span>
-delta-land, and after continuing perhaps for ages to stretch out
-its verdant surface beneath the open sky, sank again amid the
-corals of a wide-spread sea.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_64" href="#FNanchor_64" class="label">[64]</a> If it be correct to set down the North Greens coal-seam as really representing a terrestrial
-surface, that is, of course, a flat delta or plain scarcely raised above the sea-level,
-we must, I suspect, call in the aid of a slight elevatory process, or else hold that the
-depth of the sea at the locality where the lower limestone was forming did not exceed
-80 or 90 feet, and may have been considerably less, and that this space came to be eventually
-filled up by the detritus of the river. But the wide extent and sometimes the great
-thickness of the limestone beds seem to indicate a greater depth, and thus favour the
-idea of an elevation of the sea-bottom to form the North Greens coal-seam.</p>
-
-</div>
-
-<p>Now this condition of things differs entirely from what is
-presented by the Mountain Limestone group of England. That
-formation, when typically developed, attains a thickness of from
-1000 to 2000 feet, and gives rise to that green hilly kind of
-scenery whence it has derived its name. It is unequivocally a
-marine deposit, since it abounds in corals, echinoderms, brachiopodous
-molluscs, and other productions of the deep. Northward,
-however, it undergoes a gradual change, getting greatly
-thinner, and split up by a series of intercalations of shale and
-sandstone. This alteration goes on until, on the border-land
-between the two countries, the massive limestone of Derbyshire
-has dwindled down into a series of thin beds, often widely
-separated by intervening strata, which contain many seams of
-coal. After crossing the Silurian district, and descending the
-northern slopes of the Lammermuir Hills, we get into the
-Carboniferous system again, and find its limestone series still
-farther diminished. With this decrease of marine formations,
-we can detect an augmentation of coal-bearing strata. Thus
-the Berwickshire coal-field lies in this lower set of beds, far
-under the coal-measures of Newcastle. In the Lothians, too,
-as has been shown, coal is extensively worked in the same
-series, and these seams also find their representatives in Fife
-and Lanarkshire. The gradual change from the kind of strata
-found on the horizon of the Burdiehouse limestone, to those
-occurring on the horizon of the Mountain limestone, indicates,
-as we saw, a gradual change of the conditions of deposition;
-and the nature of this alteration is shown by the difference in
-the character of the imbedded fossils. The passage of the massive
-Derbyshire limestone into the thin limestones and coal-bearing
-sandstones of the north, as decidedly marks another
-change in the relative position of sea and land. The former
-<span class="pagenum" id="Page_213">- 213 -</span>
-was a succession in time, the latter was one in space, but the
-mode of reasoning remains the same for both. In the former
-case, we saw estuarine strata passing upward into others wholly
-marine, and the order of superposition told us that the locality
-was first an estuary, and then slowly became open sea. In the
-latter case, we see marine beds not succeeded by estuarine
-strata, but becoming estuarine strata themselves. The thick
-limestones gradually thin out horizontally into a great series of
-sandstones and shales, with interbedded coal-seams, so that what
-bears evidence of a deep sea at the one end, gives proof of a
-muddy and sandy delta at the other. In other words, during
-the ages represented by what we call the Mountain Limestone,
-the central and south-western portions of England lay far below
-a wide breadth of ocean, and nourished a luxuriant crop of
-stone-lilies, mingled with the other denizens of the deep, while
-the Border district, and the whole of central Scotland, exhibited
-all the conditions of a vast delta, sometimes spreading out as
-broad verdant jungles, anon showing only scattered irregular
-groups of low, bare mud-banks and sand-spits, which at other
-times disappeared altogether beneath the dun discoloured waves.
-Now the reader will not fail to mark that this curious and interesting
-fact in the past history of our country, is ascertained solely
-from a comparison of fossil remains. The stone-lilies and shells of
-Derbyshire, and the lepidodendra and land-plants of the Lothians,
-form our sole basis of evidence, and we may rest on them with as
-perfect certainty as if they were so many duly attested documents
-deposited among the archives of our State-Paper Office.</p>
-
-<p>In our survey of the coal-field of Mid-Lothian, we have
-passed from the Lower Carboniferous estuary beds of Burdiehouse
-to the Middle Carboniferous marine beds of Roman
-Camp Hill, and their associated terrestrial strata,&mdash;the coal-seams
-and fire-clays. We come now, in our upward progress, to
-the Upper Carboniferous group, or Coal-measures proper.<a id="FNanchor_65" href="#Footnote_65" class="fnanchor">[65]</a> These
-<span class="pagenum" id="Page_214">- 214 -</span>
-strata rest immediately upon the limestones, and attain a
-depth here of over three thousand feet. They consist of a great
-series of sandstones, shales, coals, and fire-clays, that vary in
-thickness from less than an inch to many feet, or even yards.
-The coal-seams are especially variable, many of them existing as
-mere films of carbonaceous matter; others varying up to a depth
-of fourteen feet. There are from fifty to sixty that exceed a
-foot, but the average thickness throughout the whole series is
-about three and a half feet.<a id="FNanchor_66" href="#Footnote_66" class="fnanchor">[66]</a> They are nearly all underlaid
-by fire-clay or shale, and very generally have a roof of the latter
-material.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_65" href="#FNanchor_65" class="label">[65]</a> These terms&mdash;Lower, Middle, and Upper Carboniferous, are used for want of others,
-and for the sake of clearness. They must not be regarded, however, as equivalent to
-similar groupings of the English carboniferous rocks, for the Scottish series is probably
-much older than the greater part of the English, and coeval, to a considerable extent,
-with the mountain limestone and millstone grit of the latter country.</p>
-
-</div>
-
-<div class="footnote">
-
-<p><a id="Footnote_66" href="#FNanchor_66" class="label">[66]</a> See Milne on Mid-Lothian Coal-field. <i>Trans. Royal Soc. Edin.</i> vol. xiv. p. 256,
-whence the above details are taken.</p>
-
-</div>
-
-<p>By referring to the diagram of this coal-field, given above at
-<a href="#Page_196">p. 196</a>, the reader will notice that the series is divisible into
-three groups:&mdash;1<i>st</i>, and undermost, a considerable depth of
-coal bearing strata known as the <i>edge series</i>, because they lie
-along the western limits of the coal-basin at a high angle, and
-sometimes even on edge; 2<i>d</i>, A great thickness of sandstones
-nearly barren of coal, but containing at least three beds of
-limestone this may be termed the Roslyn sandstone group;
-3<i>d</i>, and highest, another series of coal-bearing strata, commonly
-called the <i>flat coals</i>, because they occupy the centre of the
-basin where the beds repose at a low angle, and are in places
-quite flat. It will be convenient to keep in mind this three-fold
-division, for it will point us to some important changes in
-the ancient conditions of this coal-field.</p>
-
-<p>The edge series, which forms the lowest, and of course oldest
-of the above groups, averages from 800 to 900 feet in thickness.
-It contains about thirty seams of coal above a foot thick,
-and many more of less size. They occur irregularly, some lying
-<span class="pagenum" id="Page_215">- 215 -</span>
-only a few inches apart, others from eighty to ninety feet, the
-intervening space being occupied by sandstone or shale.</p>
-
-<p>Now as each coal-seam, with its associated under-clay, appears
-to mark a former land surface, it will follow that there must be
-as many old land surfaces in this series of strata as there are
-such coal-seams, and that for every intervening mass of sandstone
-or shale, the area of vegetation must have been submerged.
-This conclusion would have been violently resisted by
-the supporters of the "drift" theory. They would have roundly
-asserted that such an unsteady surface was a mere supposition
-to suit a hypothesis, unsupported by fact, and contrary to the
-analogy of existing nature; and they would not perhaps have
-hesitated to maintain, that such an oscillating land could be
-little fitted to nourish so rich and luxuriant a vegetation as
-that of the Carboniferous period. But it will not be difficult to
-show that our conclusion, so far from being contrary to analogy,
-is amply borne out by the processes of existing nature, and that
-its opponents, and even its original asserters, failed to perceive
-that what it demands is not a rapidly oscillating crust, but one
-as steady and uniform as that of many of the least disturbed
-countries at the present day; and that we do not require to
-call in the aid of a special elevation and submergence for every
-coal-seam, but that for the most part the hypothesis of a steady
-sinking of the area of a coal-field, interrupted perhaps by
-occasional elevatory movements, along with an active and constant
-deposition of sediment by the varying currents of a large
-river, is sufficient, if not thoroughly to explain, at least to
-throw great light upon the origin of those enormous masses of
-strata composing our present coal-basins. The oft-recurring variations
-in the nature of the strata that form our coal-measures,
-sandstones alternating with shales, these again with coals and
-fire-clays, together also with the terrestrial origin of the coal-seams,
-and the occasional presence of true marine organisms,
-make it evident that, to obtain any modern analogue to such a
-<span class="pagenum" id="Page_216">- 216 -</span>
-condition of things, we must examine those localities where
-large bodies of fresh water, carrying sediment and vegetation
-from the land, mingle with the sea. Let us then look for a
-little at the operations now in progress at the mouths of the
-larger rivers, and mark how far they elucidate the structure
-and history of a coal-field.</p>
-
-<p>"Egypt is the gift of the Nile." Such was the conclusion arrived
-at by one of the most diligent observers of ancient Greece&mdash;the
-venerable Herodotus.<a id="FNanchor_67" href="#Footnote_67" class="fnanchor">[67]</a> He sailed up the river marking
-all the leading features in its scenery, and noting the more apparent
-evidences of ancient physical changes. His remarks
-on these subjects form one of the earliest specimens of scientific
-reasoning that have come down to us, and are remarkable for their
-correctness and the truly inductive mode of thought which they
-evince. Modern travellers have amply confirmed the opinions
-of the father of history, and we now know that but for its central
-river, Egypt would be a vast dreary expanse of arid sand
-like the neighbouring deserts of Lybia. The Nile, by annually
-inundating the country, deposits over it a stratum of rich loam,
-and thus not only waters the land, but continually renews the soil.
-The sediment in this way brought down has gradually encroached
-upon the waters of the Mediterranean, being heaped up at the
-river mouth into shifting sand-banks, islets, and great tracts of
-low, swampy ground, slightly raised above the sea-level. Through
-this series of silting deposits, the river sends a number of
-branches, often winding in labyrinthine convolutions, and ever
-changing their course, by wearing away the silt at one place,
-and throwing it down at another. The area traversed by the
-<span class="pagenum" id="Page_217">- 217 -</span>
-mouths of the Nile was called by the Greeks the Delta, from
-its similarity in form to the Greek letter, and the name has
-since been given to all such fluviatile deposits, whether they
-have this general form or not.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_67" href="#FNanchor_67" class="label">[67]</a> <i>Euterpe</i>, 5.&mdash;His words are very emphatic. "To one of ordinary intelligence, who
-has not heard of it before, but sees it, Egypt is manifestly land acquired by the inhabitants,
-and a gift from the river&mdash;&#948;&#969;&#961;&#959;&#957; &#964;&#959;&#957; &#960;&#959;&#964;&#945;&#956;&#959;&#957;." The 10th and 12th chapters
-of the same book deserve especial study for the admirable inductive style in which the
-historian compares the phenomena observable in Egypt with what were well known as
-the results of river action in other lands. The passages might be quoted word for word
-in the most rigid scientific argument of any modern geologist.</p>
-
-</div>
-
-<p>The sediment annually deposited by the Nile varies in thickness
-in different years. The mean thickness of the annual
-layers at Cairo has been calculated not to exceed that of a sheet
-of thin pasteboard, so that "a stratum of two or three feet
-must represent the accumulation of a thousand years."<a id="FNanchor_68" href="#Footnote_68" class="fnanchor">[68]</a> Such
-thin lamin&aelig; must resemble greatly some of the more fissile shales
-in the Carboniferous system, which were, perhaps, formed by as
-slow a process, and in their aggregate depth probably took
-many thousand years to accumulate. But those fluviatile depositions
-of the Nile vary little in kind, for when cut through
-they are found regularly stratified down to their base, which
-rests upon the great underlying sand. They show us how the
-argillaceous seams of the coal-measures may have originated; but
-the diversity of character in these Carboniferous rocks indicates
-a more varied kind of sediment, and probably more rapid and
-active transporting currents. A closer analogy to such a condition
-of things meets us on the shores of the New World.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_68" href="#FNanchor_68" class="label">[68]</a> Lyell's <i>Principles</i>, p. 262.</p>
-
-</div>
-
-<p>The Mississippi, so magnificent in all its proportions, has
-raised a delta which covers a tract of about 14,000 square
-miles, equal to almost half the area of Ireland. The lower parts
-of this delta are formed of low, shifting banks, traversed by
-innumerable streams that diverge from the main river, and alternately
-throw down and remove vast quantities of earthy sediment,
-intermingled with rafts of drift-wood. These swamps are
-covered with a rank growth of long grass and reeds, and for
-about six months of the year are more or less submerged below
-the waters of the river, while liable at the same time to continual
-inundation and encroachment from the sea. The higher
-parts of the delta, though also subject to a similar periodical
-<span class="pagenum" id="Page_218">- 218 -</span>
-submergence, nourish a more luxuriant vegetation. Vast tracts
-of level sandy soil are densely overgrown with pine, which is
-used extensively for making pitch. Large districts of the
-swampy ground are covered with willows, poplars, and thickets
-of the deciduous cypress, an elegant tree that rises more than
-100 feet above the soil. When in hot seasons these swamps
-get dried up, "pits are burnt into the ground many feet deep,
-or as far down as the fire can descend without meeting with
-water, and it is then found that scarcely any residuum or earthy
-matter is left. At the bottom of all these 'cypress swamps'
-a bed of clay is found, with roots of the tall cypress, just as the
-underclays of the coal are filled with stigmaria."<a id="FNanchor_69" href="#Footnote_69" class="fnanchor">[69]</a> In this way
-a thick accumulation of vegetable matter goes on forming for
-years, until either the river changes its course, and inundating
-the swamp gradually covers it over with sand and mud, or
-until, owing to oscillations of the earth's crust, the district is
-either permanently submerged, so as to be silted over, or elevated
-to nourish a new and different kind of vegetation.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_69" href="#FNanchor_69" class="label">[69]</a> Lyell's <i>Elements</i>, p. 386.</p>
-
-</div>
-
-<p>That such changes have taken place in the past history of
-the river we have several interesting proofs. Thus, owing to
-the great earthquakes of 1811, 1812, an area of more than
-2000 square miles was permanently submerged.<a id="FNanchor_70" href="#Footnote_70" class="fnanchor">[70]</a> Since then it
-has gone under the name of the "Sunk Country;" and Sir Charles
-Lyell, who visited the locality in 1846, that is, thirty-four years
-afterwards, tells us that he saw innumerable submerged trees,
-some erect, others prostrate. Now, it is easy to see how such
-an area may, when the climate suits, become the receptacle of
-vast accumulations of peat, which, by pressure and chemical
-action, will ultimately pass into coal. If we suppose the submergence
-carried on more rapidly at some periods, the plants
-might have been unable to keep pace with the ever-increasing
-inroads of sand and mud. In such cases the layer of vegetation
-<span class="pagenum" id="Page_219">- 219 -</span>
-would become eventually entombed beneath succeeding deposits
-of earthy matter. Were the amount of sediment thus thrown
-down sufficient in the end to counteract the downward motion of
-the earth's crust, and so raise the bottom of the river or lake to
-the level of the water, vegetation would spring up afresh and
-clothe the new raised surface as densely as in former years.
-This alternation, according as the amount of sinking or the
-amount of sediment predominated, might go on for thousands of
-years, until a series of strata many thousand feet thick were
-accumulated, and tranquilly carried down bed after bed below
-the level of the waters.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_70" href="#FNanchor_70" class="label">[70]</a> See Sir Charles Lyell's <i>Second Visit to United Stales</i>, chap, xxxiii.</p>
-
-</div>
-
-<p>It is interesting to know that the case supposed here has
-actually been realized in the delta of the Ganges. Some years
-ago an Artesian well was attempted to be made near Calcutta,
-and the auger was sunk to a depth of 481 feet.<a id="FNanchor_71" href="#Footnote_71" class="fnanchor">[71]</a> The material
-passed through consisted of sand, clay, and nodules of argillaceous
-limestone, and at various depths, from 50 to 380 feet,
-several seams of decaying wood and peat were found, along
-with bones of various animals, such as deer and fresh-water
-tortoises, and fragments of lacustrine shells. Each of these
-vegetable layers evidently formed at one time a forest-covered
-swamp like those of the surrounding delta at the present
-day; and hence it follows, that during the accumulation of
-the Gangetic delta, the ground in that locality must have undergone
-a depression of more than 300 feet, and that this sinking
-has been interrupted by slight elevations, or by periods when
-the ground remained stationary, so as to admit of a dense and
-prolonged growth of vegetation, at successive intervals, upon
-the swampy flats and shifting islands. The general appearance
-of these old forests is pretty well shown by the mangrove swamps
-along the mouths of the river. These trees flourish in dense
-jungles on the banks, and extend even below high water mark,
-being covered in places by shell fish. So that were these maritime
-<span class="pagenum" id="Page_220">- 220 -</span>
-parts of the delta inundated by the ocean, and buried beneath a
-mass of mud and silt, the peaty layer that would be formed would
-display trunks of trees still occupying their original erect position,
-and spreading out their roots in the clay below, exactly as the sigillaria
-is found to do in the coal-seams of the carboniferous rocks,
-while clustered round the carbonized stems, or scattered among the
-decayed leaves and branches, there might be detected limpets and
-barnacles (as lingul&aelig; and pectens occur in the coal-seams), showing,
-by their mode of occurrence, that they lived and died upon the spot.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_71" href="#FNanchor_71" class="label">[71]</a> See Lyell's <i>Principles</i>, p. 280.</p>
-
-</div>
-
-<p>If my reader will now suppose this sand of the Indian river
-to be hardened into sandstone, the mud in like manner compressed
-into shale, and the peat beds chemically altered into
-coal, can he fail to perceive the striking analogy between the
-section thus displayed and those already given from the Mid-Lothian
-and Cape Breton coal-fields? The differences between
-the ancient and modern strata are not in kind but in degree. The
-Scottish series reaches to more than six times the thickness of
-the Indian one, and the coal-seams in the one exceed in individual
-thickness the peat-beds in the other. We must remember,
-however, that the climate of Hindustan is not remarkably
-favourable to the accumulation of vegetable matter, the heat
-being so great that the plants decay almost as rapidly as they grow.
-And it should likewise be borne in mind, that were the conditions
-of subsidence and of the gradual accumulation of sedimentary
-matter to continue even in the same ratio as heretofore,
-the Ganges might, in the course of ages, heap up a series of
-stratified sands, clays, and peat-beds, many thousand feet in
-thickness, and many thousand square miles in extent, rivalling,
-or perhaps surpassing in depth, the largest coal-field in the
-world. The parallelism between this delta and an ordinary
-coal-field holds singularly close, not merely as regards the nature
-of the stratified deposits. The alluvial plain of Bengal has
-undergone a process of subsidence to an unknown depth, whereby
-successive areas of terrestrial vegetation have been carried down
-<span class="pagenum" id="Page_221">- 221 -</span>
-to be entombed beneath fluviatile sand and mud. It is likewise
-subject to the more sudden operation of earthquakes,
-whereby large tracts of country become permanently altered, and
-changes are effected on the direction, rapidity, and detritus of
-the streams. It is, moreover, liable to wide-spread inroads of
-the sea, which sometimes covers cultivated districts to a depth
-of several feet, laying waste the fields and destroying the inhabitants.
-These and other features help us to understand the
-origin of such vast masses of sedimentary strata as those of our
-coal-fields, where terrestrial, fluviatile, and marine remains alternate
-in rapid sequence, or sometimes occur together.</p>
-
-<p>The origin of the constant succession of coal seams, sandstones,
-and shales, of the Edge series may be thus accounted
-for. The area of Mid-Lothian formed part of a great delta,
-which, like that of the Ganges, was undergoing a gradual
-subsidence during the Carboniferous era. The rate of this
-movement probably varied at different times, and might
-even be occasionally interrupted by short periods of elevation.
-When the ever-increasing accumulations of silt brought
-down by the river reached or nearly reached the surface of
-the water, they would become the site of wide tracts of
-swampy vegetation that flourished for hundreds or thousands
-of years. Eventually, however, these jungles, invaded by the
-changing currents of the river, were buried beneath a thick
-deposit of fluviatile sediment, or more probably the vegetation
-might become unable to keep pace with an accelerated rate of
-submergence, and the forests would then be tranquilly carried
-down beneath the water, and soon covered over with sand and
-mud. The detrital matter might in like manner continue to be
-deposited over the sunk forest for many years, perhaps centuries,
-until the muddy bottom again reached the surface, and once
-more waved green with sigillari&aelig;, calamites, and lepidodendra.
-Another long interval might here elapse, in which a thick bed
-of vegetable matter might accumulate, much after the manner
-<span class="pagenum" id="Page_222">- 222 -</span>
-of the formation of peat among the bogs and mosses of our
-own country. The periodical inundations of the river probably
-gave rise to wide marshes and lagoons, often tenanted by lacustrine
-shells, and thickly overgrown with aquatic vegetation.
-The decaying plants decomposed the red ochreous matter with
-which the water was charged, and re-deposited it among the
-mud and rotting leaves at the bottom as a carbonate of iron.
-Such ferruginous accumulations, often entombing fern-stems and
-other plants, with scales and teeth of ganoidal fishes, sometimes
-<i>conulari&aelig;</i> and <i>lingul&aelig;</i>, and, in certain localities, whole acres
-and miles of fresh-water shells, are known now as our <i>clay-band</i>
-and <i>black-band ironstones</i>. We can easily conceive that, in
-shallower parts of the lagoons, a dense growth of marshy plants
-might spring up, preventing any deposition of iron, and when the
-whole came to be covered over with later accumulations of sand
-or mud, the deeper parts of the old lake would be covered with
-a seam of ironstone, and the shallower portions would display
-a bed of coal. In some such way we may account for the
-frequent passage of ironstone into coal, and coal into ironstone
-in many of our coal-fields. If undisturbed by the ever changing
-currents of the river, these wide expanses of marsh and lake might
-continue for many long years, the constant evaporation being counterbalanced
-by continual supplies of water from the main stream.
-Eventually, however, owing perhaps to another period of more
-rapid submergence, the water gained the ascendency, and once
-more rolled over prostrate stems and matted thickets of ferns,
-that sank slowly down beneath a deepening sheet of sand and mud.
-Often, too, the sea must have flooded, perhaps for years, the flat
-delta-lands, carrying with it its own productions, such as the lingul&aelig;
-and cardini&aelig;, which we find among the coal seams. And
-thus the process went on during the long ages of the Carboniferous
-system. Forest after forest spread its continuous mantle
-of green athwart the low swampy lands of that old delta, and
-each in succession foundered amid the muddy waters, now of
-<span class="pagenum" id="Page_223">- 223 -</span>
-the ocean and now of the river, that strewed over its site a rich
-detritus which went to form the soil of new jungles and forests.</p>
-
-<p>The Edge series measures from 800 to 900 feet in depth, so
-that the depression must have been carried on till the forest
-that once grew nearly on the sea-level had sunk 800 feet below
-it This process was undoubtedly a very slow and tranquil one.
-Yet geologists used to regard these frequent changes of sedimentary
-matter as so many proofs of repeated catastrophic
-submergences, when the ocean came rolling over the land, prostrating
-forests, uprooting the hugest trees, and leaving the
-scattered bones and scales of fishes amid vast accumulations of
-mud and sand, where but lately there had bloomed a luxuriant
-vegetation. But the sober and diligent student of geologic fact
-will read in these rocks no such record of cataclysms. He will
-see in them evidences of the same gradual and sure operation
-which marks the processes of Nature at the present day. He
-will note how during a tranquil and probably imperceptible
-submergence of the river-bottom, forest after forest sprang
-up, flourished perhaps for ages, and eventually settled down
-beneath the waters of the river and sometimes of the ocean,
-amid ever increasing accumulations of mud and sand. Musing
-on these ancient changes he will be lost in wonder at the immense
-duration of the period during which they were in progress;
-and he will try in some measure to realize the features of their
-scenery. He will picture the delta with its ever-varying islets and
-sand-banks, its lakes and submerged forests, its leafless trunks
-peering above the water and sticking along the shoaling mud,
-and its crowded jungles that cover every drier spot. He will
-cast his eyes to where the delta opens out into the ocean, and
-mark how the waves encroach upon the mud-banks, cutting
-away what the river has piled up, and washing the roots of
-gigantic trees that wave their green coronal of fronds above,
-and overshadow the rippling of the green sea below. He will
-try to thread the windings of the stately river through brakes
-<span class="pagenum" id="Page_224">- 224 -</span>
-of ferns and calamites, and banks richly hung with tree-ferns
-and sigillari&aelig;, and then upward through dark shaggy pine-woods,
-silent and gloomy, with the water creeping lazily through
-the shade or dashing in white cascades over dripping rocks, and
-onward still, far away among the distant hills till the fountainhead
-of the great stream is reached, gushing from the splintered
-sides of some lone rock, or pouring perchance out of the glimmering
-caverns of some massive glacier high amid the regions
-of perpetual snow.</p>
-
-<p>Many attempts have been made to estimate the amount of
-time which some of our coal-fields may have required for their
-accumulation. But so large a number of conjectural elements
-must necessarily enter into such calculations, that the results
-come to be of very doubtful value. By estimating the amount
-of sediment annually transported by such rivers as the Ganges
-or Mississippi, we may ascertain how long a mass of similar
-sedimentary strata would take to form under similar conditions.
-And if our calculation had to do merely with such detrital
-accumulations, we might hope to arrive at some approach to
-accuracy. But besides these sedimentary strata, the formation
-of which must have been wholly analogous to that of similar
-deposits at the present day, we have to deal with the problems
-suggested by the coal-seams. We know nothing of the climate
-of the Carboniferous period save what may be conjectured from
-the analogy of existing climates; and in a question regarding
-the accumulation of decaying vegetable matter climate is a subject
-of the first importance. We are ignorant, too, of the rate
-of growth peculiar to the carboniferous flora; and even if we
-hold that it was probably rapid, the process of decay may have
-been equally speedy, and so a forest might go on shooting up
-fresh trees as the old ones rotted away, yet at the end of a
-thousand years there might be a scarcely greater thickness of
-vegetable matter on the ground than at the commencement.
-A seam of coal two feet thick might thus represent, say the
-<span class="pagenum" id="Page_225">- 225 -</span>
-accumulation of a hundred years, and another of exactly the
-same thickness might stand as the accumulation of a thousand
-years. Until we know more of the vegetation and climate of the
-coal period, the thickness of a coal-seam can hardly be held as
-a certain guide to the lapse of time required for its formation.</p>
-
-<p>For the sake of illustration, let me take the following fragment
-of a coal-measure section:&mdash;</p>
-
-<table summary="data">
-<tr>
-  <td class="tdl">Shale,</td>
-  <td class="tdr">20</td>
-  <td class="tdc">feet.</td>
-</tr>
-<tr>
-  <td class="tdl">Coal,</td>
-  <td class="tdr">4</td>
- <td class="tdc">"</td>
-</tr>
-<tr>
-  <td class="tdl">Fire-clay,</td>
-  <td class="tdr">6</td>
- <td class="tdc">"</td>
-</tr>
-<tr>
-  <td class="tdl">Sandstone,</td>
-  <td class="tdr">40</td>
- <td class="tdc">"</td>
-</tr>
-</table>
-
-<p>Beginning at the bottom, we may compute the period of the
-forty feet of sandstone variously, according to the river selected
-as the type of a transporting agent. Tried by the standard of
-the Nile, all other conditions being similar, such a deposit
-would require perhaps not less than 14,000 years; by that of the
-Mississippi, 5000; and by that of the Ganges, nearly 2000.<a id="FNanchor_72" href="#Footnote_72" class="fnanchor">[72]</a> We
-come, then, to the superincumbent fire-clay and coal, representing
-an ancient soil and the forest that grew on it. The occurrence
-of these seams shows us that the river-bed had become a
-swampy tract clothed with vegetation; but who shall say how
-long it may have continued so? Like the sunk country of the
-Mississippi, it may have been submerged, and to some extent
-cut off from the sediment-transporting channels of the river,
-and thus, as a vast lake, have nourished a prolific growth of
-marshy and aquatic plants. If the temperature resembled that
-<span class="pagenum" id="Page_226">- 226 -</span>
-of our own country, the growth of peaty matter, other circumstances
-being favourable, might be comparatively rapid. If,
-however, as seems probable, the climate were more warm and
-humid, giving rise to a more luxuriant vegetation, and at the
-same time to a more rapid decay, a long interval might have
-elapsed without adding materially to the thickness of the vegetable
-accumulations, and the eventual entombment of peaty
-matter sufficient to consolidate into four feet of coal, might be
-owing in some measure to the submergence of the swamp beneath
-the waters of the river, whereby a quantity of detrital matter
-was deposited that arrested the process of putrefaction, and
-entombed the thickly matted plants which were growing on the
-spot at the time. Hence, until we know more of the conditions
-under which vegetation may accumulate at river-mouths in such
-a climate as the coal plants are conjectured to have enjoyed,
-calculations of the amount of time required for the formation of
-a great series of coal-bearing strata must be regarded as premature.
-In the present instance, we can but affirm that the
-growth of the four-foot coal-seam probably occupied many long
-years, even at the most rapid rate of accumulation known to us.
-The forest-covered swamp on which the plants grew was eventually
-invaded by muddy detritus brought down by the river;
-and during another period of indefinite extent&mdash;five hundred
-years or five thousand years&mdash;fine mud continued to settle down
-over the foundered forest, hardening eventually into twenty feet
-of shale.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_72" href="#FNanchor_72" class="label">[72]</a> Some observers have pointed to the occurrence of vertical and inclined trunks of
-trees in the Carboniferous sandstones, and deduced therefrom what has seemed to them
-a triumphant argument in favour of the rapidity wherewith our coal-fields must have
-formed. A foundered tree, they say, sank with its heavy-laden roots among the sand at
-the bottom, its stem pointing up into the water like the snags of the Mississippi, so that
-the sand must have come rapidly down to entomb the whole before it had time to decay,
-and thus thirty or forty feet of sediment must have been deposited in a few years, perhaps
-even months. But this is somewhat like a begging of the question. We have yet
-to learn how long a water-logged trunk will resist decomposition.</p>
-
-</div>
-
-<p>The Edge coals of the Mid-Lothian coal-field are succeeded by
-a group of sandstones and thin shales, with three or more seams
-of limestone. This group of strata, which we may call the
-Roslyn Sandstone Series, reaches a thickness of from 1200 to
-1500 feet, and serves as a middle zone to divide the Edge coals
-below from the Flat coals above. It contains only a few thin laminations
-of coal, and these chiefly at its upper and under portions.
-Such a great intercalation of beds, without coal-seams, points,
-<span class="pagenum" id="Page_227">- 227 -</span>
-we might readily conjecture, to some change in the physical
-conditions of the ancient delta. The nature of this change can
-be easily made out from an examination of the rocks, and the
-reader will see that here again we are indebted to fossil remains
-for the most conclusive and satisfactory evidence of these old
-physical revolutions.</p>
-
-<p>The absence of coal-seams suffices to indicate that during the
-formation of the middle group that part of the delta occupying
-the site of Mid-Lothian was continually submerged, and never
-rose to the surface so as to allow a covering of vegetation to
-form upon it.<a id="FNanchor_73" href="#Footnote_73" class="fnanchor">[73]</a> The large beds of sandstone prove a continued
-transport and deposition of detritus during undisturbed periods
-of considerable length. The intercalations of shale, pointing to
-local changes in the currents or other modifying causes, are
-usually of small thickness and extent, while the sandstone beds
-sometimes attain a depth of 150 or 200 feet, and extend over
-wide areas of country. So far these mechanical rocks indicate
-the deposition of sand and mud under water, but whether at
-river-mouth or sea-bottom is left uncertain. From the fossil
-remains, however, we learn that the deposition took place in the
-sea, but at no great distance from land; in other words, the
-area of Mid-Lothian, which, during the accumulation of the edge
-coals, had been alternately clothed with vegetation and inundated
-by the river, sank down many fathoms, so that the sea
-rolled over it and all its submerged forests. The proof is two-fold,
-first, from the character of the organic remains in the
-limestones; and second, from that of those in the sandstones
-and shales.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_73" href="#FNanchor_73" class="label">[73]</a> Of course, this deduction is founded, as the reader will notice, on the assumption
-that we have now the series, as it was deposited, and that no peaty swamp or forest was
-denuded away, and its site occupied by sand and silt. But the assumption is rendered
-probable from the conditions of formation indicated by the Roslyn group.</p>
-
-</div>
-
-<p>In some of the streamlets that flow into the beautifully
-wooded vale of the Esk, south of Penicuik, these limestones can
-<span class="pagenum" id="Page_228">- 228 -</span>
-be well seen, worn in the water-channel, or crusted over with
-moss along the banks. Their organisms are singularly abundant,
-and consist of cyathophylla, encrinites, spirifers, producti, &amp;c.,
-all exclusively marine. In a picturesque brook that falls into
-the Esk near a saw-mill in the grounds of Penicuik House, I
-have seen the little cup-corals clustered by dozens on the
-weathered rock, showing their delicate striated wrinkles in high
-relief among the scattered valves of productus and innumerable
-joints of the stone-lily. They were all well preserved, and in
-their grouping and general appearance differed in no respect
-from similar organisms in the mountain limestone of Roman
-Camp Hill. The inference to be drawn from them must
-accordingly correspond with what has been deduced from the
-mountain limestone fossils, viz., that they mark the site of a
-sea-bottom which remained free from mud and sand for considerable
-periods, during each of which there abounded corals and
-shells, whose exuvi&aelig; went to form several seams of limestone.
-But that this sea-bottom was at no period very far distant from
-land, is proved by the drifted plants that occur in the sandstones
-and shales both below and above, and which often show so
-little trace of maceration, that we can hardly believe they were
-carried far, or floated for a long while previous to being enveloped
-in the sand or mud at the bottom. I have never
-detected vegetable remains in the limestones themselves, but
-there seems no reason why they should not be found there.</p>
-
-<p>One of the most remarkable and difficult phenomena presented
-by these limestones is their great persistency. I have
-traced them over a large part of Mid-Lothian, from the highly
-inclined beds at Joppa to the contorted and faulted strata near
-Carlops. I have found them, too, in many parts of West-Lothian
-and Stirlingshire, from the sea at Borrowstounness
-southwards into Lanarkshire. They likewise occur in Fife, and
-seem to sweep away through Lanark and Ayrshire. The area
-in which I have found them cannot be much under 700 square
-<span class="pagenum" id="Page_229">- 229 -</span>
-miles, yet they are probably spread over a much greater extent
-of country. Throughout this region they appear to continue on
-the whole at pretty much the same vertical distance from each
-other, and average three or four feet thick each. They vary in
-number, three being found in parts of Mid-Lothian, in other
-parts only two. Throughout West-Lothian there seem to be
-but two seams in the middle or moor-rock series, and the same
-two seams are found passing over into Perth near Culross. There
-are differences, too, in the structure and composition of the
-seams, one running sometimes as a single bed of dull blue limestone,
-and then gradually splitting up into three layers of a
-greyer and more earthy texture, with soft shale between them.
-But making all these abatements, the observer cannot fail to be
-struck with the general regularity and continuity of these limestones.
-And the fact becomes all the more remarkable when
-we consider the great irregularity, and continual intercalations,
-and repetitions of the strata, both above and below. Marine
-beds are usually persistent over large areas, especially where
-extensively developed. As they decrease in thickness, their
-continuity for the most part lessens, so that the rule is, on the
-whole, a safe one, the thinner any particular stratum, the less
-likely are we to trace it to a considerable distance. Yet, not
-only are these Mid-Lothian limestones thin, but they occur in
-regular sequence among a set of continually alternating and very
-irregular beds, and extend over several hundred square miles of
-country. And this, too, not in a single seam, but in two, three,
-or even more, so that the difficulty of accounting for such intercalations
-is proportionately increased.</p>
-
-<p>We have seen above that the area of a delta is often partially
-submerged below the sea, and that such changes may
-become of the most marked kind where the country is liable
-to be depressed by earthquakes. There can accordingly be no
-difficulty in understanding how the ancient carboniferous delta
-of Mid-Lothian may have likewise subsided. But the limestones
-<span class="pagenum" id="Page_230">- 230 -</span>
-are unmistakable evidence that not only was the area
-of the delta submerged, but that for a while no sediment was
-deposited over it, and hence marine animals peculiar to clear
-water flourished so long and so abundantly as to form by their
-remains several beds of limestone. Had these beds been merely
-local we might have regarded them as having been deposited in
-lagoon-like portions of the delta, shut out from the detrital
-matter of the river on the one side and open to the sea on the
-other. But their wide extent and nearly uniform thickness
-preclude such a supposition. The following explanation appears
-to me the most probable:&mdash;</p>
-
-<p>After the series of the Edge coals had been brought to a close,
-the coal-fields of Scotland underwent a complete submergence
-below the sea. This depression was probably very gradual, yet
-more rapid than that long-continued one which had been going
-on during the earlier part of the Carboniferous series, and the
-consequence of this greater rapidity was to prevent the growth
-of stigmaria swamps or reedy jungles, by keeping the alluvial
-surface continually sunk to some depth below the water. The
-amount of subsidence until the deposition of the lowest limestone
-may not have been great, but even a slight depression
-would tell vastly on an area of flat delta land. Mud banks
-would be brought down into the region of waves and surface-currents,
-and speedily be spread out over the floor of the sea.
-Forest-covered islands would in like manner be levelled down,
-and their trees sent drifting seaward or submerged amid the
-re-formed silt. Thus altered, the delta would sink below the
-sea, and the sediment borne down by the river would be scattered
-out over the older deposits as a slowly-forming sheet.
-By degrees this detrital matter must have been carried less and
-less farther out to sea; in other words, the area of deposit or
-delta must have crept gradually nearer to the land&mdash;a result
-owing partly to the recession of the ancient coast-line, and partly
-perhaps to a greater amount of depression inland than at the
-<span class="pagenum" id="Page_231">- 231 -</span>
-coast, which would of course lessen the velocity of the streams
-and cause them to deposit their burden of sediment at higher
-levels than before. The consequence of this retreat of the
-delta from the sea would be to purify the water over the site
-of the old swamps, and render it fitted for the habitation of
-corals, molluscs, and other marine animals. A medium thus
-prepared would not be allowed to remain long untenanted, and
-so we find that it came to be densely peopled with the
-organisms peculiar to such a station. Stone-lilies, cup-corals,
-net-like bryozoa, molluscs of many kinds, and large predatory
-fish, swarmed in these old waters, and their calcareous shells
-and skeletons are now broken up by the quarryman and the
-collier as hard compact limestone.</p>
-
-<p>After these animals had lived and died in successive generations,
-perhaps for thousands of years, the downward movement
-of the earth's crust seems to have ceased for a while or to have
-become greatly less. The effect of this would be just to reverse
-what had been previously done, especially if a slight elevatory
-movement took place. The streams would in such circumstances
-descend from the uplifted ground with renewed velocity
-and transport their detritus to gradually increasing distances.
-The muddy and sandy sediment thus borne seawards would
-slowly silt over the coral-banks at the bottom, and in conditions
-so ungenial the organisms would dwindle down and
-finally die out. A great thickness of sand and mud would be
-spread out over their remains so long as the currents from the
-land continued to carry sediment out to sea, and thus probably
-originated the sandstones and shales superposed above the
-lowest limestone.</p>
-
-<p>Eventually the old steady downward movement returned,
-and with it the corals and stone-lilies. The detritus again
-sank to the bottom much nearer the land, forming great banks
-and shoals that choked up the river-mouth. Seaward the
-water regained its purity, and the bottom once more swarmed
-<span class="pagenum" id="Page_232">- 232 -</span>
-with living things. Another lapse of many thousand years
-may have here intervened during which the marine exuvi&aelig;
-gathered into another seam of limestone, until again the process
-of subsidence either ceased for a time, or what is perhaps more
-probable, became considerably feebler. Detrital matter began
-to creep seaward as before, and eventually entombed the corallines
-and crinoids to a great depth. The calcareous bed thus
-formed is the second limestone, and the superincumbent silt-beds
-represent the sandstones and shales that rest above it.</p>
-
-<p>In some such way as this does the Roslyn sandstone series
-appear to have originated. I have indicated what seems to
-have been the main features in the process, but it was probably
-a very complex one. There may have been a great many
-oscillations of level of variable effects, some of them raising
-the disturbed area to a much greater height at one point than
-at another. This inequality would of course produce marked
-effects along a low flat country such as that at the mouth of a
-great river. New currents would be produced and the direction
-of old ones changed; great shoals and banks of silt would
-be worn down only to be thrown up again at some new point,
-where another oscillatory movement would expose them afresh
-to destructive denudation. The variations in the amount of
-elevation and depression would likewise modify the transport of
-detritus to the sea, and give rise to a varied and ever-changing
-sea-bottom. In short, the alternations and variations must
-have been endless, for to the ordinary multiplied interchanges
-of a delta we must add those induced by a constant and
-unequal oscillation of the earth's crust.</p>
-
-<p>The Roslyn sandstone series comes to a close, and passing
-onward in ascending scale we meet with another great group of
-coal-bearing strata. They occupy the central area of the Mid-Lothian
-coal-field, and from their gentle inclination as compared
-with the lower strata that rise up from under them on
-either side of the basin, are known as the <i>Flat Coals</i>. Their
-<span class="pagenum" id="Page_233">- 233 -</span>
-total thickness&mdash;that is to say, all that has escaped denudation&mdash;amounts
-to a thousand feet or more. They consist chiefly
-of sandstones, shales, ironstones, and fire-clays, with from
-twenty to twenty-five seams of coal, of which sixteen are thick
-enough to be worked. Their similarity to the Edge coals
-below points to a similarity in the conditions of formation.
-The frequent alternations of sandstone and shale show how the
-delta gradually pushed outwards again and re-occupied its
-ancient site above the successive forests of the Edge series and
-the successive coral-beds of the Roslyn group. The coal-seams
-indicate the further progress of the detrital accumulations, and
-the eventual formation of vast swampy flats that nourished a
-rank growth of stigmari&aelig;, and tracts of drier ground waving
-with ferns, and shadowed by the spiky foliage of the club-moss
-and the broader fronds of the tree-fern.</p>
-
-<p>The Flat coals are not succeeded by any other pal&aelig;ozoic strata.
-Above them stretches the drift already described: sometimes in
-the form of a stiff blue clay resting on a striated rock-surface;
-sometimes as a coarse gravel containing fragments of all the
-rocks in the neighbourhood; and sometimes as a fine white
-sand diagonally laminated, and often showing dark partings of
-coal-fragments. From the section given above (<a href="#fig32">Fig. 32</a>) at
-<a href="#Page_196">p. 196</a>, the reader, will see that as the upper limit of the Flat
-coals is formed by the drift, a large part of that series may
-have been borne away by denuding agencies. Had there been
-even a seam of limestone above them, it would have sufficed to
-show their true thickness, for we should then have seen, that
-how much soever had been removed in later times from above
-the limestone, nothing had been removed from below it; and
-so it would mark the true original limit of the series. We
-cannot now tell how much thicker the upper part of the Mid-Lothian
-carboniferous system may have been. Probably, during
-the long ages that intervened between pal&aelig;ozoic and post-tertiary
-times, many hundred feet were borne away and carried
-<span class="pagenum" id="Page_234">- 234 -</span>
-to other sites, there to grow up into new islands and continents,
-clothed with other types of verdure, and peopled by other races
-of animals, and fitted to become, in a long subsequent period,
-the dwelling-place of man.</p>
-
-<p>In fine, the evidence of these ancient changes in the history
-of the Mid-Lothian coal-field is derived, as we have seen, from
-two sets of facts; first, those of a mechanical, and, second,
-those of an organic kind&mdash;the one class explaining and confirming
-the other. Beginning our investigation at the horizon of
-the Burdiehouse limestone, we saw the curtain rise slowly
-from off a wide estuary, in which there gambolled large bone-covered
-fishes, while huge pine-trees&mdash;branchless and bare, seed-cones,
-fern-fronds, and twigs of club-moss, floated slowly away
-out to sea. The panorama moved on, and brought before us
-the ocean-bed of the Roman Camp limestone, with its groves of
-stone-lilies and bunches of coral; its tiny shells moored to the
-bottom, or creeping slowly athwart the limy floor, or spreading
-out their many arms, and rising or sinking at will. This picture
-passed slowly away, and then came the delta of the Edge coals,
-with its sand-banks and ever-shifting currents, its stigmaria
-swamps, and its forest-covered islets. We saw the delta gradually
-sink beneath the sea, and corals and stone-lilies cluster
-thick over its submerged area, to form the limestones of the
-Roslyn group. Again, the mud-bars of the river crept out to
-sea, and tangled forests waved green as of old, washed by the
-sea or inundated by the river. How this last period came to a
-close, we shall probably never know, and have no possible
-means of conjecturing. We pass at one step from the ancient
-era of the coal to the comparatively modern one of the drift&mdash;from
-a verdant pal&aelig;ozoic land, to an icy post-tertiary sea. It
-is like a leap in history from the days of Pericles and Aspasia
-to those of King Otho, or from the tents of Runnymede to the
-Crystal Palace of Sydenham.</p>
-<hr class="chap x-ebookmaker-drop" />
-
-<div class="chapter">
-<p><span class="pagenum" id="Page_235">- 235 -</span></p>
-
-<h2 class="nobreak" id="CHAPTER_XII">CHAPTER XII.</h2>
-</div>
-
-
-<div class="blockquot">
-
-<p>Trap-pebbles of the boulder&mdash;Thickness of the earth's crust unknown&mdash;Not of much
-consequence to the practical geologist&mdash;Interior of the earth in a highly heated
-condition&mdash;Proofs of this&mdash;Granite and hypogene rocks&mdash;Trap-rocks; their identity
-with lavas and ashes&mdash;Scenery of a trappean country&mdash;Subdivisions of the trap-rocks&mdash;Intrusive
-traps&mdash;Trap-dykes-intrusive sheets&mdash;Salisbury Crags&mdash;Traps of
-the neighbourhood of Edinburgh&mdash;Amorphous masses&mdash;Contemporaneous trap-rocks
-of two kinds&mdash;Contemporaneous melted rocks&mdash;Tests for their age and origin&mdash;Examples
-from neighbourhood of Edinburgh&mdash;Tufas or volcanic ashes&mdash;Their structure
-and origin&mdash;Example of contemporaneous trap-rocks&mdash;Mode of interpreting them&mdash;Volcanoes
-of Carboniferous times&mdash;Conclusion.</p>
-</div>
-
-<p><span class="smcap">In</span> the previous pages, allusion has been made to the trap-pebbles
-imbedded in the boulder, to the various forms of decay
-exhibited by granitic and trappean rocks, and to the elevation
-and depression of the solid crust of the earth. Will the reader
-bear with me for but a few pages more, while I seek to indicate
-one or two points of interest in a branch of geology that would
-abundantly reward a diligent observer? Since the days of
-Hutton, the investigation of what are called <i>igneous</i> rocks has
-fallen somewhat into the background, and geologists have given
-themselves, perhaps too exclusively, to the study of organic remains,
-so that while the pal&aelig;ontology of the British islands has
-enjoyed an extensive exploration, but little has been done towards
-the elucidation of our igneous formations and their
-accompanying phenomena. Much remains to be accomplished,
-even in those districts usually regarded as in a manner thread-bare,
-and he must be but an indifferent observer who cannot
-add a few gleanings to the general stock of information upon
-this branch of British geology.</p>
-
-<p><span class="pagenum" id="Page_236">- 236 -</span></p>
-
-<p>Many conjectures have been formed, and many theories propounded,
-as to the nature of the internal parts of our globe.
-Some have supposed that there is an outer solid film or crust,
-some ten or twenty miles thick, enveloping a vast ball of
-intensely heated matter; others have attempted to show that
-the interior must be nearly solid throughout, with, however,
-great lakes, or vesicles of gas and melted rock, somewhat after
-the fashion, we may suppose, of the oil-holes in a Gruy&egrave;re
-cheese. But whether the heated material occupy the whole or
-only parts of the internal area, is not of much consequence to
-the practical geologist; he is content to believe that it exists,
-and in sufficient quantity, too, to produce the most momentous
-changes on the surface of the earth. We see the effects of this
-subterraneous agent in earthquakes and volcanoes, and the
-geologist can tell us of similar, as well as of other changes,
-effected by it during past ages. Granite hills, and mountainous
-districts of mica-slate and gneiss, bear evidence of what is
-termed <i>metamorphism</i>&mdash;a change in the mineral structure of
-rocks, believed to have taken place through the agency of heat
-deep in the interior of the earth; for no analogous appearances
-have been detected in progress at the surface. Such rocks,
-known as <i>metamorphic</i>, or <i>hypogene</i>, still form a difficult problem,
-not likely to be satisfactorily solved until the chemist shall
-have thoroughly investigated the subject; for it seems likely to
-be found, after all, that long-continued chemical action, without
-a very alarming degree of heat, may have produced even the
-most intense metamorphism. But dropping this part of the
-subject, in which so much yet remains to be discovered, let us
-look for a little at another branch of the geologist's evidence,
-where we meet with no such hampering hypotheses and doubtful
-conjectures, namely, the <i>trap</i>-rocks.</p>
-
-<p>Every one knows that basalt, lava, pumice, scori&aelig;, and ashes,
-are the various matters ejected from volcanoes. When these
-materials are found interstratified among the various geological
-<span class="pagenum" id="Page_237">- 237 -</span>
-formations, they are termed <i>trap</i>-rocks,&mdash;a name derived from
-the Swedish <i>trappa</i>, a stair, in allusion to the step-like or terraced
-appearance which they often present. They are of all
-ages, having been detected in the lower Silurians of Wales, and
-in the deposits of all subsequent periods up to the volcanic
-eruptions of the present day; thus evidencing, that from the
-remotest times there have been &AElig;tnas and Vesuvii slumbering
-perhaps for ages, and then awakening to lay the surrounding
-districts in ruins. I have already said that the rocks from
-which the geologist has to compile his history, are mostly relics
-of the sea; hence most of the trap-rocks which he meets with
-in his explorations are the products of submarine eruptions.
-Far away down among the Silurian rocks, he can trace the
-floor of a primeval ocean thickly covered with stone-lilies, trilobites,
-and molluscs, and in following it out he marks how
-ashes and lapilli, ejected from some submarine orifice, settled
-down amid the organisms and well-nigh destroyed them, while
-at other times streams of molten matter were poured out
-along the sea-bottom, and hardened into masses of solid rock.
-He sometimes even encounters what seems the vent whence
-these eruptions proceeded, filled up now by a boss or plug of
-hardened trap, but he never can detect any trace of land. Some
-of these oceanic volcanoes may, like Graham's Island in the
-Mediterranean, have raised their tops above water, sending
-clouds of steam and cinders far and wide through the air, but
-the waves would eventually wear down the new-born land, and
-scatter its broken fragments along the floor of the sea. Among
-the carboniferous rocks of Scotland, however, we meet with a
-different condition of things. There, too, we can trace out submarine
-lava-streams, and mark how showers of ashes destroyed
-the delicate organisms of the deep; but we encounter, besides,
-undoubted traces of a land, not parched and ruinous as though
-the igneous forces had laid it waste for ever, but thickly clothed
-with vegetation of a more luxuriant type than that which clusters
-<span class="pagenum" id="Page_238">- 238 -</span>
-over Vesuvius and Calabria, or lies spread out across the "level
-plains of fruit-teeming Sicily."<a id="FNanchor_74" href="#Footnote_74" class="fnanchor">[74]</a> We have looked at the plants
-and animals of the Carboniferous era; its rivers and deltas;
-its slow elevations and depressions of the ground. It may, perhaps,
-complete the picture of that ancient period, if we examine,
-though but briefly, its igneous eruptions, the more especially
-since these may be regarded as, to a considerable extent, typical
-of trap-rocks belonging to every age and every country.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_74" href="#FNanchor_74" class="label">[74]</a> &#932;&#951;&#962; &#954;&#945;&#955;&#955;&#953;&#954;&#7937;&#961;&#960;&#959;&#957; &#931;&#953;&#954;&#949;&#955;&#7985;&#945;&#962; &#955;&#949;&#957;&#961;&#959;&#8017;&#962; &#947;&#8017;&#945;&#962;. &AElig;sch. <i>Prom. Vinct.</i> 369&mdash;a
-passage graphically descriptive of an ancient eruption of &AElig;tna.</p>
-
-</div>
-
-<p>Unless when deeply buried beneath drift-sand and clay, trappean
-regions usually possess scenery of a marked kind. A green
-undulating country stretches out as far as the eye can reach,
-diversified here and there with bold abrupt crags and conical
-hills. The lower grounds show in the winter season their rich
-brown loam, that waxes green as the spring comes on, and ere
-summer's close spreads out its heavy crops of golden grain.
-The higher ridges are for the most part thickly wooded, yet the
-soil is often scanty, and, among the white stems of the beech,
-or the matted roots of the fir and the elm, we may not unfrequently
-see the rock protruding its lichen-crusted face, mottled
-with mosses and liverworts, while some sluggish runnel collects
-in stagnant pools, or trickles over the blocks with a thick green
-scum. Sometimes the hill has never been planted, but stands
-up now, as it has done for centuries; its western face craggy
-and precipitous, with bushes of sloe-thorn and furze, and stray
-saplings of mountain-ash clinging to the crevices, while its
-eastern slope sinks down into the rolling country around with
-a green lumpy surface, through which, at many a point, the
-grey time-stained rock may be seen. The whole district suggests
-to the fancy a billowy sea, and, as one casts his eye from
-some commanding hill-top athwart the wide expanse of hill and
-valley, sweeping away in endless undulations, he is apt to bethink
-<span class="pagenum" id="Page_239">- 239 -</span>
-him of some day far back in the past, when the verdant
-landscape around lay barren and desolate, while the solid earth
-rocked and heaved in vast ground-swells like a wide tempested
-ocean. Such is the aspect presented by some of the more
-trappean regions of Scotland. But the origin of this kind of
-scenery must be ascribed to the effects of denuding currents in
-scooping out the softer strata into clefts and valleys, and leaving
-the harder trap-rocks in prominent relief, rather than to any
-great inequality of surface produced by the eruption of igneous
-matter; for we shall find that the throwing out of sheets of
-lava and showers of volcanic ashes was often a very quiet process
-after all.</p>
-
-<p>Trap-rocks generally may be variously classified according to
-the aspect under which we view them. Mineralogically they
-are <i>augitic</i>, when the mineral <i>augite</i> enters largely into their
-composition; <i>hornblendic</i>, when the <i>augite</i> is replaced by <i>hornblende</i>;
-and <i>felspathic</i>, where <i>felspar</i> forms the most marked
-constituent. The first class includes all the dark homogeneous
-compounds called <i>basalts</i>; the second, the hornblendic <i>greenstones</i>,
-or <i>diorites</i>; and the third, the <i>felstones</i>, <i>porphyries</i>, and
-<i>tufas</i>. Geologically, they are <i>beds</i> when they are interstratified
-with the contiguous rocks; and <i>dykes</i> or <i>veins</i> when they penetrate
-them like walls, or in an irregular manner. The former
-class may be either of the same age with the rocks among
-which they lie, or of a later date, just as in a pile of books the
-centre one may either have been placed there originally with
-the rest, or thrust in long afterwards. The latter class must
-always be later than the rocks which they traverse, for it is
-plain the rocks must have been in existence before trap-dykes
-and veins could be shot through them. Hence geologists are
-accustomed to speak of contemporaneous and subsequent trap-rocks:
-the one list including all the tufas, and those melted
-rocks which can be shown to have been erupted during the
-time when the limestones, sandstones, or shales around them
-<span class="pagenum" id="Page_240">- 240 -</span>
-were forming; the other embracing all the dykes and veins
-along with those beds of melted rock which have been intruded
-between the strata. These and other distinctions will be better
-understood from a few examples collected chiefly from the carboniferous
-district of central Scotland.</p>
-
-<p>The trap-rocks seen there exhibit a wide range of structure,
-texture, colour, and general aspect. There are two pretty marked
-kinds&mdash;the augitic or hornblendic, and the felspathic; the former
-being usually of a more or less crystalline aspect; the latter, commonly
-dull, and often without any crystals.<a id="FNanchor_75" href="#Footnote_75" class="fnanchor">[75]</a> In the augitic traps,
-the crystals are sometimes of large size and well-defined, so that
-the rock could hardly be distinguished at first sight from an
-ordinary grey granite, while at other times, and not unfrequently
-even in other portions of the same mass, the stone
-assumes a black appearance without distinct crystals. The
-former variety would be called a <i>greenstone</i>, the latter a <i>basalt</i>;
-the chief components in either case being felspar and hornblende,
-or felspar and augite, with a variable admixture of
-other minerals, the shade of colour varying from a pale blue or
-leek-green, through the different hues of grey, to a deep velvet
-black. There are other traps, however, consisting entirely, or
-nearly so, of felspar, whence they are known as <i>felstones</i>. Such
-rocks enjoy a wide range of colour, some of them being pure
-white, others of a bluish grey or dingy brown; and they may
-be seen graduating from a pale yellow, or flesh-colour, to a
-brick-red or deep purple. When a trap displays distinct disseminated
-crystals, usually of felspar, it becomes a <i>porphyry</i>;
-when it shows rounded cavities, like those of furnace-slag, it is
-said to be <i>vesicular</i>; and when these globular or almond-shaped
-cavities are filled with carbonate of lime, chalcedony, or other
-minerals, the rock forms an <i>amygdaloid</i>. Such peculiarities of
-<span class="pagenum" id="Page_241">- 241 -</span>
-structure indicate to some extent the origin of the mass, and
-may be found in any kind of trap. Thus we have porphyritic
-greenstones, basalts, or felstones, and the same rocks may be
-likewise vesicular or amygdaloidal. Some of them, such as
-many greenstones, display on weathered surfaces that curious
-spheroidal structure already alluded to; others are built up into
-geometric columns.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_75" href="#FNanchor_75" class="label">[75]</a> This distinction, though a sufficiently safe one in some localities, must not be held as by
-any means universal in its application, the felspathic traps being often as crystalline in
-aspect as the augitic, and the augitic, on the other hand, as dull as the felspathic.</p>
-
-</div>
-
-<p>Such peculiarities of composition and structure form the basis of
-a mineralogical classification of the igneous rocks, which is of use
-in working out the geology of a district. The most convenient
-subdivision for our present purpose, however, is that which proceeds
-upon the origin and mode of occurrence of the trap-rocks.
-Viewed thus, they resolve themselves into two great groups, the
-<i>intrusive</i> and <i>contemporaneous</i>, both of which contain greenstones,
-basalts, &amp;c.,&mdash;the sole distinction between those of the one class
-and those of the other, being the relation of age and mode of
-occurrence which they bear to the surrounding rocks.</p>
-
-<p>I. The <i>intrusive</i> traps occur in the form of walls and veins,
-sometimes in that of flat parallel beds, and often as huge
-amorphous masses, to which no definite name can be given.
-But whatever shape they may assume, they generally agree in
-presenting well-marked features, whereby their origin can be
-readily ascertained. The rocks through which they pass are
-more or less hardened, often contorted, and sometimes traversed
-by innumerable cracks and rents, into some of which the trap
-has penetrated in the form of veins.</p>
-
-<p>A trap-dyke is a long wall of igneous matter, cutting more
-or less perpendicularly through the surrounding rocks. Sometimes
-these dykes attain a breadth of many yards, and may not
-unfrequently be traced for miles running in a nearly straight
-line over hill and valley, easily recognisable by a long smooth
-ridge, with the rock protruding here and there from below
-where the soil is thin. It is interesting to follow out one of
-these long ramparts from its beginning to its close, and mark
-<span class="pagenum" id="Page_242">- 242 -</span>
-how undeviatingly it cuts through the rocks. No matter what
-may be the nature of the stone encountered, hard conglomerate,
-friable shale, compact limestone, or jointed fissile sandstone,
-all are broken across, and the right line preserved throughout.
-Nay, I have seen a still more curious instance of this persistency,
-where the dyke ran for four miles through a set of mountain
-limestone and lower coal-measure strata, and several enormous
-sheets of greenstone and basalt. Even when passing through
-these traps the dyke remained perfectly distinct, its crystalline
-structure and external configuration presenting a well-marked
-contrast with those of the surrounding eminences. Of course it
-must have been formed after all the rocks through which it
-passed. The sandstones and shales must have settled down
-long previously on some estuary bed or sea-bottom; the corals
-and shells of the limestones, and the matted plants of the successive
-coal-seams must have lived and died, perhaps thousands
-or millions of years before, and their remains have hardened into
-stone, ere the continuity of the strata was broken across by the
-long deep wall of greenstone. Trap-dykes are accordingly
-appropriately termed <i>intrusive</i>. They have been intruded
-among and must always be later than the rocks in which they
-occur. In tracing out their character, more especially in a
-trappean district, such as that of Linlithgowshire, where they
-abound, we soon find other evidence of their intrusive nature.
-Where they pass through limestone, they sometimes convert it
-into a white saccharine marble; shales they bake into a sort
-of porcelain or burnt pottery; and sandstones become semi-fused
-into a hard homogeneous quartz-rock. Nor are the
-changes confined to the rocks traversed; the dykes themselves,
-along their sides, become fine grained and hardened; occasionally,
-too, the colour alters from the usual bluish or greenish-grey to
-black, or to a brick-red, or dull-brown, similar to that of the
-altered shale and sandstone, of which detached portions may be
-found adhering to the outer walls of the dyke, or even embedded
-<span class="pagenum" id="Page_243">- 243 -</span>
-in its substance. The central portion of the dyke may
-thus be markedly crystalline, forming what we should call a
-greenstone, while the outside parts, where the trap comes in
-contact with the adjacent rocks, are fine grained and homogeneous,
-so as to become a true basalt. Sometimes, too, these
-exterior edges are highly vesicular and amygdaloidal, detached
-fragments closely resembling the slag of an iron-furnace, and
-occasionally the dyke presents a columnar arrangement, the ends
-of the hexagonal or polygonal columns abutting against the
-sandstone or other rock on either side, and losing themselves
-towards the centre in the general mass of the trap. Where
-the strata traversed are broken and jointed, the dykes which
-cut them through may be seen in some places throwing out
-lateral veins that accommodate themselves to all the irregularities
-of the fissures. These minor portions exhibit for the most part
-the same leading features with the parent mass, and the result
-of the whole is a general baking of the beds, with sometimes
-not a little contortion, and an amount of irregularity and
-disturbance, apparent at once to the most inexperienced
-observer. (See <a href="#fig34">Fig. 34</a>.)</p>
-
-<p>If the reader will verify these statements by actual exploration
-in the field, he will probably not be long in arriving at the
-following conclusions: trap-dykes must once have been in a
-melted state, as is shown by their vesicular cavities and divergent
-veins; this liquid condition must have been attended with
-the most intense heat, as may be gathered from the burnt and
-baked appearance of the contiguous rocks; they have, for the
-most part, especially where of large size, risen from below along
-previously-formed dislocations&mdash;a circumstance which may be
-inferred from their persistency in a straight line through beds
-of very different resisting power, for had the liquid matter forced
-a way for itself, it would have squirted between the beds along
-the lines of least resistance, and not directly and for miles
-across them; and hence, trap-dykes must be regarded not as
-<span class="pagenum" id="Page_244">- 244 -</span>
-themselves the agents in dislocating and contorting a district,
-but merely as signs of the parent force at work below.</p>
-
-<p>All the features of these trap-dykes here stated may be
-observed in the central district of Scotland, among rocks of
-Carboniferous age. But he who would study trap-dykes on the
-great scale without quitting Britain, should visit some of the
-more trappean islands of the Hebrides. He will there find
-them intersecting glen and hill-side, in an intricate network,
-standing up through the heather like ruined walls, and running
-often for considerable distances up bald cliff-line, and across
-precipitous ravine. In some localities, among such limestone
-districts as that of Strath, detached eminences may be seen
-with congregated dykes coursing their sides and summits, while
-the heathy interspaces are cumbered with grey and white protruding
-blocks of marble, that give to these green knolls the
-aspect of old time-wasted abbeys with their clustering tombstones.
-The magnificent sections laid open in these localities
-by the action of mountain streams, and by the waves of the
-Atlantic, leave the student of igneous rocks nothing to desire
-save a long lease of leisure.</p>
-
-<p>Another form frequently assumed by the intrusive traps, is that
-of wide beds or sheets intercalated with greater or less regularity
-among stratified rocks (<a href="#fig34">Fig. 34 <i>b</i></a>). They may be regarded as
-horizontal dykes, the igneous matter, in place of cutting across
-the strata, having forced a way for itself between them.
-Viewed in this light they will be found exactly to correspond
-with ordinary dykes; the rocks on which they rest, and those
-which lie above them being both altered like those on either side
-of a dyke or vein. A well-known example of this form of trap is
-that of Salisbury Crags, where a bed of greenstone twenty to eighty
-feet thick is intercalated among sandstones, shales, and coarse
-limestones, belonging to the Lower Carboniferous series. Its
-under surface presents a remarkably even line, broken at intervals,
-however, where the truncated ends of sandstone beds protrude
-<span class="pagenum" id="Page_245">- 245 -</span>
-up into the greenstone, or where the latter cuts into the
-sandstone below, occasionally enveloping detached fragments,
-and sending veins through them. Along the line of contact
-both rocks undergo a change. The greenstone becomes reddened,
-finer grained, and of a dull earthy aspect. The sandstones
-and shales are also red, and excessively hard, the former
-resembling a quartz rock, and the latter passing into a sort of
-flinty chert or chalcedony. The sandstones above the trap, where
-they can be examined, are also found to present the same hardened,
-baked appearance, the most intense metamorphism being
-observable in those parts which are completely surrounded by igneous
-matter. These points were noted many years ago during the
-famous controversy between the disciples of Hutton and Werner,
-the former viewing them as demonstrative evidence of the igneous
-origin of the trap-rock, the latter, on the other hand, professing
-to see nothing in the section of the Crags at all militating
-against the theory that the rocks had originated from deposition
-in water. Many a battle was fought in this locality, and not a
-few of the trap-dykes and hills possess to the geologist a classic
-interest, from having been the examples whence some of the best
-established geological opinions were first deduced. The contest
-between the Huttonians and Wernerians terminated long ago
-in the acknowledged victory of the former; Hutton's doctrines
-are now recognised all over the world. It is interesting, however,
-to walk over the scenes of the warfare, and mark the very
-rocks among which it raged, and from the peculiarities of which
-it took its rise. Basalts and greenstones, sandstones and shales,
-with all their crumplings and contortions, still stand up as
-memorials of powerful igneous action, and of physical changes in
-the primeval past; and they have become to the geologist
-memorials, too, of changes in the onward progress of his science,
-where, out of conflicts perhaps yet more tumultuous than those
-of ancient Nature, there emerged at last the clear demonstrable
-truth.</p>
-
-<p><span class="pagenum" id="Page_246">- 246 -</span></p>
-
-<div class="figcenter" id="fig34" style="width: 456px;">
-  <img src="images/fig34.png" width="456" height="281" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 34.</span>&mdash;Intrusive Trap.</div>
-</div>
-
-<p>In the accompanying section (<a href="#fig34">Fig. 34</a>), the more marked
-characters of intrusive traps are exhibited. The main mass of
-igneous rock is the dyke (<i>d</i>), rising through a dislocation or
-fault, which has thrown down the beds on one side several feet
-below those on the other, as is shown by the interruption of
-the shale and ironstone beds (<i>sh</i>). The dyke gives off two
-ramifications, one of them cutting across the beds obliquely as
-a vein (<i>v</i>); the other passing along the planes of the shaly
-layers as a horizontal bed (<i>b</i>). The vein, it will be noticed,
-produces considerable alteration in its progress, carrying up and
-baking a portion of the shale (<i>sh</i>), and turning up the edges of
-the beds on both sides, which get cracked and hardened along
-the line of contact. The bed runs with some regularity for a
-short distance through the shales, which show marks of great
-alteration at their junction with the trap. Its under surface
-at one point is seen to have involved a portion of the shale
-which has become in consequence highly metamorphosed,
-while along the upper surface the bed has sent out a short
-<span class="pagenum" id="Page_247">- 247 -</span>
-irregular vein that twists and otherwise alters the shales above.
-These circumstances would suffice to show that even though we
-did not find this bed in connexion with a mass of intrusive
-trap, it must, nevertheless, have been thrust among previously-formed
-strata, and could not have been contemporaneous, that
-is, poured out along the sea-bottom before the shales above it
-were deposited.</p>
-
-<p>But one other form needs to be mentioned here as characteristic
-of the Carboniferous intrusive trap-rocks&mdash;that of great
-amorphous masses which cut through the strata irregularly.
-They have not the wall-like form of dykes, nor do they conform
-to the line of bedding of the rocks among which they occur.
-They are sometimes irregular lumps, lying above or among the
-strata, and probably connected with some vein or dyke below.
-In other localities they look like the upper ends of vast pillars
-which may descend into the very depths of Tartarus, as though
-a great hole had been blown through the crust of the earth,
-and a column of melted matter had risen to fill the cavity.
-Such masses are often called <i>bosses</i>, and seem not unfrequently
-to have been the craters of eruption whence great sheets of lava
-and showers of ashes were ejected far and wide over the
-neighbourhood. They serve to connect the intrusive traps,
-whose age is always more or less uncertain, with the bedded
-traps properly so called, the geological date of which can usually
-be sufficiently ascertained.</p>
-
-<p>II. The bedded or contemporaneous trap-rocks consist of
-two well-marked kinds. There are, 1st, the melted rocks, such
-as greenstones and basalts and 2d, the tufas and volcanic ashes.</p>
-
-<p>Those of the first-named class differ in no respect from the
-traps already noticed, so far as regards mineralogical texture,
-general structure, and appearance. In hand specimens the
-intrusive and bedded greenstones and basalts cannot be distinguished,
-nor even when examined in the field and in masses
-extending over considerable areas is it always possible to say to
-<span class="pagenum" id="Page_248">- 248 -</span>
-which division any particular hill or crag should be assigned.
-The reason of this resemblance is obvious. Where a trap has
-either cut through or insinuated itself among rocks of earlier
-date it is called intrusive, in relation to the rocks so traversed,
-and of course we cannot be sure to what geological period it
-should be referred, nor how long an interval may have elapsed
-between the time when these rocks were forming and the time
-when the trap was intruded among them. If, however, the
-igneous rock passed upward through these same strata and
-then spread out as a flat sheet along the sea-bottom, the
-part that came to the top would be termed contemporaneous
-with the deposits going on at the time. Hence it follows that
-all contemporaneous lava-form trap-rocks are at the same time
-intrusive as regards the strata passed through in their progress
-to the surface. If the sheet of melted matter that spread out
-below the water were in the course of ages worn completely
-away, along with the strata subsequently piled above it, so as
-to leave merely a neck or dyke filling up the cavity through
-which the lava rose, we should pronounce the remnant intrusive,
-and could form no certain conclusion as to its age or as to
-whether its site had ever been a crater actively at work in
-throwing out lava and ashes. The sole difference, therefore,
-between a contemporaneous and an intrusive greenstone is
-simply this: the former rose through a fissure until it reached
-the surface, and then rolled out as a flat parallel sheet; the
-latter may have been erupted from below at the same time,
-yet, owing to different circumstances, never reached the surface,
-but spread out among or cut through the strata underneath.
-And so, when we come to examine in quarries, ravines, and
-other exposures, the remains of two such eruptions, we soon
-ascertain the relative age of the former from that of the strata
-among which it occurs, but as to the date of the latter we are
-wholly at a loss, for it gives us no clue by which we can show
-whether it was erupted before or after the other. We can but
-<span class="pagenum" id="Page_249">- 249 -</span>
-compare the mineralogical character of the intruded with
-that of the contemporaneous masses in the same district, and,
-from the resemblance which may be traced between them,
-draw at the best but a doubtful inference as to their relative
-dates.</p>
-
-<p>The contemporaneous traps always assume a bedded form,
-the intrusive occasionally do so; and the question naturally
-arises here, what are the tests whereby a bed of trap may be
-known to be contemporaneous and not intrusive? The answer
-is happily a simple one. An intrusive mass is found to alter
-to a greater or less extent the rocks in contact with it; if it
-occur as a dyke, then the beds on either side have been cut
-through and probably otherwise affected; if it take the form of
-a bed or sheet, the strata lying above and below it will be
-found to be both altered, showing evidently that a heated mass
-has been interposed between them, and consequently that the
-igneous rock is of later date than any of the strata among
-which it occurs. In the case of a contemporaneous melted
-trap, however, the appearances presented are different; it
-always takes the form of a flat bed corresponding to all the
-inclinations and curvatures of the sandstones, shales, limestones,
-or other strata among which it lies. If examined carefully, it
-may be found not unfrequently baking and contorting the bed
-that forms its pavement, but producing no change whatever on
-that which composes its roof. It may be capped and underlaid
-by layers of shale, and in such a case we might not improbably
-find the shale below it highly baked, so as to resemble a sort
-of rude pottery, while the shale above would present no sign of
-such metamorphism, but on the contrary might display its
-delicate plants or shells down to the very surface of the trap,
-and were the latter concealed from view we should never suspect,
-from the aspect of this shale, that any igneous rock existed in
-the neighbourhood. The inference to be drawn from such
-appearances seems very obvious. Had the upper shale been in
-<span class="pagenum" id="Page_250">- 250 -</span>
-existence when the greenstone or basalt was erupted, it would
-have suffered an alteration similar to that produced on the
-shale below; and the fact, plain and palpable, that it has
-undergone no such change, shows pretty clearly that it was
-deposited at the bottom of the water after the trap had cooled
-and consolidated, and that consequently the trap must be intermediate
-in age between the beds on which it rests and those
-which lie above it; in other words, that it is a <i>contemporaneous</i>
-rock. Hence, if we know the exact geological position and
-age of the shales, we know also those of the associated trap,
-and can thus ascertain that at a certain definite period in the
-past history of our planet a particular district was the scene of
-volcanic action.</p>
-
-<p>Examples of such contemporaneous traps abound among the
-carboniferous rocks of central Scotland, especially in Fife and
-the Lothians (<a href="#fig35">Fig. 35</a>). I may refer again to the vicinity of
-Edinburgh as affording some excellent illustrations. The eastern
-part of Arthur's Seat displays a series of basalts and greenstones
-which can be proved to have been thrown out during the times
-of the Lower Carboniferous rocks, at a period long anterior to
-that of the Burdiehouse limestone. The Pentland Hills exhibit
-on a much greater scale vast sheets of felspathic traps, such as
-felstones and tufas, traceable in some cases for six or seven
-miles, which were erupted at a still earlier period.<a id="FNanchor_76" href="#Footnote_76" class="fnanchor">[76]</a> The trap
-pebbles in our boulder consisted of light yellow and pink felstone,
-and were derived, I make no doubt, from these Pentland
-Hill beds, when what forms now the cone of Carnethy, rising
-well-nigh 1900 feet above the sea, existed as one of a scattered
-archipelago of islets, or as a sunken rock battered by the waves
-that scattered its shingle along the floor of what may have been
-either a shallow sea or a shoaling estuary, where eventually the
-<span class="pagenum" id="Page_251">- 251 -</span>
-sand and pebbles hardened into that bed of coarse grey sandstone
-whence our boulder was derived.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_76" href="#FNanchor_76" class="label">[76]</a> The geology of Arthur's Seat and Pentland Hills was admirably worked out more
-than quarter of a century ago by Mr. M'Laren. His work (already referred to) is
-unfortunately now out of print.</p>
-
-</div>
-
-<p>The second class of contemporaneous trap-rocks are the tufas
-or volcanic ashes. They differ entirely in their aspect and
-origin from any of the rocks already described. Greenstones,
-basalts, felstones, and such like, were all melted rocks, thrust
-up from below as we see lava thrown out by a modern volcano,
-being styled contemporaneous when poured out along the sea-bottom
-or the land, and intrusive when they never reached the
-surface but cut through the strata below. The tufas, however,
-point to a totally different origin. They are of various shades
-of colour, according to their chemical composition. In East
-Lothian they assume a deep red hue; among the Pentland
-Hills they are often flesh-coloured, while in Linlithgowshire they
-range from a dull-brown to a pale leek-green, green being the
-prevailing tint. They always show a dull uncrystalline surface,
-irregularly roughened by included fragments of various
-rocks, such as trap, sandstone, shale, and many others. These
-fragments or <i>lapilli</i> vary in size from less than a pin-head up
-to large bombs of several hundredweight, and from being generally
-abundant give to the tufas one of their best-marked
-characteristics. The smaller pieces are usually more or less
-angular, and throughout the carboniferous series of Linlithgowshire
-consist chiefly of a pale felspathic matter, lighter in shade
-and commonly harder in texture than the matrix or paste in
-which they lie. In some localities, where the included pieces
-are larger, they have a rounded form, and often show a honey-combed
-vesicular surface, like balls of hardened slag. Fragments
-of sandstone have not unfrequently a semi-fused appearance,
-and plates of shale sometimes look like the broken debris from
-a tile-work, although in many instances these fragments may be
-found showing no trace whatever of alteration, being undistinguishable
-from the neighbouring sandstones and shales from
-which they probably came. I have seen in some of the coarser
-<span class="pagenum" id="Page_252">- 252 -</span>
-tufas, or rather volcanic conglomerates, enormous masses of
-basalt and greenstone buried deep in the surrounding green or
-red felspathic paste, and showing on their more prominent
-edges the usual vesicular cavities. In such conglomerates
-there is usually no division into beds; the whole mass, indeed,
-forms a bed between lower and higher strata, but internally it
-shows for the most part no trace of stratification. In these
-confused assemblages one may occasionally light upon detached
-crystals of augite or other mineral scattered irregularly through
-the tufa. Their angles will be found often blunted, and the
-crystals themselves broken, appearances which have likewise
-been noticed among the ash of modern volcanoes. When the
-tufas are finer grained they usually exhibit a well-marked
-stratification, and can often be split up into lamin&aelig; like an
-ordinary fissile sandstone. Organic remains not unfrequently
-abound in such laminated beds, and vary in their character as
-widely as in any other stratified rock, being sometimes land-plants,
-sometimes sea-shells.</p>
-
-<p>Such are some of the more obvious characters of the volcanic
-ashes or tufas, as developed among the carboniferous rocks of
-central Scotland. Their great varieties of composition and
-general aspect render them a somewhat difficult set of rocks to
-master, but when fairly and fully understood they soon prove
-themselves to be by far the most interesting section of the
-traps, for one needs seldom to hesitate a moment as to their
-origin or date, while their fossil contents impart to them an
-interest all their own. By comparing such rocks with the
-consolidated ash or fine dust and <i>lapilli</i> of a modern volcano,
-a remarkable resemblance of external characters is found to
-subsist; and this likeness holds sufficiently close, when pursued
-into details, to show that the ancient and the modern rocks
-have resulted from the same source, that, namely, of volcanic
-eruption. The ash of active burning mountains falls down
-their sides loosely and incoherently, every successive shower of
-<span class="pagenum" id="Page_253">- 253 -</span>
-dust or scori&aelig; settling without much regularity on those that
-have gone before. The ash of the old carboniferous eruptions,
-however, was showered for the most part over the sea or
-across wide shoaling estuaries, at least it is only such portions
-of it as fell there that have come down to our day. Settling
-down among the mud and sand at the bottom, the volcanic
-matter accumulated in wide horizontal beds, every marked
-inequality being smoothed down by the currents until a series
-of regularly stratified layers came to be formed, entombing any
-organisms that might find their way to the bottom or be lying
-there at the time. The ash of terrestrial volcanoes has no
-marked stratification because thrown out in open air, while
-that of the carboniferous rocks of central Scotland is distinctly
-bedded from having been deposited under water.</p>
-
-<p>Tufas and contemporaneous melted traps are very generally
-found together interstratified regularly with each other, and
-the inference to be drawn from their juxtaposition is of course
-simply this, that at one time liquid lava rolled along the bottom
-of the water, while at another showers of volcanic dust
-and cinders settled down in successive beds. This active play
-of the igneous forces took place at the mouths of estuaries or
-farther to sea; and it is accordingly sometimes not a little interesting
-to trace, amid the sediment that accumulated below the
-water during the pauses between the eruptions, well-preserved
-remains now of plants that had come drifting from the land,
-anon of slim spirifers, and producti that swarmed upon the
-hardened lava-streams, and amid the thickening volcanic mud that
-slowly sank to the sea-bottom. Such a sequence of events will be
-made plain from the following section, the materials of which are
-derived from different parts of the trappean region of Linlithgowshire.
-The undermost bed here shown (1) is one of marine
-limestone, abounding with encrinal joints, corals, spirifers, and
-other undoubtedly marine organisms. Above it comes a layer
-of tufa or volcanic ash (2) of a dull green aspect, the boundary
-<span class="pagenum" id="Page_254">- 254 -</span>
-line between the two rocks lying as clear as if the quarryman
-had marked it off with his foot-rule. The upper part of the
-ash, however, does not show an
-equally clear line of demarcation
-with the stratum above. On the
-contrary, it gradually changes its
-character, becomes more calcareous
-as it goes up, with here and
-there a stone-lily joint or a stray
-productus, until these organisms
-increase so much in number that
-the rock insensibly passes into an
-ordinary limestone (3) like that
-below. Next succeeds a thin
-seam of ash (4) resting sharply on
-the limestone and overlaid by a bed
-of shale (5) containing the same marine
-organisms. Another stratum
-of ash (6) resembling those below
-follows the shale, and is surmounted
-by a close compact greenstone
-(7) that hardens the ash on
-which it rests, but produces no
-apparent alteration on the soft fissile shale (8) above it.
-Next is a fourth seam of volcanic ash (9) resembling those below
-it, but without any shells or crinoidal joints, the only
-fossils observable being a few carbonized stems apparently of
-calamites and lepidodendra. Above it comes a bed of white
-quartzy sandstone (10) with similar vegetable remains, and then
-a layer of white stiff fire-clay (11) with rootlets of stigmaria,
-above which lies a seam of coal (12). A thin layer of soft blue
-shale (13) here intervenes, somewhat baked along its upper portions
-by another bed of compact vesicular greenstone (14), which
-displays in places a well-marked columnar structure. It is
-surmounted by a highly characteristic ash (15) in which there
-occur numerous large bombs chiefly of trap of different kinds,
-some of them highly vesicular. Fragments of shale also occur,
-mingled here and there with black carbonized fragments of
-coal-measure plants, but without any of the shells and other
-marine organisms so abundant below. The topmost bed is a
-grey carbonaceous sandstone (16), underlying a thin covering of
-vegetable mould.</p>
-
-<div class="figleft" id="fig35" style="width: 219px;">
-  <img src="images/fig35.png" width="219" height="366" alt="" />
-  <div class="figcaption"><span class="smcap">Fig. 35.</span>&mdash;Contemporaneous Trap.</div>
-</div>
-
-<p><span class="pagenum" id="Page_255">- 255 -</span></p>
-
-<p>Such is the skeleton, as it were, of the section; the mere
-dry bones which remain to the geologist, and which he must
-study closely to be able to give them life again. The lowest
-bed visible, with its stone-lilies and molluscs, we readily recognise
-as marking an old ocean-bed, so that the little episode in
-the primeval records of our planet here presented to us opens,
-like the two great epics of antiquity, within sound of the wide-roaring
-sea. The seam of ash which follows shows, from the
-sharpness of its line of demarcation with the limestone, how the
-denizens of the sea-bottom were suddenly destroyed by a thick
-shower of volcanic dust that settled down over their remains.
-The waters, however, soon cleared, and ere long stone-lilies and
-producti were plentiful as ever, mingling their remains among
-the upper layers of the soft muddy ash, and giving rise therefrom
-to a sort of calcareous ash or ashy limestone, until in the
-course of time the volcanic matter became wholly covered over by
-a seam of ordinary limestone. The corals and stone-lilies were,
-however, anew destroyed by the deposition of volcanic dust that
-settled over them as a seam of ash, after which the water was
-again rendered turbid and muddy by the inroad of foreign
-matter, which, brought down by rivers or by the changing
-currents of the ocean, sank to the bottom and eventually consolidated
-into a seam of shale. Thereafter the volcanic forces
-began once more to eject a quantity of dust and scori&aelig; that fell
-into the water and spread along the bottom as a stratum of ash,
-and to pour out a current of lava which hardened into a great
-sheet visible now as the undermost greenstone of the section.
-<span class="pagenum" id="Page_256">- 256 -</span>
-The emission of the lava seems to have terminated the eruption,
-for the next stratum is one of shale like that below the ash,
-so that the muddy sediment, the deposition of which was interrupted
-for a while by the volcanic products, began afresh to
-settle down along the sea-bottom. This last condition of
-things seems to have continued for a considerable period, seeing
-that the shale bed is relatively thick, and from its fissile
-laminated structure indicates a slow and tranquil deposition.
-Another eruption of volcanic dust and ashes again interrupted
-the detrital deposits, and gave rise to another seam of tufa.
-This last subterranean movement seems to have considerably
-altered the general contour of the sea-bottom, and so elevated
-it, at least at one part, that a thick accumulation of sand, and
-subsequently of clay, filled it up to the level of the water
-or nearly so, giving rise to a dense growth of the stigmaria
-and other coal-measure plants whose roots are still seen imbedded
-in the fire-clay on which, as a soft muddy soil, they
-originally grew. It is probable, however, that, notwithstanding
-such elevations of the sea-bed, there was a general
-subsidence of the ground during the accumulation of these
-strata, for we see that the peaty morass, represented now by
-the coal-seam, ere long sank beneath the waters, with the
-inroads of which it was unable to keep pace, while there slowly
-silted over it a muddy sediment that hardened at length
-into what is now a seam of shale. But this order of things
-had been in existence for but a comparatively short period when
-the igneous forces broke out again, ejecting a stream, of molten
-lava that spread along the bottom of the shallow waters and
-hardened as before into a sheet of greenstone. This was followed
-by an abundant shower of dust and lapilli, along with
-numerous large masses of greenstone and basalt. These falling
-into the water accumulated on the upper surface of the lava-stream,
-then somewhat cooled, and formed in the end a stratum
-of ash of a rubbly conglomeritic aspect. That the sheet of
-greenstone really spread out along the sea-bottom before the
-<span class="pagenum" id="Page_257">- 257 -</span>
-ejection of the ash, and was not intruded among the beds at a
-later period,&mdash;that, in short, it must be regarded as a contemporaneous
-and not as an intrusive rock, seems sufficiently shown
-by its great regularity and evenness, and by the unaltered condition
-of the fine soft felspathic matter which covers its upper
-surface. It was assuredly in a highly-heated condition when
-poured out, as may be gathered from the baked aspect of the
-mud over which it rolled; but it had cooled and solidified, at
-least along its upper surface, ere buried beneath the shower of
-ashes. The last bed exhibited in the section is a grey sandstone,
-with many carbonaceous streaks and traces of land-plants,
-showing a pause in the volcanic activity of the district, during
-which the streams from the land brought down sandy sediment,
-with an abundant admixture of macerated leaves, branches, and
-other drift-wood.</p>
-
-<p>It thus appears that not only were the plains and hills of the
-Carboniferous era richly clothed with vegetation, and its waters
-crowded with animals, but that then, as now, subterranean
-forces were at work, sometimes elevating, sometimes depressing
-the area alike of the land and of the sea; while, not unfrequently,
-melted lava rose from below, rolling along the bottom of the
-waters, and showers of ashes were flung far and wide through
-the air, settling at last as a thickening sediment along the floor
-of the sea, or athwart the marshy swamps of the delta. Whether
-the interior of the land had burning cones among its pine-covered
-hills we know not yet. Such, however, probably existed;
-nay, there may have been among the higher peaks
-some "snowy pillar of heaven," like the &AElig;tna of Pindar,
-raising its smoking summit among everlasting crags of ice in
-solitudes lifeless and bare.<a id="FNanchor_77" href="#Footnote_77" class="fnanchor">[77]</a></p>
-
-<div class="footnote">
-
-<p><a id="Footnote_77" href="#FNanchor_77" class="label">[77]</a> The highest points of New Zealand, nearly 10,000 feet above the sea, are said to be
-clothed for two-thirds of their height with ice and snow. If, therefore, during Carboniferous
-times, there existed somewhere to the west of what is now central Scotland, a
-chain cf hills 5000 or 6000 feet high, their summits might perhaps have been as wintry
-us that of Mont Blanc.</p>
-
-</div>
-
-<p><span class="pagenum" id="Page_258">- 258 -</span></p>
-
-<p>Our boulder has served us like the minstrels in modern
-Gothic poetry, who appear between the cantos, and give an air
-of unity and completeness to what would otherwise be often
-rambling and unconnected. And now, at the close, it comes
-again before us, lying in its bed of clay, clustered with mosses
-of brightest green, and overshadowed by its flickering canopy of
-beechen leaves. Silent and senseless, the emblem, seemingly,
-of calm repose and unchanging durability, what could we have
-conceived it should have to chronicle, save the passing, perchance,
-of many a wintry December and many a sultry June.
-Such, indeed, would be the character of its records of the centuries
-that have passed away since the birth of man, did any
-such record survive in its keeping. But it rests there as the
-memorial of far earlier centuries, and of an older creation; and
-though now surrounded with all that is lovely or picturesque&mdash;the
-twinkling flowers on every side, the wide arch of boughs
-overhead, and the murmuring streamlet in the dell below&mdash;and
-though forming itself no unimpressive object in the scene, the
-boulder looks out upon us unconnected with anything around.
-Like a sculptured obelisk transported from the plains of Assyria
-to the streets of London, it offers no link of association with
-the order of things around it; its inscriptions are written in
-hieroglyphics long since extinct, but of which the key yet
-remains to show us that the rocks of our planet are not masses
-of dead, shapeless matter, but chronicles of the past; and that all
-the varied beauty of green field and waving wood is but a thin
-veil of gossamer spread out over the countless monuments of
-the dead. We have raised one little corner of this gauze-like
-covering, and tried to decipher the memorials of bygone creations,
-traced in clear and legible characters on the boulder. First,
-there lies spread out before us a wide arctic sea, studded with
-icebergs that come drifting from the north. Here and there a
-bare barren islet rises above the waste of waters, and the packed
-ice-floes often strand along its shores, while at other parts great
-towering bergs, aground in mid-ocean, keep rising and falling
-<span class="pagenum" id="Page_259">- 259 -</span>
-with the heavings of the surge, and seem ever on the verge of
-toppling into the deep. But this scene, so bleak and lifeless,
-erelong fades away, and we can descry a wide archipelago of
-islands, green well-nigh to the water's edge, and looking like the
-higher hill-tops of some foundered continent. The waves are
-actively at work wearing down the shores, which present for
-the most part an abrupt cliff-line to the west. This picture,
-too, gets gradually dim, and when the darkness and haze have
-cleared away, the scene is wholly new. For miles around there
-spreads out an expanse of water, like a wide lake, thickly dotted
-with islets of every form and size, clothed with a rich vegetation.
-Here a jungle of tall reeds shoots out of the water, clustering
-with star-like leaves; there a group of graceful trees,
-fluted like the columns of an ancient temple, and crowned by a
-coronal of sweeping fronds, spread out their roots amid the soft
-mud. Yonder lies a drier islet, rolling with ferns of every shape
-and size, with here and there a lofty tree-fern, waving its massive
-boughs high overhead. The vegetation, rank and luxuriant
-in the extreme, strikes us as different from anything visible at
-the present day, though, as our eyes rest on the muddy discoloured
-current, we can mark, now and then, huge trunks,
-branchless and bare, that recall some of the living pine-trees.
-The denizens of the water seem to be equally strange. Occasionally
-a massive head, with sharp formidable tusks, peers above
-the surface, and then the gleam of fins and scales reveals a
-creature some twenty or thirty feet long. Glancing down into
-the clearer spots, we can detect many other forms of the finny
-tribes, all cased in a strong glistening armature of scales, and
-darting about with ceaseless activity. Beyond this scene of
-almost tropical luxuriance, on the one side, lies the blue ocean,
-with its countless shells and corals, its stone-lilies and sea-urchins,
-and its large predaceous fish; on the other side stretches
-a far-off chain of hills, whose nether slopes, dark with pine-woods,
-sweep down into the rich alluvial plains. And then this
-landscape, too, fades slowly away, and thick darkness descends
-<span class="pagenum" id="Page_260">- 260 -</span>
-upon us. Yet through the gloom we feel ever and anon the
-rambling earthquake, and see in the distance the glare of some
-active volcano that throws a ruddy gleam amid the pumice and
-ashes, ever dancing along the surface of the sea. And now this
-last scene melts away like the rest, and dark night comes down
-in which we can detect no ray of light, and beyond which we
-cannot go. The record of the boulder can conduct us no further
-into the history of the past.</p>
-
-<p>The same principles which have been pursued in the previous
-pages in elucidating the history of the Carboniferous system,
-will conduct the reader to the true origin and age of any group
-of rocks he may encounter, whatever its nature, and wheresoever
-its locality. Let him, therefore, in his country rambles,
-seek to verify them in valley and hill-side, by lake and cataract,
-and along river-course and sea-shore. Let him not be content
-with simply admiring the picturesque grouping of rock-masses,
-but rather seek to interpret their origin and history, tracing
-them step by step into the past, amid ages long prior to man.
-Such a process will give him a yet keener relish for the beauties
-of their scenery, by ever calling up to his mind some of those
-striking contrasts with which geology abounds. In the stillness
-of the mountain-glen, he will see on every side traces of the
-waves of ocean, and when dipping his oars into the unruffled
-sea among groups of wasted rocks, miles from shore, he will bethink
-him, perchance, of some old forest-covered land, of which
-these battered islets are the sole memorials. His enjoyment of
-the scenery of nature is thus increased manifold, and he carries
-about with him a power of making even the tamest landscape
-interesting. Cowper, in one of his exquisite letters, remarks,&mdash;"Everything
-I see in the fields, is to me an object; and I can
-look at the same rivulet or at a handsome tree, every day of
-my life, with new pleasure." Had the sweet singer of Olney
-lived to witness the results obtained by the geologists whom he
-satirized, he would perhaps have sauntered along the Ouse with
-a new pleasure, and have felt a yet more intense delight in
-<span class="pagenum" id="Page_261">- 261 -</span>
-casting his eyes athwart the breadth of landscape that spreads
-out around-the "Peasant's nest."</p>
-
-<p>Such, however, are after all only secondary incentives to the
-study of the rocks. As a mental exercise, geology certainly
-yields to none of the other sciences, for it addresses itself at
-once to the reasoning powers and to the imagination, and may
-thus be made a source both of intellectual training and of
-delightful recreation. Of none of the sciences is it so easy to
-get a general smatter, yet none is so difficult thoroughly to
-master, for geology embraces all the sciences. In so wide a
-field, the student will therefore find ample room to expatiate.
-In beginning the study, he may perhaps think it, as Milton
-pictured the other paths of learning, "laborious, indeed, at the
-first ascent; but else so smooth, so green, so full of goodly
-prospects and melodious sounds on every side, that the harp of
-Orpheus was not more charming." If time and taste disincline
-him to travel over the whole of the broad field, there are delightful
-nooks to which he may betake himself, replete with
-objects of beauty and interest, where he may spend his leisure,
-and by so doing not merely delight himself, but enlarge the
-bounds of human knowledge. No part of the domain can be
-too obscure or remote to reward his attention; no object too
-trifling or insignificant: for the march of science, though a
-stately one, proceeds not by strides, but by steps often toilsome
-and slow; and she stands mainly indebted for her progress not
-to the genius of a few gigantic intellects, but to the united
-efforts of many hundred labourers, each working quietly in his
-own limited sphere.</p>
-
-<p>But the highest inducement to this study must ever be that
-so quaintly put by old Sir Thomas Browne: "The world was
-made to be inhabited by beasts, but studied and contemplated
-by man: 'tis the debt of our reason we owe unto God, and the
-homage we pay for not being beasts; without this the world is
-still as though it had not been, or as it was before the sixth
-day, when as yet there was not a creature that could conceive
-<span class="pagenum" id="Page_262">- 262 -</span>
-or say there was a world." Geology lifts off for us the veil
-that shrouds the past, and lays bare the monuments of successive
-creations that had come and gone long ere the human race
-began. She traces out the plan of the Divine working during
-a vast cycle of ages-, and points out how the past dovetails with
-the present, and how the existing condition of things comes in
-as but the last and archetypal economy in a long progressive
-series. By thus revealing what has gone before, she enables
-us more fully to understand what we see around us now. Much
-that is incomplete she restores; much that is enigmatical she
-explains. She teaches us more fully man's true position in the
-created universe, by showing that in him all the geologic ages
-meet that he is the point towards which creation has ever been
-tending. How far the facts brought to light by geology may
-bear upon the future, will not, perhaps, be solved until that
-future shall have come. There is, nevertheless, in the meanwhile,
-material enough for solemn and earnest reflection, and as years
-go by the amount will probably be always increasing. For we
-must ever be only learners here, and when all earthly titles and
-distinctions have passed away, and we enter amid the realities
-of another world, we shall carry with us this one common name
-alone. It will, perhaps, be then as now, that only</p>
-
-<div class="poetry-container">
-<div class="poetry">
-  <div class="stanza">
-    <div class="verse indent0">"In contemplation of created things</div>
-    <div class="verse indent1">By steps we may ascend to God."</div>
-  </div>
-</div>
-</div>
-
-<p>And it can surely be no unmeet preparation for such a scene,
-in humble faith to read the records of His doings which the
-Almighty has graven on the rocks around us. Many problems
-meet us on every hand problems which it seems impossible for
-us now to solve and as the circle of science ever widens, its
-enveloping circumference of difficulty and darkness widens in
-proportion. It is, doubtless, well that it should be so; for we
-are thus taught to regard our present state as imperfect and incomplete,
-and to long for that higher and happier one promised
-by the Redeemer to those that love Him, when "we shall know
-thoroughly even as we are thoroughly known."</p>
-
-<p><span class="pagenum" id="Page_263">- 263 -</span></p>
-
-
-<p class="caption3nb">TABLE OF FOSSILIFEROUS ROCKS.</p>
-
-<p class="tdc">LYELL'S <i>Elements</i>, p. 109.</p>
-
-<table summary="data">
-<tr>
-  <td class="tdr">1.<br />2.</td>
-  <td class="tdl">RECENT.<br />POST-PLIOCENE.</td>
-  <td class="tdc"><img src="images/bracer_32.png" width="11" height="32" alt="" /></td>
-  <td class="tdl">POST-TERTIARY.</td>
-</tr>
-<tr>
-  <td class="tdr">3.<br />4.</td>
-  <td class="tdl">NEWER PLIOCENE.<br />OLDER PLIOCENE.</td>
-  <td class="tdc"><img src="images/bracer_32.png" width="11" height="32" alt="" /></td>
-  <td class="tdl">PLIOCENE.</td>
-  <td class="tdc" rowspan="3"><img src="images/bracer_86.png" width="14" height="86" alt="" /></td>
-  <td class="tdl" rowspan="3">TERTIARY<br />&nbsp;&nbsp;&nbsp;&nbsp;or<br />CAINOZOIC.</td>
-</tr>
-<tr>
-  <td class="tdr">5.<br />6.</td>
-  <td class="tdl">UPPER MIOCENE.<br />LOWER MIOCENE.</td>
-  <td class="tdc"><img src="images/bracer_32.png" width="11" height="32" alt="" /></td>
-  <td class="tdl">MIOCENE.</td>
-</tr>
-<tr>
-  <td class="tdr">7.<br />7.<br />8.</td>
-  <td class="tdl"><i>a</i> UPPER EOCENE.<br /><i>b</i> MIDDLE EOCENE.<br />LOWER EOCENE.</td>
-  <td class="tdc"><img src="images/bracer_48.png" width="11" height="48" alt="" /></td>
-  <td class="tdl">EOCENE.</td>
-</tr>
-<tr>
-  <td class="tdr">9.<br />10.<br />11.<br />12.<br />13.<br />14.<br />15.</td>
-  <td class="tdl">MAESTRICHT BEDS.<br />UPPER WHITE CHALK.<br />LOWER WHITE CHALK.<br />UPPER GREENSAND.<br />GAULT.<br />LOWER GREENSAND.<br />WEALDEN.</td>
-  <td class="tdc"><img src="images/bracer_116.png" width="11" height="116" alt="" /></td>
-  <td class="tdl">CRETACEOUS.</td>
-  <td class="tdc" rowspan="3"><img src="images/bracer_333.png" width="11" height="333" alt="" /></td>
-  <td class="tdl" rowspan="3">SECONDARY<br />&nbsp;&nbsp;&nbsp;&nbsp;or<br />MESOZOIC.</td>
-</tr>
-<tr>
-  <td class="tdr">16.<br />17.<br />18.<br />19.<br />20.<br />21.<br />22.<br />23.</td>
-  <td class="tdl">PURBECK BEDS.<br />PORTLAND STONE.<br />KIMMERIDGE CLAY.<br />CORAL RAG.<br />
-   OXFORD CLAY.<br />GREAT or BATH OOLITE.<br />INFERIOR OOLITE.<br />LIAS.</td>
-  <td class="tdc"><img src="images/bracer_116.png" width="11" height="116" alt="" /></td>
-  <td class="tdl">JURASSIC</td>
-</tr>
-<tr>
-  <td class="tdr">24.<br />25.<br /><br /><br />26.</td>
-  <td class="tdl">UPPER TRIAS.<br />MIDDLE TRIAS,<br />&nbsp;&nbsp;&nbsp;&nbsp;or<br />MUSCHELKALK.<br />LOWER TRIAS.</td>
-  <td class="tdc"><img src="images/bracer_86.png" width="14" height="86" alt="" /></td>
-  <td class="tdl">TRIASSIC.</td>
-</tr>
-<tr>
-  <td class="tdr">27.</td>
-  <td class="tdl">PERMIAN,<br />or<br />MAGNESIAN LIMESTONE.</td>
-  <td class="tdc"><img src="images/bracer_32.png" width="11" height="32" alt="" /></td>
-  <td class="tdl">PERMIAN.</td>
-  <td class="tdc" rowspan="5"><img src="images/bracer_232.png" width="11" height="232" alt="" /></td>
-  <td class="tdl" rowspan="5">PRIMARY<br />&nbsp;&nbsp;&nbsp;&nbsp;or<br />PAL&AElig;OZOIC.</td>
-</tr>
-<tr>
-  <td class="tdr">28.<br />29.<br />&nbsp;</td>
-  <td class="tdl">COAL-MEASURES.<br />CARBONIFEROUS<br />&nbsp;&nbsp;LIMESTONE.</td>
-  <td class="tdc"><img src="images/bracer_32.png" width="11" height="32" alt="" /></td>
-  <td class="tdl">CARBONIFEROUS.</td>
-</tr>
-<tr>
-  <td class="tdr">30.<br />31.</td>
-  <td class="tdl">UPPER DEVONIAN.<br />LOWER&nbsp;&nbsp;&nbsp;"</td>
-  <td class="tdc"><img src="images/bracer_32.png" width="11" height="32" alt="" /></td>
-  <td class="tdl">DEVONIAN, or<br />OLD RED SANDSTONE.</td>
-</tr>
-<tr>
-  <td class="tdr">32.<br />33.</td>
-  <td class="tdl">UPPER SILURIAN.<br />LOWER&nbsp;&nbsp;&nbsp;"</td>
-  <td class="tdc"><img src="images/bracer_32.png" width="11" height="32" alt="" /></td>
-  <td class="tdl">SILURIAN.</td>
-</tr>
-<tr>
-  <td class="tdr">34.<br />35.</td>
-  <td class="tdl">UPPER CAMBRIAN.<br />LOWER&nbsp;&nbsp;&nbsp;"</td>
-  <td class="tdc"><img src="images/bracer_32.png" width="11" height="32" alt="" /></td>
-  <td class="tdl">CAMBRIAN.</td>
-</tr>
-</table>
-
-
-<hr class="tb" />
-
-<div class="transnote">
-
-<p class="caption3nb">Transcriber Note</p>
-
-<p>Minor typos corrected. Some images moved to nearest paragraph break.
-A paragraph break was added to page <a href="#Page_74">74</a> and <a href="#Page_105">105</a> to accommodate placement
-of Figures <a href="#fig17">17</a> and <a href="#fig26">26</a> respectively. The missing anchor for the footnote
-on page <a href="#Page_199">199</a> was added.</p>
-
-</div>
-
-
-
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