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+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 #62414 (https://www.gutenberg.org/ebooks/62414)
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-The Project Gutenberg EBook of Geology and Inhabitants of the Ancient World, by 
-Richard Owen
-
-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'll have
-to check the laws of the country where you are located before using this ebook.
-
-Title: Geology and Inhabitants of the Ancient World
-
-Author: Richard Owen
-
-Release Date: June 17, 2020 [EBook #62414]
-
-Language: English
-
-Character set encoding: UTF-8
-
-*** START OF THIS PROJECT GUTENBERG EBOOK GEOLOGY, INHABITANTS OF ANCIENT WORLD ***
-
-
-
-
-Produced by deaurider, Stephen Hutcheson, and the Online
-Distributed Proofreading Team at https://www.pgdp.net (This
-file was produced from images generously made available
-by The Internet Archive)
-
-
-
-
-
-
-    [Illustration: GEOLOGY AND INHABITANTS OF THE ANCIENT WORLD.
-    THE EXTINCT ANIMALS RESTORED BY B. WATERHOUSE HAWKINS. F.G.S. F.L.S.
-    PUBLISHED FOR THE CRYSTAL PALACE LIBRARY, BY BRADBURY & EVANS, 11,
-    BOUVERIE ST.
-    MACLURE & CO. LITH. TO THE QUEEN.]
-
-
-
-
-                        GEOLOGY AND INHABITANTS
-                                 OF THE
-                             ANCIENT WORLD.
-
-
-                              DESCRIBED BY
-                          RICHARD OWEN, F.R.S.
-
-
-            THE ANIMALS CONSTRUCTED BY B. W. HAWKINS, F.G.S.
-
-
-                        CRYSTAL PALACE LIBRARY,
-                                  AND
-             BRADBURY & EVANS, 11, BOUVERIE STREET, LONDON.
-                                 1854.
-
-                          BRADBURY AND EVANS,
-                PRINTERS TO THE CRYSTAL PALACE COMPANY,
-                              WHITEFRIARS.
-
-
-
-
-                               CONTENTS.
-
-
-                                                                    PAGE
-  INTRODUCTION                                                         5
-      THE SECONDARY ISLAND                                             7
-  CHALK FORMATION                                                      9
-      THE MOSASAURUS                                                  10
-      THE PTERODACTYLE                                                11
-  WEALDEN FORMATION                                                   14
-      THE IGUANODON                                                   14
-      THE HYLÆOSAURUS                                                 17
-  OOLITE FORMATION                                                    19
-      THE MEGALOSAURUS                                                19
-      PTERODACTYLES OF THE OOLITE                                     22
-      TELEOSAURUS                                                     22
-  LIAS FORMATION                                                      25
-      ENALIOSAURIA                                                    25
-      THE ICHTHYOSAURUS                                               25
-      ICHTHYOSAURUS PLATYODON                                         29
-      ICHTHYOSAURUS TENUIROSTRIS                                      30
-      ICHTHYOSAURUS COMMUNIS                                          30
-      PLESIOSAURUS                                                    31
-      PLESIOSAURUS MACROCEPHALUS                                      31
-      PLESIOSAURUS DOLICHODEIRUS                                      32
-      PLESIOSAURUS HAWKINSII                                          33
-  NEW RED SANDSTONE                                                   35
-      BATRACHIA                                                       35
-      LABYRINTHODON SALAMANDROIDES                                    36
-      LABYRINTHODON PACHYGNATHUS                                      38
-      DICYNODON                                                       38
-
-    [Illustration: {uncaptioned}]
-
-
-
-
-             GEOLOGY AND INHABITANTS OF THE ANCIENT WORLD.
-
-
-
-
-                             INTRODUCTION.
-
-
-Before entering upon a description of the restorations of the Extinct
-Animals, placed on the Geological Islands in the great Lake, a brief
-account may be premised of the principles and procedures adopted in
-carrying out this attempt to present a view of part of the animal
-creation of former periods in the earth’s history.
-
-Those extinct animals were first selected of which the entire, or nearly
-entire, skeleton had been exhumed in a fossil state. To accurate
-drawings of these skeletons an outline of the form of the entire animal
-was added, according to the proportions and relations of the skin and
-adjacent soft parts to the superficial parts of the skeleton, as yielded
-by those parts in the nearest allied living animals. From such an
-outline of the exterior, Mr. Waterhouse Hawkins prepared at once a
-miniature model form in clay.
-
-This model was rigorously tested in regard to all its proportions with
-those exhibited by the bones and joints of the skeleton of the fossil
-animal, and the required alterations and modifications were successively
-made, after repeated examinations and comparisons, until the result
-proved satisfactory.
-
-The next step was to make a copy in clay of the proof model, of the
-natural size of the extinct animal: the largest known fossil bone, or
-part, of such animal being taken as the standard according to which the
-proportions of the rest of the body were calculated agreeably with those
-of the best preserved and most perfect skeleton. The model of the full
-size of the extinct animal having been thus prepared, and corrected by
-renewed comparisons with the original fossil remains, a mould of it was
-prepared, and a cast taken from this mould, in the material of which the
-restorations, now exposed to view, are composed.
-
-There are some very rare and remarkable extinct animals of which only
-the fossil skull and a few detached bones of the skeleton have been
-discovered: in most of these the restoration has been limited to the
-head, as, for example, in the case of the Mosasaurus; and only in two
-instances—those, viz., of the Labyrinthodon and Dicynodon—has Mr.
-Hawkins taken upon himself the responsibility of adding the trunk to the
-known characters of the head, such addition having been made to
-illustrate the general affinities and nature of the fossil, and the kind
-of limbs required to produce the impressions of the footprints, where
-these have been detected and preserved in the petrified sands of the
-ancient sea-shores trodden by these strange forms of the Reptilian
-class.
-
-With regard to the hair, the scales, the scutes, and other modifications
-of the skin, in some instances the analogy of the nearest allied living
-forms of animals has been the only guide; in a few instances, as in that
-of the Ichthyosaurus, portions of the petrified integument have been
-fortunately preserved, and have guided the artist most satisfactorily in
-the restoration of the skin and soft parts of the fins; in the case of
-other reptiles, the bony plates, spines, and scutes have been discovered
-in a fossil state, and have been scrupulously copied in the attempt to
-restore the peculiar tegumentary features of the extinct reptiles, as
-_e.g._ in the Hylæosaurus.
-
-In every stage of this difficult, and by some it may be thought,
-perhaps, too bold, attempt to reproduce and present to human gaze and
-contemplation the forms of animal life that have successively flourished
-during former geological phases of time, and have passed away long ages
-prior to the creation of man, the writer of the following brief notice
-of the nature and affinities of the animals so restored feels it a duty,
-as it is a high gratification to him, to testify to the intelligence,
-zeal, and peculiar artistic skill by which his ideas and suggestions
-have been realised and carried out by the talented director of the
-fossil department, Mr. Waterhouse Hawkins. Without the combination of
-science, art, and manual skill, happily combined in that gentleman, the
-present department of the Instructive Illustrations at the Crystal
-Palace could not have been realised.
-
-
-                         The Secondary Island.
-
-The most cursory observation of the surface of the earth shows that it
-is composed of distinct substances, such as clay, chalk, lias,
-limestone, coal, slate, sandstone, &c.; and a study of such substances,
-their relative position and contents, has led to the conviction that
-these external parts of the earth have acquired their present condition
-gradually, under a variety of circumstances, and at successive periods,
-during which many races of animated beings, distinct both from those of
-other periods and from those now living, have successively peopled the
-land and the waters; the remains of these creatures being found buried
-in many of the layers or masses of mineral substances, forming the crust
-of the earth.
-
-The object of the Islands in the Geological Lake is to demonstrate the
-order of succession, or superposition, of these layers or strata, and to
-exhibit, restored in form and bulk, as when they lived, the most
-remarkable and characteristic of the extinct animals and plants of each
-stratum.
-
-The series of mineral substances and strata represented in the smaller
-island have been called by geologists “secondary formations,” because
-they lie between an older series termed “primary,” and a newer series
-termed “tertiary:” the term “formation” meaning any assemblage of rocks
-or layers which have some character in common, whether of origin, age,
-or composition.[1]
-
-Following the secondary formations as they descend in the earth, or
-succeed each other from above downwards, and as they are shown,
-obliquely tilted up out of their original level position from left to
-right, in the Secondary Island, they consist: 1st, of the Chalk or
-Cretaceous group; 2nd, the Wealden; 3rd, the Oolite; 4th, the Lias; and
-5th, the New Red Sandstone.
-
-
-
-
-                               THE CHALK.
-
-
-The chalk formations or “cretaceous group of beds” include strata of
-various mineral substances; but the white chalk which forms the cliffs
-of Dover and the adjoining coasts, and the downs and chalk quarries of
-the South of England, is the chief and most characteristic formation.
-Chalk, immense as are the masses in which it has been deposited, owes
-its origin to living actions; every particle of it once circulated in
-the blood or vital juices of certain species of animals, or of a few
-plants, that lived in the seas of the secondary period of geological
-time. White chalk consists of carbonate of lime, and is the result of
-the decomposition chiefly of coral-animals (_Madrepores_, _Millepores_,
-_Flustra_, _Cellepora_, &c.), of sea-urchins (_Echini_), and of
-shell-fishes (_Testacea_), and of the mechanical reduction, pounding,
-and grinding of their shells. Such chalk-forming beings still exist, and
-continue their operations in various parts of the ocean, especially in
-the construction of coral reefs and islands.
-
-Every river that traverses a limestone district carries into the sea a
-certain proportion of caustic lime in solution: the ill effects of the
-accumulation of this mineral are neutralised by the power allotted to
-the above-cited sea-animals to absorb the lime, combine it with
-carbonic-acid, and precipitate or deposit it in the condition of
-insoluble chalk, or carbonate of lime.
-
-The entire cretaceous series includes from above downwards:
-
-  Maestricht beds of yellowish chalk.
-  Upper white chalk with flints.
-  Lower white chalk without flints.
-  Upper green-sand.
-  Gault.
-  Lower green-sand and Kentish rag.
-
-The best known and most characteristic large extinct animal of the chalk
-formations is chiefly found in the uppermost and most recent division,
-and is called
-
-
-                         No. 1.—The Mosasaurus.
-             (_Mosasaurus Hoffmanni_, Hoffmann’s Mosasaur.)
-
-Of this animal almost the entire skull has been discovered, but not
-sufficient of the rest of the skeleton to guide to a complete
-restoration of the animal. The head only, therefore, is shown, of the
-natural size, at the left extremity of the Secondary Island.
-
-The first or generic name of this animal is derived from the locality,
-Maestricht, on the river Meuse (Lat. _Mosa_), in Germany, where its
-remains have been chiefly discovered, and from the Greek word _sauros_,
-a lizard, to which tribe of animals it belongs. Its second name refers
-to its discoverer, Dr. Hoffmann, of Maestricht, surgeon to the forces
-quartered in that town in 1780. This gentleman had occupied his leisure
-by the collection of the fossils from the quarries which were then
-worked to a great extent at Maestricht for a kind of yellowish stone of
-a chalky nature, and belonging to the most recent of the secondary class
-of formations in geology. In one of the great subterraneous quarries or
-galleries, about five hundred paces from the entrance, and ninety feet
-below the surface, the quarrymen exposed part of the skull of the
-Mosasaurus, in a block of stone which they were engaged in detaching. On
-this discovery they suspended their work, and went to inform Dr.
-Hoffmann, who, on arriving at the spot, directed the operations of the
-men, so that they worked out the block without injury to the fossil; and
-the doctor then, with his own hands, cleared away the matrix and exposed
-the jaws and teeth, casts of which are shown in the cretaceous rock of
-the Island.
-
-This fine specimen, which Hoffmann had added with so much pains and care
-to his collection, soon, however, became a source of chagrin to him. One
-of the canons of the cathedral at Maestricht, who owned the surface of
-the soil beneath which was the quarry whence the fossil had been
-obtained, when the fame of the specimen reached him, pleaded certain
-feudal rights to it. Hoffmann resisted, and the canon went to law. The
-Chapter supported the canon, and the decree ultimately went against the
-poor surgeon, who lost both his specimen and his money—being made to pay
-the costs of the action. The canon did not, however, long enjoy
-possession of the unique specimen. When the French army bombarded
-Maestricht in 1795, directions were given to spare the suburb in which
-the famous fossil was known to be preserved; and after the capitulation
-of the town it was seized and borne off in triumph. The specimen has
-since remained in the museum of the Garden of Plants at Paris.
-
-This skull of the Mosasaurus measures four and a half feet long and two
-and a half feet wide. The large pointed teeth on the jaws are very
-conspicuous; but, in addition to these, the gigantic reptile had teeth
-on a bone of the roof of the mouth (the pterygoid), like some of the
-modern lizards. The entire length of the animal has been estimated at
-about thirty feet. It is conjectured to have been able to swim well, and
-to have frequented the sea in quest of prey: its dentition shows its
-predatory and carnivorous character, and its remains have hitherto been
-met with exclusively in the chalk formations. Besides the specimens from
-St. Peter’s Mount, Maestricht, of which the above-described skull is the
-most remarkable, fossil bones and teeth of the Mosasaurus have been
-found in the chalk of Kent, and in the green-sand—a member of the
-cretaceous series—in New Jersey, United States of America. No animal
-like the Mosasaurus is now known to exist.
-
-
-                     Nos. 2 & 3.—The Pterodactyle.
-
-Nos. 2 and 3 are restorations of a flying reptile or dragon, called
-Pterodactyle, from the Greek words _pteron_, a wing, and _dactylos_, a
-finger; because the wings are mainly supported by the outer finger,
-enormously lengthened and of proportionate strength, which,
-nevertheless, answers to the little finger of the human hand. The wings
-consisted of folds of skin, like the leather wings of the bat; and the
-Pterodactyles were covered with scales, not with feathers: the head,
-though somewhat resembling in shape that of a bird, and supported on a
-long and slender neck, was provided with long jaws, armed with teeth;
-and altogether the structure of these extinct members of the reptilian
-class is such as to rank them amongst the most extraordinary of all the
-creatures yet discovered in the ruins of the ancient earth.
-
-Remains of the Pterodactyle were first discovered, in 1784, by Prof.
-Collini, in the lithographic slate of Aichstadt, in Germany, which slate
-is a member of the oolitic formations: the species so discovered was at
-first mistaken for a bird, and afterwards supposed to be a large kind of
-bat, but had its true reptilian nature demonstrated by Baron Cuvier, by
-whom it was called the _Pterodactylus longirostris_, or Long-beaked
-Pterodactyle: it was about the size of a curlew.
-
-A somewhat larger species—the _Pterodactylus macronyx_, or Long-clawed
-Pterodactyle—was subsequently discovered by the Rev. Dr. Buckland, in
-the lias formation of Lyme Regis: its wings, when expanded, must have
-been about four feet from tip to tip. The smallest known species—the
-_Pterodactylus brevirostris_, or Short-beaked Pterodactyle—was
-discovered in the lithographic slate at Solenhofen, Germany, and has
-been described by Professor Soemmering.
-
-Remains of the largest known kinds of Pterodactyle have been discovered
-more recently in chalk-pits, at Burham, in Kent. The skull of one of
-these species—the _Pterodactylus Cuvieri_—was about twenty inches in
-length, and the animal was upborne on an expanse of wing of probably not
-less than eighteen feet from tip to tip. The restored specimen of this
-species is numbered 3.
-
-A second very large kind of Pterodactyle—the _Pterodactylus
-compressirostris_, or Thin-beaked Pterodactyle—had a head from fourteen
-to sixteen inches in length, and an expanse of wing, from tip to tip, of
-fifteen feet. The remains of this species have also been found in the
-chalk of Kent. From the same formation and locality a third large kind
-of Pterodactyle, although inferior in size to the two foregoing, has
-been discovered, called the _Pterodactylus conirostris_, and also—until
-the foregoing larger kinds were discovered—_Pterodactylus giganteus_.
-The long, sharp, conical teeth in the jaws of the Pterodactyles indicate
-them to have preyed upon other living animals; their eyes were large, as
-if to enable them to fly by night. From their wings projected fingers,
-terminated by long curved claws, and forming a powerful paw, wherewith
-the animal was enabled to creep and climb, or suspend itself from trees.
-It is probable, also, that the Pterodactyles had the power of swimming;
-some kinds, _e.g._, the _Pterodactylus Gemmingi_, had a long and stiff
-tail. “Thus,” writes Dr. Buckland, “like Milton’s Fiend, all qualified
-for all services and all elements, the creature was a fit companion for
-the kindred reptiles that swarmed in the seas, or crawled on the shores
-of a turbulent planet.
-
-                      ‘The Fiend,
-  O’er bog, or steep, through strait, rough, dense, or rare,
-  With head, hands, wings, or feet, pursues his way,
-  And swims, or sinks, or wades, or creeps, or flies.’
-                                              _Paradise Lost_, Book II.”
-
-
-
-
-                              THE WEALDEN.
-
-
-The Wealden is a mass of petrified clay, sand, and sandstone, deposited
-from the fresh or brackish water of probably some great estuary, and
-extending over parts of the counties of Kent, Surrey, and Sussex. This
-fresh-water formation derives its name from the “Weald” or “Wold” of
-Kent, where it was first geologically studied, and where it is exposed
-by the removal of the chalk, which covers or overlies it, in other parts
-of the South of England.
-
-The Wealden is divided into three groups of strata, which succeed each
-other in the following descending order:—
-
-1st. Weald Clay, sometimes including thin beds of sand and shelly
-limestone, forming beds of from 140 to 280 feet in depth or vertical
-thickness.
-
-2nd. Hastings Sand, in which occur some clays and calcareous grits,
-forming beds of from 400 to 500 feet in depth.
-
-3rd. Purbeck Beds, so called from being exposed chiefly in the Isle of
-Purbeck, off the coast of Dorsetshire, where it forms the quarries of
-the limestone for which Purbeck is famous: the beds of limestones and
-marls are from 150 to 200 feet in depth.
-
-
-                       Nos. 4 & 5.—The Iguanodon.
-                   (_Iguanodon Mantelli_, Conybeare.)
-
-One afternoon, in the spring of 1822, an accomplished lady, the wife of
-a medical practitioner, at Lewes, in Sussex, walking along the
-picturesque paths of Tilgate Forest, discovered some objects in the
-coarse conglomerate rock of the quarries of that locality, which, from
-their peculiar form and substance, she thought would be interesting to
-her husband, whose attention had been directed, during his professional
-drives, to the geology and fossils of his neighbourhood.
-
-The lady was Mrs. Mantell: her husband, the subsequently distinguished
-geologist, Dr. Mantell,[2] perceived that the fossils discovered by his
-wife were teeth, and teeth of a large and unknown animal.
-
-“As these teeth,” writes the doctor, “were distinct from any that had
-previously come under my notice, I felt anxious to submit them to the
-examination of persons whose knowledge and means of observation were
-more extensive than my own. I therefore transmitted specimens to some of
-the most eminent naturalists in this country and on the continent. But
-although my communications were acknowledged with that candour and
-liberality which constantly characterise the intercourse of scientific
-men, yet no light was thrown upon the subject, except by the illustrious
-Baron Cuvier, whose opinions will best appear by the following extract
-from the correspondence with which he honoured me:—
-
-“‘These teeth are certainly unknown to me; they are not from a
-carnivorous animal, and yet I believe that they belong, from their
-slight degree of complexity, the notching of their margins, and the thin
-coat of enamel that covers them, to the order of reptiles.
-
-“‘May we not here have a new animal!—a herbivorous reptile? And, just as
-at the present time with regard to mammals (land-quadrupeds with warm
-blood), it is amongst the herbivorous that we find the largest species,
-so also with the reptiles at the remote period when they were the sole
-terrestrial animals, might not the largest amongst them have been
-nourished by vegetables?
-
-“‘Some of the great bones which you possess may belong to this animal,
-which, up to the present time, is unique in its kind. Time will confirm
-or confute this idea, since it is impossible but that one day a part of
-the skeleton, united to portions of jaws with the teeth, will be
-discovered.’”
-
-“These remarks,” Dr. Mantell proceeds to say, “induced me to pursue my
-investigations with increased assiduity, but hitherto they have not been
-attended with the desired success, no connected portion of the skeleton
-having been discovered. Among the specimens lately connected, some,
-however, were so perfect, that I resolved to avail myself of the
-obliging offer of Mr. Clift (to whose kindness and liberality I hold
-myself particularly indebted), to assist me in comparing the fossil
-teeth with those of the recent Lacertæ in the Museum of the Royal
-College of Surgeons. The result of this examination proved highly
-satisfactory, for in an Iguana which Mr. Stutchbury had prepared to
-present to the College, we discovered teeth possessing the form and
-structure of the fossil specimens.” (Phil. Trans., 1825, p. 180.) And he
-afterwards adds:—“The name Iguanodon, derived from the form of the
-teeth, (and which I have adopted at the suggestion of the Rev. W.
-Conybeare,) will not, it is presumed, be deemed objectionable.” (Ib. p.
-184.)
-
-The further discovery which Baron Cuvier’s prophetic glance saw buried
-in the womb of time, and the birth of which verified his conjecture that
-some of the great bones collected by Dr. Mantell belonged to the same
-animal as the teeth, was made by Mr. W. H. Bensted, of Maidstone, the
-proprietor of a stone-quarry of the Shanklin-sand formation, in the
-close vicinity of that town. This gentleman had his attention one day,
-in May, 1834, called by his workmen to what they supposed to be
-petrified wood in some pieces of stone which they had been blasting. He
-perceived that what they supposed to be wood was fossil bone, and with a
-zeal and care which have always characterised his endeavours to secure
-for science any evidence of fossil remains in his quarry, he immediately
-resorted to the spot. He found that the bore or blast by which these
-remains were brought to light, had been inserted into the centre of the
-specimen, so that the mass of stone containing it had been shattered
-into many pieces, some of which were blown into the adjoining fields.
-All these pieces he had carefully collected, and proceeding with equal
-ardour and success to the removal of the matrix from the fossils, he
-succeeded after a month’s labour in exposing them to view, and in
-fitting the fragments to their proper places.
-
-This specimen is now in the British Museum.
-
-Many other specimens of detached bones, including vertebræ or parts of
-the back-bone, especially that part resting on the hind limbs, and
-called the “pelvis,” bones of the limbs, down to those that supported
-the claws, together with jaws and teeth, which have since been
-successively discovered, have enabled anatomists to reconstruct the
-extinct Iguanodon, and have proved it to have been a herbivorous
-reptile, of colossal dimensions, analogous to the diminutive Iguana in
-the form of its teeth, but belonging to a distinct and higher order of
-reptiles, more akin to the crocodiles. The same rich materials,
-selecting the largest of the bones as a standard, have served for the
-present restorations (Nos. 4 and 5) of the animal, as when alive: all
-the parts being kept in just proportion to the standard bones, and the
-whole being thus brought to the following dimensions:—
-
-  Total length, from the nose or muzzle      34  feet     9  inches.
-      to the end of the tail
-  Greatest girth of the trunk                20   ”       5     ”
-  Length of the head                          3   ”       6     ”
-  Length of the tail                         15   ”       6     ”
-
-The character of the scales is conjectural, and the horn more than
-doubtful, though attributed to the Iguanodon by Dr. Mantell and most
-geologists.
-
-This animal probably lived near estuaries and rivers, and may have
-derived its food from the _Clathrariæ_, _Zamiæ_, _Cycades_, and other
-extinct trees, of which the fossil remains abound in the same formations
-as those yielding the bones and teeth of the Iguanodon.
-
-These formations are the Wealden and the Neocomian or green-sand: the
-localities in which the remains of the Iguanodon have been principally
-found, are the Weald of Kent and Sussex: Horsham, in Sussex; Maidstone,
-in Kent; and the Isle of Wight.
-
-Restorations of the _Cycas_ and _Zamia_ are placed, with the Iguanodon,
-on the Wealden division of the Secondary Island.
-
-
-            No. 6.—The Hylæosaurus. (_Hylæosaurus Owenii._)
-
-The animal, so called by its discoverer, Dr. Mantell, belongs to the
-same highly organised order of the class of reptiles as the Iguanodon,
-that, viz., which was characterised by a longer and stronger sacrum and
-pelvis, and by larger limbs than the reptiles of the present day
-possess; they were accordingly better fitted for progression on dry
-land, and probably carried their body higher and more freely above the
-surface of the ground.
-
-Visiting, in the summer of 1832, a quarry in Tilgate Forest, Dr. Mantell
-had his attention attracted to some fragments of a large mass of stone,
-which had recently been broken up, and which exhibited traces of
-numerous pieces of bone. The portions of the rock, which admitted of
-being restored together, were cemented, and then the rock was chiselled
-from the fossil bones, which consisted of part of the back-bone or
-vertebral column, some ribs, the shoulder bones called scapula and
-coracoid, and numerous long angular bones or spines which seemed to have
-supported a lofty serrated or jagged crest, extended along the middle of
-the back, as in some of the small existing lizards, _e.g._, the Iguana:
-cut No. 6. Many small dermal bones were also found, which indicate the
-Hylæosaurus to have been covered by hard tuberculate scales, like those
-of some of the Australian lizards, called _Cyclodus_.
-
-This character of the skin, and the serrated crest, are accurately given
-in the restoration, the major part of which, however, is necessarily at
-present conjectural, and carried out according to the general analogies
-of the saurian form. The size is indicated with more certainty according
-to the proportions of the known vertebræ and other bones.
-
-    [Illustration: No. 6. Diagram of the Slab containing the Bones of
-    Hylæosaurus.]
-
-
-
-
-                              THE OOLITE.
-
-
-The division of the secondary formations, called “Oolite,” takes its
-name from the most characteristic of its constituents, which is a
-variety of limestone composed of numerous small grains, resembling the
-“roe” or eggs of a fish, whence the term, (from the Greek _oon_, an egg,
-_lithos_, a stone). The oolite, however, includes a great series of beds
-of marine origin, which, with an average breadth of thirty miles, extend
-across England, from Yorkshire in the north-east to Dorsetshire in the
-south-west.
-
-The oolite series lies below the Wealden, and where this is wanting,
-below the chalk, and consists of the following subdivisions, succeeding
-each other in the descending order:—
-
-                       Oolite.
-
-  Upper.    Portland stone and sand.
-            Kimmeridge clay.
-
-  Middle.   Coral rag.
-            Oxford clay.
-
-  Lower.    Cornbrash and forest marble.
-            Great oolite and Stonesfield slate.
-            Fuller’s earth.
-            Inferior oolite.
-
-Upon the portion of the island representing the oolite series, the most
-conspicuous of the restored animals of that period is—
-
-
-                        No. 7.—The Megalosaurus.
-
-The Megalosaurus, as its name implies (compounded by its discoverer, Dr.
-Buckland, from the Greek _megas_, great, and _sauros_, lizard), was a
-lizard-like reptile of great size, “of which,” writes Dr. Buckland,
-“although no skeleton has yet been found entire, so many perfect bones
-and teeth have been discovered in the same quarries, that we are nearly
-as well acquainted with the form and dimensions of the limbs as if they
-had been found together in a single block of stone.”
-
-The restoration of the animal has been accordingly effected, agreeably
-with the proportions of the known parts of the skeleton, and in harmony
-with the general characters of the order of reptiles to which the
-Megalosaurus belonged. This order—the Dinosauria (Gr. _deinos_, terribly
-great _sauros_, a lizard)—is that to which the two foregoing huge
-reptiles of the Wealden series belong, viz., the Iguanodon and
-Hylæosaurus, and is characterised by the modifications already
-mentioned, that fitted them for more efficient progression upon dry
-land. The Iguanodon represented the herbivorous section of the order,
-the Hylæosaurus appears, from its teeth, to have been a mixed feeder,
-but the Megalosaurus was decidedly carnivorous, and, probably, waged a
-deadly war against its less destructively endowed congeners and
-contemporaries.
-
-    [Illustration: No. 7. Megalosaurus.]
-
-Baron Cuvier estimated the Megalosaurus to have been about fifty feet in
-length; my own calculations, founded on more complete evidence than had
-been at the Baron’s command, reduce its size to about thirty-five
-feet:[3] but with the superior proportional height and capacity of
-trunk, as contrasted with the largest existing crocodiles, even that
-length gives a most formidable character to this extinct predatory
-reptile.
-
-As the thigh-bone (_femur_) and leg-bone (_tibia_) measure each nearly
-three feet, the entire hind-leg, allowing for the cartilages of the
-joints, must have attained a length of two yards: a bone of the foot
-(metatarsal) thirteen inches long, indicates that part, with the toes
-and claws entire, to have been at least three feet in length. The form
-of the teeth shows the Megalosaurus to have been strictly carnivorous,
-and viewed as instruments for providing food for so enormous a reptile,
-the teeth were fearfully fitted to the destructive office for which they
-were designed. They have compressed conical sharp-pointed crowns, with
-cutting and finely serrated anterior and posterior edges; they appear
-straight, as seen when they had just protruded from the socket, but
-become bent slightly backwards in the progress of growth, and the fore
-part of the crown, below the summit, becomes thick and convex.
-
-A minute and interesting description of these teeth will be found in Dr.
-Buckland’s admirable “Bridgewater Treatise” (vol. i. p. 238), from which
-he concludes that the teeth of the Megalosaurus present “a combination
-of contrivances analogous to those which human ingenuity has adopted in
-the construction of the knife, the sabre, and the saw.” The fossils
-which brought to light the former existence of this most formidable
-reptile, were discovered in 1823, in the oolitic slate of Stonesfield,
-near Oxford, and were described by Dr. Buckland, in the volume of the
-“Geological Transactions” for the year 1824.
-
-Remains of the Megalosaurus have since been discovered in the “Bath
-oolite,” which is immediately below the Stonesfield slate, and in the
-“Cornbrash,” which lies above it. Vertebræ, teeth, and some bones of the
-extremities have been discovered in the Wealden of Tilgate Forest, Kent,
-and in the ferruginous sand, of the same age, near Cuckfield, in Sussex.
-Remains of the Megalosaurus also occur in the Purbeck limestone at
-Swanage Bay, and in the oolite in the neighbourhood of Malton, in
-Yorkshire.
-
-Mr. Waterhouse Hawkins’s restoration, according to the proportions
-calculated from the largest portions of fossil bones of the Megalosaurus
-hitherto obtained, yields a total length of the animal, from the muzzle
-to the end of the tail, of thirty-seven feet; the length of the head
-being five feet, the length of the tail fifteen feet; and the greatest
-girth of the body twenty-two feet six inches.
-
-
-                Nos. 8 & 9.—Pterodactyles of the Oolite.
-
-To the right of the Hylæosaurus, on the rock representing the greater
-oolite formation, are restorations of species of Pterodactyle
-(_Pterodactylus Bucklandi_, No. 9), smaller than and distinct from those
-of the chalk formations. The remains of Buckland’s Pterodactyle are
-found pretty abundantly in the oolitic slate of Stonesfield, near
-Oxford.
-
-
-                       Nos. 10 & 11.—Teleosaurus.
-
-On the shore beneath the overhanging cliff of oolitic rock are two
-restorations, Nos. 10 and 11, of a large extinct kind of crocodile, to
-which the long and slender-jawed crocodile of the Ganges, called
-“Gaviàl” or “Gharriàl” by the Hindoos, offers the nearest resemblance at
-the present day. Remains of the ancient extinct British gavials have
-been found in most of the localities where the oolitic formations occur,
-and very abundantly in the lias cliffs near Whitby, in Yorkshire. The
-name Teleosaurus (_telos_, the end, _sauros_, a lizard), was compounded
-from the Greek by Professor Geoffroy St. Hilaire, for a species of these
-fossil gavials, found by him in the oolite stone at Caen, in Normandy,
-and has reference to his belief that they formed one—the
-earliest—extreme of the crocodilian series, as this series has been
-successively developed in the course of time on our planet.
-
-The jaws are armed with numerous long, slender, sharp-pointed, slightly
-curved teeth, indicating that they preyed on fishes, and the young or
-weaker individuals of co-existing reptiles. The nostril is situated more
-at the end of the upper jaw than in the modern gavial: the fore-limbs
-are shorter, and the hind ones longer and stronger than in the gavial,
-which indicates that the Teleosaur was a better swimmer; the vertebræ or
-bones of the back are united by slightly concave surfaces, not
-interlocked by cup and ball joints as in the modern crocodiles, whence
-it would seem that the Teleosaur lived more habitually in the water, and
-less seldom moved on dry land; and, as its fossil remains have been
-hitherto found only in the sedimentary deposits from the sea, it may be
-inferred that it was more strictly marine than the crocodile of the
-Ganges.
-
-The first specimen of a Teleosaur that was brought to light was from the
-“alum-schale” which forms one layer of the lofty lias cliffs of the
-Yorkshire coast, near Whitby. A brief description, and figures, of this
-incomplete fossil skeleton were published by Messrs. Wooller and
-Chapman, in separate communications, in the 50th volume of the
-“Philosophical Transactions,” in 1758. Captain Chapman observes, “it
-seems to have been an alligator;” and Mr. Wooller thought “it resembled
-in every respect the Gangetic gavial.” Thus, nearly a century ago, the
-true nature of the fossil was almost rightly understood, and various
-were the theories then broached to account for the occurrence of a
-supposed Gangetic reptile in a petrified state in the cliffs of
-Yorkshire. It has required the subsequent progress of comparative
-anatomy to determine, as by the characters above defined, the essential
-distinction of the Teleosaur from all known existing forms of
-crocodilian reptiles.
-
-Very abundant remains, and several species, of the extinct genus have
-been subsequently discovered: but always in the oolitic and liassic
-formations of the secondary series of rocks.
-
-The oolitic group of rocks are very rich in remains of both plants and
-animals: many reptiles of genera and species distinct from those here
-restored have been recognised and determined by portions of the
-skeleton. Extremely numerous are the remains of fishes, chiefly of an
-almost extinct order (_Ganoidei_), characterised by hard, shining,
-enamelled scales. But the most remarkable fossils are those which
-indisputably prove the existence, during the period of the “Great” or
-“Lower Oolite,” of insectivorous and marsupial mammalia—_i.e._, of
-warm-blood quadrupeds, which, like the shrew or hedgehog, fed on
-insects, and, like the opossum, had a pouch for the transport of the
-young. The lower jaw of one of these earliest known examples of the
-mammalian class, found in the Stonesfield slate, near Oxford, may be
-seen at the British Museum, to which it was presented by J. W. Broderip,
-Esq., F.R.S., by whom it was described in the “Zoological Journal,” vol.
-iii., p. 408.
-
-It is interesting to observe that the marsupial genera, to which the
-above fossil quadruped, called _Phascolotherium_, was most nearly
-allied, are now confined to New South Wales and Van Diemen’s Land; since
-it is in the Australian seas that is found the _Cestracion_, a
-cartilaginous fish which has teeth that are most like those fossil teeth
-called _Acrodus_ and _Psammodus_, so common in the oolite. In the same
-Australian seas, also, near the shore, the beautiful shell-fish called
-_Trigonia_ is found living, of which genus many fossil species occur in
-the Stonesfield slate. Moreover, the Araucarian pines are now abundant,
-together with ferns, in Australia, as they were in Europe in the oolitic
-period.
-
-
-
-
-                               THE LIAS.
-
-
-“Lias” is an English provincial name adopted in geology, and applied to
-a formation of limestone, marl, and petrified clay, which forms the base
-of the oolite, or immediately underlies that division of secondary
-rocks. The lias has been traced throughout a great part of Europe,
-forming beds of a thickness varying from 500 to 1000 feet of the
-above-mentioned substances, which have been gradually deposited from a
-sea of corresponding extent and direction. The lias abounds with marine
-shells of extinct species, and with remains of fishes that were clad
-with large and hard shining scales. Of the higher or air-breathing
-animals of that period, the most characteristic were the
-
-
-                             Enaliosauria.
-
-The creatures called Enaliosauria or Sea-lizards (from the Greek
-_enalios_, of the sea, and _sauros_, lizard), were vertebrate animals,
-or had back bones, breathed the air like land quadrupeds, but were
-cold-blooded, or of a low temperature, like crocodiles and other
-reptiles. The proof that the Enaliosaurs respired atmospheric air
-immediately, and did not breathe water by means of gills like fishes, is
-afforded by the absence of the bony framework of the gill apparatus, and
-by the presence, position, and structure of the air passages leading
-from the nostrils, and also by the bony mechanism of the capacious chest
-or thoracic-abdominal cavity: all of which characters have been
-demonstrated by their fossil skeletons. With these characters the
-Sea-lizards combined the presence of two pairs of limbs shaped like
-fins, and adapted for swimming.
-
-The Enaliosauria offer two principal modifications of their anatomical,
-and especially their bony, structure, of which the two kinds grouped
-together under the respective names of Ichthyosaurus and Plesiosaurus
-are the examples.
-
-
-                           The Ichthyosaurus.
-
-The genus Ichthyosaurus includes many species: of which three of the
-best known and most remarkable have been selected for restoration to
-illustrate this most singular of the extinct forms of animal life.
-
-The name (from the Greek _ichthys_, a fish, and _sauros_, a lizard)
-indicates the closer affinity of the Ichthyosaur, as compared with the
-Plesiosaur, to the class of fishes. The Ichthyosaurs are remarkable for
-the shortness of the neck and the equality of the width of the back of
-the head with the front of the chest, impressing the observer of the
-fossil skeleton with a conviction that the ancient animal must have
-resembled the whale tribe and the fishes in the absence of any
-intervening constriction or “neck.”
-
-This close approximation in the Ichthyosaurs to the form of the most
-strictly aquatic back-boned (vertebrate) animals of the existing
-creation is accompanied by an important modification of the surfaces
-forming the joints of the back-bone, each of which surfaces is hollow,
-leading to the inference that they were originally connected together by
-an elastic bag, or “capsule,” filled with fluid—a structure which
-prevails in the class of fishes, but not in any of the whale or porpoise
-tribe, nor in any, save a few of the very lowest and most fish-like, of
-the existing reptiles.
-
-With the above modifications of the head, trunk, and limbs, in relation
-to swimming, there co-exist corresponding modifications of the tail. The
-bones of this part are much more numerous than in the Plesiosaurs, and
-the entire tail is consequently longer; but it does not show any of
-those modifications that characterise the bony support of the tail in
-fishes. The numerous “caudal vertebræ” of the Ichthyosaurus gradually
-decrease in size to the end of the tail, where they assume a compressed
-form, or are flattened from side to side, and thus the tail instead of
-being short and broad, as in fishes, is lengthened out as in crocodiles.
-
-The very frequent occurrence of a fracture of the tail, about one fourth
-of the way from its extremity, in well-preserved and entire fossil
-skeletons, is owing to that proportion of the end of the tail having
-supported a tail-fin. The only evidence which the fossil skeleton of a
-whale would yield of the powerful horizontal tail-fin characteristic of
-the living animal, is the depressed or horizontally flattened form of
-the bones supporting such fin. It is inferred, therefore, from the
-corresponding bones of the Ichthyosaurus being flattened from side to
-side, that it possessed a tegumentary tail-fin expanded in the vertical
-direction. The shape of a fin composed of such perishable material is of
-course conjectural, but from analogies, not necessary here to further
-enlarge upon, it was probably like, or nearly like, that which the able
-artist engaged in the restoration of the entire form of the animal has
-given to it. Thus, in the construction of the principal swimming-organ
-of the Ichthyosaurus we may trace, as in other parts of its structure, a
-combination of mammalian (beast-like), saurian (lizard-like), and
-piscine (fish-like) peculiarities. In its great length and gradual
-diminution we perceive its saurian character; the tegumentary nature of
-the fin, unsustained by bony fin-rays, bespeaks its affinity to the same
-part in the mammalian whales and porpoises; whilst its vertical position
-makes it closely resemble the tail-fin of the fish.
-
-The horizontality of the tail-fin of the whale tribe is essentially
-connected with their necessities as warm-blooded animals breathing
-atmospheric air; without this means of displacing a mass of water in the
-vertical direction, the head of the whale could not be brought with the
-required rapidity to the surface to respire; but the Ichthyosaurs, not
-being warm-blooded, or quick breathers, would not need to bring their
-head to the surface so frequently, or so rapidly, as the whale; and,
-moreover, a compensation for the want of horizontality of their tail-fin
-was provided by the addition of a pair of hind-paddles, which are not
-present in the whale tribe. The vertical fin was a more efficient organ
-in the rapid cleaving of the liquid element, when the Ichthyosaurs were
-in pursuit of their prey, or escaping from an enemy.
-
-That the Ichthyosaurs occasionally sought the shores, crawled on the
-strand, and basked in the sunshine, may be inferred from the bony
-structure connected with their fore-fins, which does not exist in any
-porpoise, dolphin, grampus, or whale; and for want of which, chiefly,
-those warm-blooded, air-breathing, marine animals are so helpless when
-left high and dry on the sands: the structure in question in the
-Ichthyosaur is a strong osseous arch, inverted and spanning across
-beneath the chest from one shoulder-joint to the other; and what is most
-remarkable in the structure of this “scapular” arch, as it is called,
-is, that it closely resembles, in the number, shape, and disposition of
-its bones, the same part in the singular aquatic mammalian quadruped of
-Australia, called _Ornithorhynchus_, _Platypus_, and Duck-mole. The
-Ichthyosaurs, when so visiting the shore, either for sleep, or
-procreation, would lie, or crawl prostrate, or with the belly resting or
-dragging on the ground.
-
-The most extraordinary feature of the head was the enormous magnitude of
-the eye; and from the quantity of light admitted by the expanded pupil
-it must have possessed great powers of vision, especially in the dusk.
-It is not uncommon to find in front of the orbit (cavity for the eye),
-in fossil skulls, a circular series of petrified thin bony plates,
-ranged round a central aperture, where the pupil of the eye was placed.
-The eyes of many fishes are defended by a bony covering consisting of
-two pieces; but a compound circle of overlapping plates is now found
-only in the eyes of turtles, tortoises, lizards, and birds. This curious
-apparatus of bony plates would aid in protecting the eyeball from the
-waves of the sea when the Ichthyosaurus rose to the surface, and from
-the pressure of the dense element when it dived to great depths; and
-they show, writes Dr. Buckland,[4] “that the enormous eye, of which they
-formed the front, was an optical instrument of varied and prodigious
-power, enabling the Ichthyosaurus to descry its prey at great or little
-distances, in the obscurity of night, and in the depths of the sea.”
-
-Of no extinct reptile are the materials for a complete and exact
-restoration more abundant and satisfactory than of the Ichthyosaurus;
-they plainly show that its general external figure must have been that
-of a huge predatory abdominal fish, with a longer tail, and a smaller
-tail-fin: scale-less, moreover, and covered by a smooth, or finely
-wrinkled skin analogous to that of the whale tribe.
-
-The mouth was wide, and the jaws long, and armed with numerous pointed
-teeth, indicative of a predatory and carnivorous nature in all the
-species; but these differed from one another in regard to the relative
-strength of the jaws, and the relative size and length of the teeth.
-
-Masses of masticated bones and scales of extinct fishes, that lived in
-the same seas and at the same period as the Ichthyosaurus, have been
-found under the ribs of fossil specimens, in the situation where the
-stomach of the animal was placed; smaller, harder, and more digested
-masses, containing also fish-bones and scales have been found, bearing
-the impression of the structure of the internal surface of the intestine
-of the great predatory sea-lizard. These digested masses are called
-“coprolites.”
-
-In tracing the evidences of creative power from the earlier to the later
-formations of the earth’s crust, remains of the Ichthyosaurus are first
-found in the lower lias, and occur, more or less abundantly, through all
-the superincumbent secondary strata up to, and inclusive of, the chalk
-formations. They are most numerous in the lias and oolite, and the
-largest and most characteristic species have been found in these
-formations.
-
-
-                    No. 12.—Ichthyosaurus platyodon.
-
-This most gigantic species, so called on account of the crown of the
-tooth being more flattened than in other species, and having sharp
-edges, as well as a sharp point, was first discovered in the lias of
-Lyme Regis, in Dorsetshire. Fossil remains now in the British Museum,
-and in the museum of the Geological Society, fully bear out the
-dimensions exhibited by the restoration of the animal as seen basking on
-the shore between the two specimens of Long-necked Plesiosaurs. The head
-of this species is relatively larger in proportion to the trunk, than in
-the _Ichthyosaurus communis_ or _Ichthyosaurus tenuirostris_: the lower
-jaw is remarkably massive and powerful, and projects backwards beyond
-the joint, as far as it does in the crocodile. In the skull of an
-individual of this species, preserved in the apartments of the
-Geological Society of London, the cavity for the eye, or orbit,
-measures, in its long diameter, fourteen inches. The fore and hind
-paddles are large and of equal size.
-
-The lias of the valley of Lyme Regis, Dorsetshire, is the chief
-grave-yard of the _Ichthyosaurus platyodon_; but its remains are pretty
-widely distributed. They have been found in the lias of Glastonbury, of
-Bristol, of Scarborough and Whitby, and of Bitton, in Gloucestershire;
-some vertebræ, apparently of this species, have likewise been found in
-the lias at Ohmden, in Germany.
-
-
-                  No. 13.—Ichthyosaurus tenuirostris.
-
-Behind the _Ichthyosaurus platyodon_, is placed the restoration of the
-_Ichthyosaurus tenuirostris_, or Slender-snouted Fish-lizard. The most
-striking peculiarity of this species is the great length and slenderness
-of the jaw-bones, which, in combination with the large eye-sockets and
-flattened cranium, give to the entire skull a form which resembles that
-of a gigantic snipe or woodcock, with the bill armed with teeth. These
-weapons, in the present species, are relatively more numerous, smaller,
-and more sharply pointed than in the foregoing, and indicate that the
-_Ichthyosaurus tenuirostris_ preyed on a smaller kind of fish. The
-fore-paddles are larger than the hind ones. In the museum of the
-Philosophical Institution, at Bristol, there is an almost entire
-skeleton of the present species which measures thirteen feet in length.
-It was discovered in the lias of Lyme Regis. Portions of jaws and other
-parts of the skeletons of larger individuals have been found fossil in
-the lias near Bristol, at Barrow-on-Soar, in Leicestershire, and at
-Stratford-on-Avon. The _Ichthyosaurus tenuirostris_ has also left its
-remains in the lias formation at Boll and Amburg, in Wirtemberg,
-Germany.
-
-
-                    No. 14.—Ichthyosaurus communis.
-
-Of this species, which was the most “common,” when first discovered in
-1824, but which has since been surpassed by other species in regard to
-the known number of individuals, the head is restored, as protruded from
-the water, to the right of the foregoing species.
-
-The _Ichthyosaurus communis_ is characterised by its relatively large
-teeth, with expanded, deeply-grooved bases, and round conical furrowed
-crowns; the upper jaw contains, on each side, from forty to fifty of
-such teeth. The fore-paddles are three times larger than the hind ones.
-With respect to the size which it attained, the _Ichthyosaurus communis_
-seems only to be second to the _Ichthyosaurus platyodon_. In the museum
-of the Earl of Enniskillen, there is a fossil skull of the
-_Ichthyosaurus communis_ which measures, in length, two feet nine
-inches, indicating an animal of at least twenty feet in length.
-
-
-                             Plesiosaurus.
-
-The discovery of this genus forms one of the most important additions
-that geology has made to comparative anatomy. Baron Cuvier deemed “its
-structure to have been the most singular, and its characters the most
-monstrous, that had been yet discovered amid the ruins of a former
-world.” To the head of a lizard it united the teeth of a crocodile, a
-neck of enormous length, resembling the body of a serpent, a trunk and
-tail having the proportions of an ordinary quadruped, the ribs of a
-chameleon, and the paddles of a whale. “Such,” writes Dr. Buckland, “are
-the strange combinations of form and structure in the Plesiosaurus, a
-genus, the remains of which, after interment for thousands of years
-amidst the wreck of millions of extinct inhabitants of the ancient
-earth, are at length recalled to light by the researches of the
-geologist, and submitted to our examination, in nearly as perfect a
-state as the bones of species that are now existing upon the earth.”
-(Op. cit., vol. v. p. 203).
-
-The first remains of this animal were discovered in the lias of Lyme
-Regis, about the year 1823, and formed the subject of the paper by the
-Rev. Mr. Conybeare (now Dean of Llandaff), and Mr. (now Sir Henry) De la
-Beche, in which the genus was established and named Plesiosaurus (from
-the Greek words, _plesios_ and _sauros_, signifying “near” or “allied
-to,” and “lizard”), because the authors saw that it was more nearly
-allied to the lizard than was the Ichthyosaurus from the same formation.
-
-The entire and undisturbed skeletons of several individuals, of
-different species, have since been discovered, fully confirming the
-sagacious restorations by the original discoverers of the
-_Plesiosaurus_. Of these species three have been selected as the
-subjects of Mr. Waterhouse Hawkins’s reconstructions and representations
-of the living form of the strange reptiles.
-
-
-                  No. 15.—Plesiosaurus macrocephalus.
-
-The first of these has been called, from the relatively larger size of
-the head, the _Plesiosaurus macrocephalus_ (No. 15), (Gr. _macros_,
-long, _cephale_, head). The entire length of the animal, as indicated by
-the largest remains, and as given in the restoration, is eighteen feet,
-the length of the head being two feet, that of the neck six feet; the
-greatest girth of the body yields seven feet.
-
-    [Illustration: No. 15. Plesiosaurus macrocephalus.]
-
-Although Baron Cuvier and Dr. Buckland both rightly allude to the
-resemblance of the fins or paddles of the Plesiosaur to those of the
-whale, yet this most remarkable difference must be borne in mind, that,
-whereas the whale tribe have never more than one pair of fins, the
-Plesiosaurs have always two pairs, answering to the fore and hind limbs
-of land quadrupeds; and the fore-pair of fins, corresponding to those in
-the whale, differed by being more firmly articulated, through the medium
-of collar-bones (clavicles), and of two other very broad and strong
-bones (called coracoids), to the trunk (thorax), whereby they were the
-better enabled to move the animal upon dry land.
-
-Remains of the _Plesiosaurus macrocephalus_ have been discovered in the
-lias of Lyme Regis, in Dorsetshire, and of Weston, in Somersetshire.
-
-
-                  No. 16.—Plesiosaurus dolichodeirus.
-
-Further to the left, on the shore of the Secondary Island, is a
-restoration of the _Plesiosaurus dolichodeirus_, or Long-necked
-Plesiosaurus (No. 16). The head in this remarkable species is smaller,
-and the neck proportionally longer than in the _Plesiosaurus
-macrocephalus_. The remains of the Long-necked Plesiosaur have been
-found chiefly at Lyme Regis, in Dorsetshire. The well known specimen of
-an almost entire skeleton, formerly in the possession of His Grace the
-Duke of Buckingham, is now in the British Museum.
-
-
-                    No. 17.—Plesiosaurus Hawkinsii.
-
-The most perfect skeletons of the Plesiosaurus are those that have been
-wrought out of the lias at Street, near Glastonbury, by Mr. Thomas
-Hawkins, F.G.S., and which have been purchased by the trustees of the
-British Museum. A restoration is given by Mr. Waterhouse Hawkins, at No.
-17, of a species with characters somewhat intermediate between the
-Large-headed and Long-necked Plesiosaurs, and which has been called,
-after its discoverer, _Plesiosaurus Hawkinsii_.
-
-The Plesiosaurs breathed air like the existing crocodiles and the whale
-tribe, and appear to have lived in shallow seas and estuaries. That the
-Long-necked Sea-lizard was aquatic is evident from the form of its
-paddles; and that it was marine is almost equally so, from the remains
-with which its fossils are universally associated; that it may have
-occasionally visited the shore, the resemblance of its extremities to
-those of a turtle leads us to conjecture; its motion, however, must have
-been very awkward on land; its long neck must have impeded its progress
-through the water, presenting a striking contrast to the organisation
-which so admirably adapted the Ichthyosaurus to cut its swift course
-through the waves. “May it not, therefore, be concluded that it swam
-upon, or near the surface,” asks its accomplished discoverer, “arching
-back its long neck like a swan, and occasionally darting it down at the
-fish that happened to float within its reach? It may perhaps have lurked
-in shoal-water along the coast, concealed among the sea-weed, and,
-raising its nostrils to a level with the surface from a considerable
-depth, may have found a secure retreat from the assaults of dangerous
-enemies; while the length and flexibility of its neck may have
-compensated for the want of strength in its jaws, and its incapacity for
-swift motion through the water, by the suddenness and agility of the
-attack which enabled it to make on every animal fitted for its prey
-which came within its reach.”[5]
-
-For the Secondary Island three species of the Plesiosaurus have been
-restored, the _Plesiosaurus macrocephalus_, the _Plesiosaurus
-dolichodeirus_ (Gr. _dolichos_, long, _deire_, neck), and the
-_Plesiosaurus Hawkinsii_. The name “long-necked” was given to the second
-of these species before it was known that many other species with long
-and slender necks had existed in the seas of the same ancient period:
-the third species is named after Mr. Thomas Hawkins, F.G.S., the
-gentleman by whose patience, zeal, and skill, the British Museum has
-been enriched with so many entire skeletons of these most extraordinary
-extinct sea-lizards.
-
-The remains of all these species occur in the lias at Lyme Regis, and at
-Street, near Glastonbury; but the _Plesiosaurus Hawkinsii_ is the most
-abundant in the latter locality.
-
-    [Illustration: {uncaptioned}]
-
-
-
-
-                           NEW RED SANDSTONE.
-
-
-“Trias” is an arbitrary term applied in geology to the upper division of
-a vast series of red loams, shales, and sandstones, interposed between
-the lias and the coal, in the midland and western counties of England.
-This series is collectively called the “New Red Sandstone formation,” to
-distinguish it from the “Old Red Sandstone formation,” of similar or
-identical mineral character, which lies immediately beneath the coal.
-
-The animals which have been restored and placed on the lowest formation
-of the Secondary Island, are peculiar to the “triassic,” or upper
-division of the “New Red Sandstone” series, which division consists, in
-England, of saliferous (salt-including) shales and sandstones, from 1000
-to 1500 feet thick in Lancashire and Cheshire, answering to the
-formation called “Keuper-sandstone” by the German geologists; and of
-sandstone and quartzose conglomerate of 600 feet in thickness, answering
-to the German “Bunter-sandstone.”
-
-The largest and most characteristic animals of the trias are reptiles of
-the order
-
-
-                               Batrachia.
-
-The name of this order is from the Greek word _batrachos_, signifying a
-frog: and the order is represented in the present animal-population of
-England by a few diminutive species of frogs, toads, and newts, or
-water-salamanders. But, at the period of the deposition of the new red
-sandstone, in the present counties of Warwick and Cheshire, the shores
-of the ancient sea, which were then formed by that sandy deposit, were
-trodden by reptiles, having the essential bony characters of the
-Batrachia, but combining these with other bony characters of crocodiles
-and lizards; and exhibiting both under a bulk which is made manifest by
-the restoration of the largest known species, (No. 16), occupying the
-extreme promontory of the Island, illustrative of the lowest and oldest
-deposits of the secondary series of rocks. The species in question is
-called the—
-
-
-                 No. 18.—Labyrinthodon Salamandroides.
-
-or the Salamander-like Labyrinthodon; the latter term being from the
-Greek, signifying the peculiar structure of the teeth, which differ from
-all other reptiles in the huge Batrachia in question, by reason of the
-complex labyrinthic interblending of the different substances composing
-the teeth. The skull of the Labyrinthodon is attached to the neck-bones
-by two joints or condyles, and the teeth are situated both on the proper
-jaw-bones, and on the bone of the roof of the mouth called “vomer:” both
-these characters are only found at the present day in the frogs and
-salamanders. The hind-foot of the Labyrinthodon was also, as in the toad
-and frog, much larger than the fore-foot; and the innermost digit in
-both was short and turned in, like a thumb.
-
-    [Illustration: No. 18. Labyrinthodon Salamandroides.]
-
-Consecutive impressions of the prints of these feet have been traced for
-many steps in succession (as is accurately represented in the new red
-sandstone part of the Secondary Island) in quarries of that formation in
-Warwickshire, Cheshire, and also in Lancashire, more especially at a
-quarry of a whitish quartzose sandstone at Storton Hill, a few miles
-from Liverpool. The foot-marks are partly concave and partly in relief;
-the former are seen upon the upper surface of the sandstone slabs, but
-those in relief are only upon the lower surfaces, being, in fact,
-natural casts, formed on the subjacent foot-prints as in moulds. The
-impressions of the hind-foot are generally eight inches in length and
-five inches in width: near each large footstep, and at a regular
-distance—about an inch and a half—before it, a smaller print of the
-fore-foot, four inches long and three inches wide, occurs. The footsteps
-follow each other in pairs, each pair in the same line, at intervals of
-about fourteen inches from pair to pair. The large as well as the small
-steps show the thumb-like toe alternately on the right and left side,
-each step making a print of five toes.
-
-Foot-prints of corresponding form but of smaller size have been
-discovered in the quarry at Storton Hill, imprinted on five thin beds of
-clay, lying one upon another in the same quarry, and separated by beds
-of sandstone. From the lower surface of the sandstone layers, the solid
-casts of each impression project in high relief, and afford models of
-the feet, toes, and claws of the animals which trod on the clay.
-
-Similar foot-prints were first observed in Saxony, at the village of
-Hessberg, near Hillburghausen, in several quarries of a gray quartzose
-sandstone, alternating with beds of red sandstone, and of the same
-geological age as the sandstones of England that had been trodden by the
-same strange animal. The German geologist, who first described them,
-proposed the name of _Cheirotherium_ (Gr. _cheir_, the hand, _therion_,
-beast), for the great unknown animal that had left the foot-prints, in
-consequence of the resemblance, both of the fore and hind feet, to the
-impression of a human hand, and Dr. Kaup conjectured that the animal
-might be a large species of the opossum-kind. The discovery, however, of
-fossil skulls, jaws, teeth, and a few other bones in the sandstones
-exhibiting the footprints in question, has rendered it more probable
-that both the footprints and the fossils are evidences of the same kind
-of huge extinct Batrachian reptiles.
-
-An entire skull of the largest species discovered in the new red
-sandstones of Wurtemberg; a lower jaw of the same species found in the
-same formation in Warwickshire; some vertebræ, and a few fragments of
-bones of the limbs, have served, with the indications of size and shape
-of the trunk of the animal yielded by the series of consecutive
-foot-prints, as the basis of the restoration of the _Labyrinthodon
-salamandroides_, in the Secondary Island. It is to be understood,
-however, that, with the exception of the head, the form of the animal is
-necessarily more or less conjectural.
-
-
-               Nos. 19 & 20.—Labyrinthodon pachygnathus.
-
-This name, signifying the Thick-jawed Labyrinthodon, was given by its
-discoverer to a species of these singular Batrachia, found in the new
-red sandstone of Warwickshire, and which bears to the largest species
-the proportion exhibited by the head and fore-part of the body, as
-emerging from the water, for which parts alone the fossils hitherto
-discovered justify the restoration.[6]
-
-    [Illustration: Nos. 19 & 20. Section of Tooth of Labyrinthodon.
-    _a_ Pulp-cavity: _b b_ inflected folds of ossified capsule of
-    tooth.]
-
-
-                        Nos. 21 & 22.—Dicynodon.
-
-In 1844 Mr. Andrew G. Bain, who had been employed in the construction of
-military roads in the colony of the Cape of Good Hope, discovered, in
-the tract of country extending northwards from the county of Albany,
-about 450 miles east of Cape Town, several nodules or lumps of a kind of
-sandstone, which, when broken, displayed, in most instances, evidences
-of fossil bones, and usually of a skull with two large projecting teeth.
-Accordingly, these evidences of ancient animal life in South Africa were
-first notified to English geologists by Mr. Bain under the name of
-“Bidentals;” and the specimens transmitted by him were submitted at his
-request to Professor Owen for examination. The results of the
-comparisons thereupon instituted went to show that there had formerly
-existed in South Africa, and from geological evidence, probably, in a
-great salt-water lake or inland sea, since converted into dry land, a
-race of reptilian animals presenting in the construction of their skull
-characters of the crocodile, the tortoise, and the lizard, coupled with
-the presence of a pair of huge sharp-pointed tusks, growing downwards,
-one from each side of the upper jaw, like the tusks of the mammalian
-morse or walrus. No other kind of teeth were developed in these singular
-animals: the lower jaw was armed, as in the tortoise, by a trenchant
-sheath of horn. Some bones of the back, or vertebræ, by the hollowness
-of the co-adapted articular surfaces, indicate these reptiles to have
-been good swimmers, and probably to have habitually existed in water;
-but the construction of the bony passages of the nostrils proves that
-they must have come to the surface to breathe air.
-
-Some extinct plants allied to the Lepidodendron, with other fossils,
-render it probable that the sandstones containing the Dicynodont
-reptiles were of the same geological age as those that have revealed the
-remains of the Labyrinthodonts in Europe.
-
-The generic name Dicynodon is from the Greek words signifying “two tusks
-or canine teeth.” Three species of this genus have been demonstrated
-from the fossils transmitted by Mr. Bain.
-
-The _Dicynodon lacerticeps_, or Lizard-headed Dicynodon, attained the
-bulk of a walrus; the form of the head and tusks is correctly given in
-the restoration (No. 21); the trunk has been added conjecturally, to
-illustrate the strange combination of characters manifested in the head.
-
-A second species, with a head so formed as to have given the animal
-somewhat of the physiognomy of an owl, has been partially restored at
-No. 22.
-
-    [Illustration: No. 8. Dinornis.]
-
-
-
-
-                               FOOTNOTES
-
-
-[1]Lyell, “Manual of Elementary Geology.”
-
-[2]“The first specimens of the teeth were found by Mrs. Mantell in the
-    coarse conglomerate of the Forest, in the spring of 1822.”—Mantell,
-    “Geology of the South-East of England,” 8vo, 1833, p. 268.
-
-[3]“Report of British Fossil Reptiles,” 1841, p. 110.
-
-[4]Op. cit., p. 174.
-
-[5]“Transactions of the Geological Society,” Second Series, vi. 503.
-    1841.
-
-[6]Conybeare, Geol. Trans., i. 388.
-
-
-               BRADBURY AND EVANS, PRINTERS, WHITEFRIARS.
-
-
-
-
-                          Transcriber’s Notes
-
-
-—Silently corrected a few typos.
-
-—Retained publication information from the printed edition: this eBook
-  is public-domain in the country of publication.
-
-—In the text versions only, text in italics is delimited by
-  _underscores_.
-
-
-
-
-
-
-
-End of the Project Gutenberg EBook of Geology and Inhabitants of the Ancient
-World, by Richard Owen
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-The Project Gutenberg EBook of Geology and Inhabitants of the Ancient World, by 
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-Title: Geology and Inhabitants of the Ancient World
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-<div id="cover" class="img">
-<img id="coverpage" src="images/cover.jpg" alt="Geology and Inhabitants of the Ancient World" width="500" height="790" />
-</div>
-<div class="img" id="fig1">
-<img src="images/p00.jpg" alt="" width="800" height="580" />
-<p class="pcap">GEOLOGY AND INHABITANTS OF THE ANCIENT WORLD.
-<br />THE EXTINCT ANIMALS RESTORED BY B. WATERHOUSE HAWKINS. F.G.S. F.L.S.
-<br /><span class="small">PUBLISHED FOR THE CRYSTAL PALACE LIBRARY, BY BRADBURY &amp; EVANS, 11, BOUVERIE ST.
-<br />MACLURE &amp; CO. LITH. TO THE QUEEN.</span></p>
-</div>
-<div class="box">
-<h1>GEOLOGY AND INHABITANTS
-<br /><span class="smallest">OF THE</span>
-<br />ANCIENT WORLD.</h1>
-<p class="tbcenter"><span class="smaller">DESCRIBED BY</span>
-<br /><span class="large">RICHARD OWEN, F.R.S.</span></p>
-<p class="tbcenter"><span class="small">THE ANIMALS CONSTRUCTED BY B. W. HAWKINS, F.G.S.</span></p>
-<p class="tbcenter">CRYSTAL PALACE LIBRARY,
-<br /><span class="smallest">AND</span>
-<br /><span class="small">BRADBURY &amp; EVANS, 11, BOUVERIE STREET, LONDON.
-<br />1854.</span></p>
-</div>
-<p class="center smaller">BRADBURY AND EVANS,
-<br />PRINTERS TO THE CRYSTAL PALACE COMPANY,
-<br />WHITEFRIARS.</p>
-<div class="pb" id="Page_3">3</div>
-<h2 id="toc" class="center">CONTENTS.</h2>
-<dl class="toc">
-<dt class="small">PAGE</dt>
-<dt><a href="#c1">INTRODUCTION</a> 5</dt>
-<dd><a href="#c2">THE SECONDARY ISLAND</a> 7</dd>
-<dt><a href="#c3">CHALK FORMATION</a> 9</dt>
-<dd><a href="#c4">THE MOSASAURUS</a> 10</dd>
-<dd><a href="#c5">THE PTERODACTYLE</a> 11</dd>
-<dt><a href="#c6">WEALDEN FORMATION</a> 14</dt>
-<dd><a href="#c7">THE IGUANODON</a> 14</dd>
-<dd><a href="#c8">THE HYL&AElig;OSAURUS</a> 17</dd>
-<dt><a href="#c9">OOLITE FORMATION</a> 19</dt>
-<dd><a href="#c10">THE MEGALOSAURUS</a> 19</dd>
-<dd><a href="#c11">PTERODACTYLES OF THE OOLITE</a> 22</dd>
-<dd><a href="#c12">TELEOSAURUS</a> 22</dd>
-<dt><a href="#c13">LIAS FORMATION</a> 25</dt>
-<dd><a href="#c14">ENALIOSAURIA</a> 25</dd>
-<dd><a href="#c15">THE ICHTHYOSAURUS</a> 25</dd>
-<dd><a href="#c16">ICHTHYOSAURUS PLATYODON</a> 29</dd>
-<dd><a href="#c17">ICHTHYOSAURUS TENUIROSTRIS</a> 30</dd>
-<dd><a href="#c18">ICHTHYOSAURUS COMMUNIS</a> 30</dd>
-<dd><a href="#c19">PLESIOSAURUS</a> 31</dd>
-<dd><a href="#c20">PLESIOSAURUS MACROCEPHALUS</a> 31</dd>
-<dd><a href="#c21">PLESIOSAURUS DOLICHODEIRUS</a> 32</dd>
-<dd><a href="#c22">PLESIOSAURUS HAWKINSII</a> 33</dd>
-<dt><a href="#c23">NEW RED SANDSTONE</a> 35</dt>
-<dd><a href="#c24">BATRACHIA</a> 35</dd>
-<dd><a href="#c25">LABYRINTHODON SALAMANDROIDES</a> 36</dd>
-<dd><a href="#c26">LABYRINTHODON PACHYGNATHUS</a> 38</dd>
-<dd><a href="#c27">DICYNODON</a> 38</dd>
-</dl>
-<div class="pb" id="Page_5">5</div>
-<div class="img">
-<img src="images/p00b.jpg" alt="{uncaptioned}" width="800" height="517" />
-</div>
-<h1 title=""><span class="smaller">GEOLOGY AND INHABITANTS OF THE ANCIENT&nbsp;WORLD.</span></h1>
-<h2 id="c1"><span class="small">INTRODUCTION.</span></h2>
-<p>Before entering upon a description of the restorations of the
-Extinct Animals, placed on the Geological Islands in the great
-Lake, a brief account may be premised of the principles and procedures
-adopted in carrying out this attempt to present a view of
-part of the animal creation of former periods in the earth&rsquo;s
-history.</p>
-<p>Those extinct animals were first selected of which the entire,
-or nearly entire, skeleton had been exhumed in a fossil state. To
-accurate drawings of these skeletons an outline of the form of the
-entire animal was added, according to the proportions and relations
-of the skin and adjacent soft parts to the superficial parts of
-the skeleton, as yielded by those parts in the nearest allied living
-<span class="pb" id="Page_6">6</span>
-animals. From such an outline of the exterior, Mr. Waterhouse
-Hawkins prepared at once a miniature model form in clay.</p>
-<p>This model was rigorously tested in regard to all its proportions
-with those exhibited by the bones and joints of the skeleton of
-the fossil animal, and the required alterations and modifications
-were successively made, after repeated examinations and comparisons,
-until the result proved satisfactory.</p>
-<p>The next step was to make a copy in clay of the proof model,
-of the natural size of the extinct animal: the largest known
-fossil bone, or part, of such animal being taken as the standard
-according to which the proportions of the rest of the body were
-calculated agreeably with those of the best preserved and most
-perfect skeleton. The model of the full size of the extinct animal
-having been thus prepared, and corrected by renewed comparisons
-with the original fossil remains, a mould of it was prepared, and a
-cast taken from this mould, in the material of which the restorations,
-now exposed to view, are composed.</p>
-<p>There are some very rare and remarkable extinct animals of
-which only the fossil skull and a few detached bones of the
-skeleton have been discovered: in most of these the restoration
-has been limited to the head, as, for example, in the case of the
-Mosasaurus; and only in two instances&mdash;those, viz., of the
-Labyrinthodon and Dicynodon&mdash;has Mr. Hawkins taken upon
-himself the responsibility of adding the trunk to the known
-characters of the head, such addition having been made to illustrate
-the general affinities and nature of the fossil, and the kind
-of limbs required to produce the impressions of the footprints,
-where these have been detected and preserved in the petrified
-sands of the ancient sea-shores trodden by these strange forms of
-the Reptilian class.</p>
-<p>With regard to the hair, the scales, the scutes, and other modifications
-of the skin, in some instances the analogy of the nearest
-allied living forms of animals has been the only guide; in a few
-instances, as in that of the Ichthyosaurus, portions of the petrified
-integument have been fortunately preserved, and have guided
-the artist most satisfactorily in the restoration of the skin and soft
-parts of the fins; in the case of other reptiles, the bony plates,
-spines, and scutes have been discovered in a fossil state, and have
-<span class="pb" id="Page_7">7</span>
-been scrupulously copied in the attempt to restore the peculiar
-tegumentary features of the extinct reptiles, as <i>e.g.</i> in the
-Hyl&aelig;osaurus.</p>
-<p>In every stage of this difficult, and by some it may be thought,
-perhaps, too bold, attempt to reproduce and present to human
-gaze and contemplation the forms of animal life that have successively
-flourished during former geological phases of time, and have
-passed away long ages prior to the creation of man, the writer of
-the following brief notice of the nature and affinities of the
-animals so restored feels it a duty, as it is a high gratification to
-him, to testify to the intelligence, zeal, and peculiar artistic skill
-by which his ideas and suggestions have been realised and carried
-out by the talented director of the fossil department, Mr. Waterhouse
-Hawkins. Without the combination of science, art, and
-manual skill, happily combined in that gentleman, the present
-department of the Instructive Illustrations at the Crystal Palace
-could not have been realised.</p>
-<h3 id="c2"><span class="sc">The Secondary Island.</span></h3>
-<p>The most cursory observation of the surface of the earth
-shows that it is composed of distinct substances, such as clay,
-chalk, lias, limestone, coal, slate, sandstone, &amp;c.; and a study
-of such substances, their relative position and contents, has
-led to the conviction that these external parts of the earth have
-acquired their present condition gradually, under a variety of
-circumstances, and at successive periods, during which many races
-of animated beings, distinct both from those of other periods and
-from those now living, have successively peopled the land and the
-waters; the remains of these creatures being found buried in
-many of the layers or masses of mineral substances, forming the
-crust of the earth.</p>
-<p>The object of the Islands in the Geological Lake is to demonstrate
-the order of succession, or superposition, of these layers or
-strata, and to exhibit, restored in form and bulk, as when they
-lived, the most remarkable and characteristic of the extinct
-animals and plants of each stratum.</p>
-<p>The series of mineral substances and strata represented in the
-<span class="pb" id="Page_8">8</span>
-smaller island have been called by geologists &ldquo;secondary formations,&rdquo;
-because they lie between an older series termed &ldquo;primary,&rdquo; and
-a newer series termed &ldquo;tertiary:&rdquo; the term &ldquo;formation&rdquo; meaning
-any assemblage of rocks or layers which have some character in
-common, whether of origin, age, or composition.<a class="fn" id="fr_1" href="#fn_1">[1]</a></p>
-<p>Following the secondary formations as they descend in the
-earth, or succeed each other from above downwards, and as they
-are shown, obliquely tilted up out of their original level position
-from left to right, in the Secondary Island, they consist: 1st, of
-the Chalk or Cretaceous group; 2nd, the Wealden; 3rd, the
-Oolite; 4th, the Lias; and 5th, the New Red Sandstone.</p>
-<div class="pb" id="Page_9">9</div>
-<h2 id="c3"><span class="small"><span class="ss">THE CHALK.</span></span></h2>
-<p>The chalk formations or &ldquo;cretaceous group of beds&rdquo; include
-strata of various mineral substances; but the white chalk which
-forms the cliffs of Dover and the adjoining coasts, and the downs
-and chalk quarries of the South of England, is the chief and most
-characteristic formation. Chalk, immense as are the masses in
-which it has been deposited, owes its origin to living actions;
-every particle of it once circulated in the blood or vital juices of
-certain species of animals, or of a few plants, that lived in the
-seas of the secondary period of geological time. White chalk consists
-of carbonate of lime, and is the result of the decomposition
-chiefly of coral-animals (<i>Madrepores</i>, <i>Millepores</i>, <i>Flustra</i>, <i>Cellepora</i>,
-&amp;c.), of sea-urchins (<i>Echini</i>), and of shell-fishes (<i>Testacea</i>), and of
-the mechanical reduction, pounding, and grinding of their shells.
-Such chalk-forming beings still exist, and continue their operations
-in various parts of the ocean, especially in the construction of
-coral reefs and islands.</p>
-<p>Every river that traverses a limestone district carries into the
-sea a certain proportion of caustic lime in solution: the ill effects
-of the accumulation of this mineral are neutralised by the power
-allotted to the above-cited sea-animals to absorb the lime, combine
-it with carbonic-acid, and precipitate or deposit it in the condition
-of insoluble chalk, or carbonate of lime.</p>
-<p>The entire cretaceous series includes from above downwards:</p>
-<div class="verse">
-<p class="t0">Maestricht beds of yellowish chalk.</p>
-<p class="t0">Upper white chalk with flints.</p>
-<p class="t0">Lower white chalk without flints.</p>
-<p class="t0">Upper green-sand.</p>
-<p class="t0">Gault.</p>
-<p class="t0">Lower green-sand and Kentish rag.</p>
-</div>
-<p>The best known and most characteristic large extinct animal of
-the chalk formations is chiefly found in the uppermost and most
-recent division, and is called</p>
-<div class="pb" id="Page_10">10</div>
-<h3 id="c4">No. 1.&mdash;<span class="sc">The Mosasaurus.</span>
-<br />(<i>Mosasaurus Hoffmanni</i>, Hoffmann&rsquo;s Mosasaur.)</h3>
-<p>Of this animal almost the entire skull has been discovered, but
-not sufficient of the rest of the skeleton to guide to a complete
-restoration of the animal. The head only, therefore, is shown, of
-the natural size, at the left extremity of the Secondary Island.</p>
-<p>The first or generic name of this animal is derived from the
-locality, Maestricht, on the river Meuse (Lat. <i>Mosa</i>), in Germany,
-where its remains have been chiefly discovered, and from the
-Greek word <i>sauros</i>, a lizard, to which tribe of animals it belongs.
-Its second name refers to its discoverer, Dr. Hoffmann, of Maestricht,
-surgeon to the forces quartered in that town in 1780.
-This gentleman had occupied his leisure by the collection of the
-fossils from the quarries which were then worked to a great extent
-at Maestricht for a kind of yellowish stone of a chalky nature,
-and belonging to the most recent of the secondary class of formations
-in geology. In one of the great subterraneous quarries or
-galleries, about five hundred paces from the entrance, and ninety
-feet below the surface, the quarrymen exposed part of the skull of
-the Mosasaurus, in a block of stone which they were engaged in
-detaching. On this discovery they suspended their work, and
-went to inform Dr. Hoffmann, who, on arriving at the spot,
-directed the operations of the men, so that they worked out the
-block without injury to the fossil; and the doctor then, with his
-own hands, cleared away the matrix and exposed the jaws and
-teeth, casts of which are shown in the cretaceous rock of the
-Island.</p>
-<p>This fine specimen, which Hoffmann had added with so much
-pains and care to his collection, soon, however, became a source
-of chagrin to him. One of the canons of the cathedral at
-Maestricht, who owned the surface of the soil beneath which was
-the quarry whence the fossil had been obtained, when the fame
-of the specimen reached him, pleaded certain feudal rights to
-it. Hoffmann resisted, and the canon went to law. The
-Chapter supported the canon, and the decree ultimately went
-<span class="pb" id="Page_11">11</span>
-against the poor surgeon, who lost both his specimen and his
-money&mdash;being made to pay the costs of the action. The canon
-did not, however, long enjoy possession of the unique specimen.
-When the French army bombarded Maestricht in 1795, directions
-were given to spare the suburb in which the famous fossil was
-known to be preserved; and after the capitulation of the town it
-was seized and borne off in triumph. The specimen has since
-remained in the museum of the Garden of Plants at Paris.</p>
-<p>This skull of the Mosasaurus measures four and a half feet
-long and two and a half feet wide. The large pointed teeth on the
-jaws are very conspicuous; but, in addition to these, the gigantic
-reptile had teeth on a bone of the roof of the mouth (the pterygoid),
-like some of the modern lizards. The entire length of the animal has
-been estimated at about thirty feet. It is conjectured to have been
-able to swim well, and to have frequented the sea in quest of prey:
-its dentition shows its predatory and carnivorous character, and its
-remains have hitherto been met with exclusively in the chalk formations.
-Besides the specimens from St. Peter&rsquo;s Mount, Maestricht,
-of which the above-described skull is the most remarkable, fossil
-bones and teeth of the Mosasaurus have been found in the chalk
-of Kent, and in the green-sand&mdash;a member of the cretaceous
-series&mdash;in New Jersey, United States of America. No animal
-like the Mosasaurus is now known to exist.</p>
-<h3 id="c5">Nos. 2 &amp; 3.&mdash;<span class="sc">The Pterodactyle.</span></h3>
-<p>Nos. 2 and 3 are restorations of a flying reptile or dragon,
-called Pterodactyle, from the Greek words <i>pteron</i>, a wing, and
-<i>dactylos</i>, a finger; because the wings are mainly supported by the
-outer finger, enormously lengthened and of proportionate strength,
-which, nevertheless, answers to the little finger of the human hand.
-The wings consisted of folds of skin, like the leather wings of the
-bat; and the Pterodactyles were covered with scales, not with
-feathers: the head, though somewhat resembling in shape that of
-a bird, and supported on a long and slender neck, was provided
-with long jaws, armed with teeth; and altogether the structure of
-these extinct members of the reptilian class is such as to rank
-them amongst the most extraordinary of all the creatures yet discovered
-in the ruins of the ancient earth.</p>
-<div class="pb" id="Page_12">12</div>
-<p>Remains of the Pterodactyle were first discovered, in 1784, by
-Prof. Collini, in the lithographic slate of Aichstadt, in Germany,
-which slate is a member of the oolitic formations: the species so discovered
-was at first mistaken for a bird, and afterwards supposed
-to be a large kind of bat, but had its true reptilian nature demonstrated
-by Baron Cuvier, by whom it was called the <i>Pterodactylus
-longirostris</i>, or Long-beaked Pterodactyle: it was about the size of a
-curlew.</p>
-<p>A somewhat larger species&mdash;the <i>Pterodactylus macronyx</i>, or
-Long-clawed Pterodactyle&mdash;was subsequently discovered by the
-Rev. Dr. Buckland, in the lias formation of Lyme Regis: its
-wings, when expanded, must have been about four feet from tip to
-tip. The smallest known species&mdash;the <i>Pterodactylus brevirostris</i>, or
-Short-beaked Pterodactyle&mdash;was discovered in the lithographic slate
-at Solenhofen, Germany, and has been described by Professor
-Soemmering.</p>
-<p>Remains of the largest known kinds of Pterodactyle have been
-discovered more recently in chalk-pits, at Burham, in Kent. The
-skull of one of these species&mdash;the <i>Pterodactylus Cuvieri</i>&mdash;was about
-twenty inches in length, and the animal was upborne on an expanse
-of wing of probably not less than eighteen feet from tip to
-tip. The restored specimen of this species is numbered 3.</p>
-<p>A second very large kind of Pterodactyle&mdash;the <i>Pterodactylus
-compressirostris</i>, or Thin-beaked Pterodactyle&mdash;had a head from
-fourteen to sixteen inches in length, and an expanse of wing, from
-tip to tip, of fifteen feet. The remains of this species have also
-been found in the chalk of Kent. From the same formation and
-locality a third large kind of Pterodactyle, although inferior in
-size to the two foregoing, has been discovered, called the <i>Pterodactylus
-conirostris</i>, and also&mdash;until the foregoing larger kinds were
-discovered&mdash;<i>Pterodactylus giganteus</i>. The long, sharp, conical teeth
-in the jaws of the Pterodactyles indicate them to have preyed upon
-other living animals; their eyes were large, as if to enable them to
-fly by night. From their wings projected fingers, terminated by
-long curved claws, and forming a powerful paw, wherewith the
-animal was enabled to creep and climb, or suspend itself from trees.
-It is probable, also, that the Pterodactyles had the power of swimming;
-some kinds, <i>e.g.</i>, the <i>Pterodactylus Gemmingi</i>, had a long
-<span class="pb" id="Page_13">13</span>
-and stiff tail. &ldquo;Thus,&rdquo; writes Dr. Buckland, &ldquo;like Milton&rsquo;s
-Fiend, all qualified for all services and all elements, the creature
-was a fit companion for the kindred reptiles that swarmed in the
-seas, or crawled on the shores of a turbulent planet.</p>
-<div class="verse">
-<p class="t10">&lsquo;The Fiend,</p>
-<p class="t0">O&rsquo;er bog, or steep, through strait, rough, dense, or rare,</p>
-<p class="t0">With head, hands, wings, or feet, pursues his way,</p>
-<p class="t0">And swims, or sinks, or wades, or creeps, or flies.&rsquo;</p>
-<p class="lr"><i>Paradise Lost</i>, Book II.&rdquo;</p>
-</div>
-<div class="pb" id="Page_14">14</div>
-<h2 id="c6"><span class="small"><span class="ss">THE WEALDEN.</span></span></h2>
-<p>The Wealden is a mass of petrified clay, sand, and sandstone,
-deposited from the fresh or brackish water of probably some
-great estuary, and extending over parts of the counties of Kent,
-Surrey, and Sussex. This fresh-water formation derives its name
-from the &ldquo;Weald&rdquo; or &ldquo;Wold&rdquo; of Kent, where it was first geologically
-studied, and where it is exposed by the removal of the
-chalk, which covers or overlies it, in other parts of the South of
-England.</p>
-<p>The Wealden is divided into three groups of strata, which succeed
-each other in the following descending order:&mdash;</p>
-<p>1st. Weald Clay, sometimes including thin beds of sand and
-shelly limestone, forming beds of from 140 to 280 feet in depth or
-vertical thickness.</p>
-<p>2nd. Hastings Sand, in which occur some clays and calcareous
-grits, forming beds of from 400 to 500 feet in depth.</p>
-<p>3rd. Purbeck Beds, so called from being exposed chiefly in the
-Isle of Purbeck, off the coast of Dorsetshire, where it forms the
-quarries of the limestone for which Purbeck is famous: the beds
-of limestones and marls are from 150 to 200 feet in depth.</p>
-<h3 id="c7">Nos. 4 &amp; 5.&mdash;<span class="sc">The Iguanodon.</span>
-<br />(<i>Iguanodon Mantelli</i>, Conybeare.)</h3>
-<p>One afternoon, in the spring of 1822, an accomplished lady, the
-wife of a medical practitioner, at Lewes, in Sussex, walking along
-the picturesque paths of Tilgate Forest, discovered some objects in
-the coarse conglomerate rock of the quarries of that locality, which,
-from their peculiar form and substance, she thought would be
-interesting to her husband, whose attention had been directed,
-during his professional drives, to the geology and fossils of his
-neighbourhood.</p>
-<div class="pb" id="Page_15">15</div>
-<p>The lady was Mrs. Mantell: her husband, the subsequently
-distinguished geologist, Dr. Mantell,<a class="fn" id="fr_2" href="#fn_2">[2]</a> perceived that the fossils
-discovered by his wife were teeth, and teeth of a large and
-unknown animal.</p>
-<p>&ldquo;As these teeth,&rdquo; writes the doctor, &ldquo;were distinct from any
-that had previously come under my notice, I felt anxious to submit
-them to the examination of persons whose knowledge and
-means of observation were more extensive than my own. I
-therefore transmitted specimens to some of the most eminent
-naturalists in this country and on the continent. But although
-my communications were acknowledged with that candour and
-liberality which constantly characterise the intercourse of scientific
-men, yet no light was thrown upon the subject, except by
-the illustrious Baron Cuvier, whose opinions will best appear by
-the following extract from the correspondence with which he
-honoured me:&mdash;</p>
-<p>&ldquo;&lsquo;These teeth are certainly unknown to me; they are not from
-a carnivorous animal, and yet I believe that they belong, from
-their slight degree of complexity, the notching of their margins,
-and the thin coat of enamel that covers them, to the order of
-reptiles.</p>
-<p>&ldquo;&lsquo;May we not here have a new animal!&mdash;a herbivorous reptile?
-And, just as at the present time with regard to mammals (land-quadrupeds
-with warm blood), it is amongst the herbivorous that
-we find the largest species, so also with the reptiles at the remote
-period when they were the sole terrestrial animals, might not the
-largest amongst them have been nourished by vegetables?</p>
-<p>&ldquo;&lsquo;Some of the great bones which you possess may belong to
-this animal, which, up to the present time, is unique in its kind.
-Time will confirm or confute this idea, since it is impossible but
-that one day a part of the skeleton, united to portions of jaws
-with the teeth, will be discovered.&rsquo;&rdquo;</p>
-<p>&ldquo;These remarks,&rdquo; Dr. Mantell proceeds to say, &ldquo;induced me to
-pursue my investigations with increased assiduity, but hitherto they
-have not been attended with the desired success, no connected
-<span class="pb" id="Page_16">16</span>
-portion of the skeleton having been discovered. Among the specimens
-lately connected, some, however, were so perfect, that I
-resolved to avail myself of the obliging offer of Mr. Clift (to whose
-kindness and liberality I hold myself particularly indebted), to
-assist me in comparing the fossil teeth with those of the recent
-Lacert&aelig; in the Museum of the Royal College of Surgeons. The
-result of this examination proved highly satisfactory, for in an
-Iguana which Mr. Stutchbury had prepared to present to the
-College, we discovered teeth possessing the form and structure of
-the fossil specimens.&rdquo; (Phil. Trans., 1825, p. 180.) And he
-afterwards adds:&mdash;&ldquo;The name Iguanodon, derived from the form
-of the teeth, (and which I have adopted at the suggestion of the
-Rev. W. Conybeare,) will not, it is presumed, be deemed objectionable.&rdquo;
-(Ib. p. 184.)</p>
-<p>The further discovery which Baron Cuvier&rsquo;s prophetic glance
-saw buried in the womb of time, and the birth of which verified
-his conjecture that some of the great bones collected by Dr. Mantell
-belonged to the same animal as the teeth, was made by Mr. W. H.
-Bensted, of Maidstone, the proprietor of a stone-quarry of the
-Shanklin-sand formation, in the close vicinity of that town. This
-gentleman had his attention one day, in May, 1834, called by his
-workmen to what they supposed to be petrified wood in some pieces
-of stone which they had been blasting. He perceived that what
-they supposed to be wood was fossil bone, and with a zeal and
-care which have always characterised his endeavours to secure for
-science any evidence of fossil remains in his quarry, he immediately
-resorted to the spot. He found that the bore or blast by which these
-remains were brought to light, had been inserted into the centre of
-the specimen, so that the mass of stone containing it had been shattered
-into many pieces, some of which were blown into the adjoining
-fields. All these pieces he had carefully collected, and proceeding
-with equal ardour and success to the removal of the matrix from
-the fossils, he succeeded after a month&rsquo;s labour in exposing them
-to view, and in fitting the fragments to their proper places.</p>
-<p>This specimen is now in the British Museum.</p>
-<p>Many other specimens of detached bones, including vertebr&aelig; or
-parts of the back-bone, especially that part resting on the hind
-limbs, and called the &ldquo;pelvis,&rdquo; bones of the limbs, down to those
-<span class="pb" id="Page_17">17</span>
-that supported the claws, together with jaws and teeth, which have
-since been successively discovered, have enabled anatomists to reconstruct
-the extinct Iguanodon, and have proved it to have been a
-herbivorous reptile, of colossal dimensions, analogous to the diminutive
-Iguana in the form of its teeth, but belonging to a distinct and
-higher order of reptiles, more akin to the crocodiles. The same
-rich materials, selecting the largest of the bones as a standard, have
-served for the present restorations (Nos. 4 and 5) of the animal, as
-when alive: all the parts being kept in just proportion to the
-standard bones, and the whole being thus brought to the following
-dimensions:&mdash;</p>
-<table class="center" summary="">
-<tr><td class="l">Total length, from the nose or muzzle to the end of the tail </td><td class="r">34 </td><td class="c">feet </td><td class="r">9 </td><td class="c">inches.</td></tr>
-<tr><td class="l">Greatest girth of the trunk </td><td class="r">20 </td><td class="c">&rdquo; </td><td class="r">5 </td><td class="c">&rdquo;</td></tr>
-<tr><td class="l">Length of the head </td><td class="r">3 </td><td class="c">&rdquo; </td><td class="r">6 </td><td class="c">&rdquo;</td></tr>
-<tr><td class="l">Length of the tail </td><td class="r">15 </td><td class="c">&rdquo; </td><td class="r">6 </td><td class="c">&rdquo;</td></tr>
-</table>
-<p>The character of the scales is conjectural, and the horn more
-than doubtful, though attributed to the Iguanodon by Dr. Mantell
-and most geologists.</p>
-<p>This animal probably lived near estuaries and rivers, and may
-have derived its food from the <i>Clathrari&aelig;</i>, <i>Zami&aelig;</i>, <i>Cycades</i>, and
-other extinct trees, of which the fossil remains abound in the same
-formations as those yielding the bones and teeth of the Iguanodon.</p>
-<p>These formations are the Wealden and the Neocomian or green-sand:
-the localities in which the remains of the Iguanodon have been
-principally found, are the Weald of Kent and Sussex: Horsham,
-in Sussex; Maidstone, in Kent; and the Isle of Wight.</p>
-<p>Restorations of the <i>Cycas</i> and <i>Zamia</i> are placed, with the
-Iguanodon, on the Wealden division of the Secondary Island.</p>
-<h3 id="c8">No. 6.&mdash;<span class="sc">The Hyl&aelig;osaurus.</span> (<i>Hyl&aelig;osaurus Owenii.</i>)</h3>
-<p>The animal, so called by its discoverer, Dr. Mantell, belongs to
-the same highly organised order of the class of reptiles as the
-Iguanodon, that, viz., which was characterised by a longer and
-stronger sacrum and pelvis, and by larger limbs than the reptiles of
-the present day possess; they were accordingly better fitted for
-progression on dry land, and probably carried their body higher and
-more freely above the surface of the ground.</p>
-<div class="pb" id="Page_18">18</div>
-<p>Visiting, in the summer of 1832, a quarry in Tilgate Forest,
-Dr. Mantell had his attention attracted to some fragments of a large
-mass of stone, which had recently been broken up, and which exhibited
-traces of numerous pieces of bone. The portions of the rock,
-which admitted of being restored together, were cemented, and
-then the rock was chiselled from the fossil bones, which consisted
-of part of the back-bone or vertebral column, some ribs, the
-shoulder bones called scapula and coracoid, and numerous long
-angular bones or spines which seemed to have supported a lofty
-serrated or jagged crest, extended along the middle of the back, as
-in some of the small existing lizards, <i>e.g.</i>, the Iguana: cut No. 6.
-Many small dermal bones were also found, which indicate the
-Hyl&aelig;osaurus to have been covered by hard tuberculate scales, like
-those of some of the Australian lizards, called <i>Cyclodus</i>.</p>
-<p>This character of the skin, and the serrated crest, are accurately
-given in the restoration, the major part of which, however, is
-necessarily at present conjectural, and carried out according to the
-general analogies of the saurian form. The size is indicated with
-more certainty according to the proportions of the known vertebr&aelig;
-and other bones.</p>
-<div class="img" id="fig2">
-<img src="images/p01.jpg" alt="" width="800" height="533" />
-<p class="pcap">No. 6. Diagram of the Slab containing the Bones of Hyl&aelig;osaurus.</p>
-</div>
-<div class="pb" id="Page_19">19</div>
-<h2 id="c9"><span class="small"><span class="ss">THE OOLITE.</span></span></h2>
-<p>The division of the secondary formations, called &ldquo;Oolite,&rdquo; takes
-its name from the most characteristic of its constituents, which is a
-variety of limestone composed of numerous small grains, resembling
-the &ldquo;roe&rdquo; or eggs of a fish, whence the term, (from the Greek <i>oon</i>,
-an egg, <i>lithos</i>, a stone). The oolite, however, includes a great series
-of beds of marine origin, which, with an average breadth of thirty
-miles, extend across England, from Yorkshire in the north-east to
-Dorsetshire in the south-west.</p>
-<p>The oolite series lies below the Wealden, and where this is
-wanting, below the chalk, and consists of the following subdivisions,
-succeeding each other in the descending order:&mdash;</p>
-<table class="center" summary="">
-<tr class="th"><th colspan="2"><span class="sc">Oolite.</span></th></tr>
-<tr><td class="l">Upper. </td><td class="l">Portland stone and sand.</td></tr>
-<tr><td class="l"> </td><td class="l">Kimmeridge clay.</td></tr>
-<tr><td class="l">Middle. </td><td class="l">Coral rag.</td></tr>
-<tr><td class="l"> </td><td class="l">Oxford clay.</td></tr>
-<tr><td class="l">Lower. </td><td class="l">Cornbrash and forest marble.</td></tr>
-<tr><td class="l"> </td><td class="l">Great oolite and Stonesfield slate.</td></tr>
-<tr><td class="l"> </td><td class="l">Fuller&rsquo;s earth.</td></tr>
-<tr><td class="l"> </td><td class="l">Inferior oolite.</td></tr>
-</table>
-<p>Upon the portion of the island representing the oolite series, the
-most conspicuous of the restored animals of that period is&mdash;</p>
-<h3 id="c10">No. 7.&mdash;<span class="sc">The Megalosaurus.</span></h3>
-<p>The Megalosaurus, as its name implies (compounded by its discoverer,
-Dr. Buckland, from the Greek <i>megas</i>, great, and <i>sauros</i>,
-lizard), was a lizard-like reptile of great size, &ldquo;of which,&rdquo; writes Dr.
-Buckland, &ldquo;although no skeleton has yet been found entire, so
-many perfect bones and teeth have been discovered in the same
-quarries, that we are nearly as well acquainted with the form and
-dimensions of the limbs as if they had been found together in a single
-block of stone.&rdquo;</p>
-<div class="pb" id="Page_20">20</div>
-<p>The restoration of the animal has been accordingly effected,
-agreeably with the proportions of the known parts of the skeleton,
-and in harmony with the general characters of the order of
-reptiles to which the Megalosaurus belonged. This order&mdash;the
-Dinosauria (Gr. <i>deinos</i>, terribly great <i>sauros</i>, a lizard)&mdash;is that
-to which the two foregoing huge reptiles of the Wealden series
-belong, viz., the Iguanodon and Hyl&aelig;osaurus, and is characterised
-by the modifications already mentioned, that fitted them for more
-efficient progression upon dry land. The Iguanodon represented
-the herbivorous section of the order, the Hyl&aelig;osaurus appears, from
-its teeth, to have been a mixed feeder, but the Megalosaurus was
-decidedly carnivorous, and, probably, waged a deadly war against
-its less destructively endowed congeners and contemporaries.</p>
-<div class="img" id="fig3">
-<img src="images/p02.jpg" alt="" width="800" height="374" />
-<p class="pcap">No. 7. Megalosaurus.</p>
-</div>
-<p>Baron Cuvier estimated the Megalosaurus to have been about
-fifty feet in length; my own calculations, founded on more complete
-evidence than had been at the Baron&rsquo;s command, reduce its
-size to about thirty-five feet:<a class="fn" id="fr_3" href="#fn_3">[3]</a> but with the superior proportional
-height and capacity of trunk, as contrasted with the largest existing
-crocodiles, even that length gives a most formidable character to
-this extinct predatory reptile.</p>
-<p>As the thigh-bone (<i>femur</i>) and leg-bone (<i>tibia</i>) measure each
-nearly three feet, the entire hind-leg, allowing for the cartilages of
-the joints, must have attained a length of two yards: a bone of the
-<span class="pb" id="Page_21">21</span>
-foot (metatarsal) thirteen inches long, indicates that part, with the
-toes and claws entire, to have been at least three feet in length.
-The form of the teeth shows the Megalosaurus to have been strictly
-carnivorous, and viewed as instruments for providing food for
-so enormous a reptile, the teeth were fearfully fitted to the
-destructive office for which they were designed. They have compressed
-conical sharp-pointed crowns, with cutting and finely
-serrated anterior and posterior edges; they appear straight, as
-seen when they had just protruded from the socket, but become
-bent slightly backwards in the progress of growth, and the
-fore part of the crown, below the summit, becomes thick and
-convex.</p>
-<p>A minute and interesting description of these teeth will be found
-in Dr. Buckland&rsquo;s admirable &ldquo;Bridgewater Treatise&rdquo; (vol. i.
-p. 238), from which he concludes that the teeth of the Megalosaurus
-present &ldquo;a combination of contrivances analogous to those which
-human ingenuity has adopted in the construction of the knife, the
-sabre, and the saw.&rdquo; The fossils which brought to light the former
-existence of this most formidable reptile, were discovered in 1823,
-in the oolitic slate of Stonesfield, near Oxford, and were described
-by Dr. Buckland, in the volume of the &ldquo;Geological Transactions&rdquo;
-for the year 1824.</p>
-<p>Remains of the Megalosaurus have since been discovered in the
-&ldquo;Bath oolite,&rdquo; which is immediately below the Stonesfield slate,
-and in the &ldquo;Cornbrash,&rdquo; which lies above it. Vertebr&aelig;, teeth,
-and some bones of the extremities have been discovered in the
-Wealden of Tilgate Forest, Kent, and in the ferruginous sand,
-of the same age, near Cuckfield, in Sussex. Remains of the
-Megalosaurus also occur in the Purbeck limestone at Swanage Bay,
-and in the oolite in the neighbourhood of Malton, in Yorkshire.</p>
-<p>Mr. Waterhouse Hawkins&rsquo;s restoration, according to the proportions
-calculated from the largest portions of fossil bones of the
-Megalosaurus hitherto obtained, yields a total length of the animal,
-from the muzzle to the end of the tail, of thirty-seven feet; the
-length of the head being five feet, the length of the tail fifteen feet;
-and the greatest girth of the body twenty-two feet six inches.</p>
-<div class="pb" id="Page_22">22</div>
-<h3 id="c11">Nos. 8 &amp; 9.&mdash;<span class="sc">Pterodactyles of the Oolite.</span></h3>
-<p>To the right of the Hyl&aelig;osaurus, on the rock representing the
-greater oolite formation, are restorations of species of Pterodactyle
-(<i>Pterodactylus Bucklandi</i>, No. 9), smaller than and distinct from those
-of the chalk formations. The remains of Buckland&rsquo;s Pterodactyle are
-found pretty abundantly in the oolitic slate of Stonesfield, near
-Oxford.</p>
-<h3 id="c12">Nos. 10 &amp; 11.&mdash;<span class="sc">Teleosaurus.</span></h3>
-<p>On the shore beneath the overhanging cliff of oolitic rock are two
-restorations, Nos. 10 and 11, of a large extinct kind of crocodile,
-to which the long and slender-jawed crocodile of the Ganges, called
-&ldquo;Gavi&agrave;l&rdquo; or &ldquo;Gharri&agrave;l&rdquo; by the Hindoos, offers the nearest resemblance
-at the present day. Remains of the ancient extinct British
-gavials have been found in most of the localities where the oolitic formations
-occur, and very abundantly in the lias cliffs near Whitby, in
-Yorkshire. The name Teleosaurus (<i>telos</i>, the end, <i>sauros</i>, a lizard),
-was compounded from the Greek by Professor Geoffroy St. Hilaire,
-for a species of these fossil gavials, found by him in the oolite stone
-at Caen, in Normandy, and has reference to his belief that they
-formed one&mdash;the earliest&mdash;extreme of the crocodilian series, as this
-series has been successively developed in the course of time on our
-planet.</p>
-<p>The jaws are armed with numerous long, slender, sharp-pointed,
-slightly curved teeth, indicating that they preyed on fishes, and the
-young or weaker individuals of co-existing reptiles. The nostril
-is situated more at the end of the upper jaw than in the modern
-gavial: the fore-limbs are shorter, and the hind ones longer and
-stronger than in the gavial, which indicates that the Teleosaur was
-a better swimmer; the vertebr&aelig; or bones of the back are united by
-slightly concave surfaces, not interlocked by cup and ball joints as
-in the modern crocodiles, whence it would seem that the Teleosaur
-lived more habitually in the water, and less seldom moved on dry
-land; and, as its fossil remains have been hitherto found only in
-the sedimentary deposits from the sea, it may be inferred that it
-was more strictly marine than the crocodile of the Ganges.</p>
-<div class="pb" id="Page_23">23</div>
-<p>The first specimen of a Teleosaur that was brought to light was
-from the &ldquo;alum-schale&rdquo; which forms one layer of the lofty lias
-cliffs of the Yorkshire coast, near Whitby. A brief description,
-and figures, of this incomplete fossil skeleton were published by
-Messrs. Wooller and Chapman, in separate communications, in
-the 50th volume of the &ldquo;Philosophical Transactions,&rdquo; in 1758.
-Captain Chapman observes, &ldquo;it seems to have been an alligator;&rdquo;
-and Mr. Wooller thought &ldquo;it resembled in every respect the
-Gangetic gavial.&rdquo; Thus, nearly a century ago, the true nature of
-the fossil was almost rightly understood, and various were the
-theories then broached to account for the occurrence of a supposed
-Gangetic reptile in a petrified state in the cliffs of Yorkshire. It
-has required the subsequent progress of comparative anatomy to
-determine, as by the characters above defined, the essential distinction
-of the Teleosaur from all known existing forms of crocodilian
-reptiles.</p>
-<p>Very abundant remains, and several species, of the extinct genus
-have been subsequently discovered: but always in the oolitic and
-liassic formations of the secondary series of rocks.</p>
-<p>The oolitic group of rocks are very rich in remains of both
-plants and animals: many reptiles of genera and species distinct
-from those here restored have been recognised and determined by
-portions of the skeleton. Extremely numerous are the remains of
-fishes, chiefly of an almost extinct order (<i>Ganoidei</i>), characterised
-by hard, shining, enamelled scales. But the most remarkable
-fossils are those which indisputably prove the existence, during the
-period of the &ldquo;Great&rdquo; or &ldquo;Lower Oolite,&rdquo; of insectivorous and
-marsupial mammalia&mdash;<i>i.e.</i>, of warm-blood quadrupeds, which,
-like the shrew or hedgehog, fed on insects, and, like the opossum,
-had a pouch for the transport of the young. The lower jaw of
-one of these earliest known examples of the mammalian class,
-found in the Stonesfield slate, near Oxford, may be seen at the
-British Museum, to which it was presented by J. W. Broderip,
-Esq., F.R.S., by whom it was described in the &ldquo;Zoological
-Journal,&rdquo; vol. iii., p. 408.</p>
-<p>It is interesting to observe that the marsupial genera, to which
-the above fossil quadruped, called <i>Phascolotherium</i>, was most
-nearly allied, are now confined to New South Wales and Van
-<span class="pb" id="Page_24">24</span>
-Diemen&rsquo;s Land; since it is in the Australian seas that is found
-the <i>Cestracion</i>, a cartilaginous fish which has teeth that are most
-like those fossil teeth called <i>Acrodus</i> and <i>Psammodus</i>, so common
-in the oolite. In the same Australian seas, also, near the shore,
-the beautiful shell-fish called <i>Trigonia</i> is found living, of which
-genus many fossil species occur in the Stonesfield slate. Moreover,
-the Araucarian pines are now abundant, together with ferns,
-in Australia, as they were in Europe in the oolitic period.</p>
-<div class="pb" id="Page_25">25</div>
-<h2 id="c13"><span class="small"><span class="ss">THE LIAS.</span></span></h2>
-<p>&ldquo;Lias&rdquo; is an English provincial name adopted in geology, and
-applied to a formation of limestone, marl, and petrified clay, which
-forms the base of the oolite, or immediately underlies that division
-of secondary rocks. The lias has been traced throughout a great
-part of Europe, forming beds of a thickness varying from 500 to
-1000 feet of the above-mentioned substances, which have been
-gradually deposited from a sea of corresponding extent and
-direction. The lias abounds with marine shells of extinct species,
-and with remains of fishes that were clad with large and hard
-shining scales. Of the higher or air-breathing animals of that
-period, the most characteristic were the</p>
-<h3 id="c14"><span class="sc">Enaliosauria.</span></h3>
-<p>The creatures called Enaliosauria or Sea-lizards (from the Greek
-<i>enalios</i>, of the sea, and <i>sauros</i>, lizard), were vertebrate animals, or
-had back bones, breathed the air like land quadrupeds, but were
-cold-blooded, or of a low temperature, like crocodiles and other
-reptiles. The proof that the Enaliosaurs respired atmospheric air
-immediately, and did not breathe water by means of gills like fishes,
-is afforded by the absence of the bony framework of the gill
-apparatus, and by the presence, position, and structure of the air
-passages leading from the nostrils, and also by the bony mechanism
-of the capacious chest or thoracic-abdominal cavity: all of which
-characters have been demonstrated by their fossil skeletons. With
-these characters the Sea-lizards combined the presence of two pairs
-of limbs shaped like fins, and adapted for swimming.</p>
-<p>The Enaliosauria offer two principal modifications of their
-anatomical, and especially their bony, structure, of which the two
-kinds grouped together under the respective names of Ichthyosaurus
-and Plesiosaurus are the examples.</p>
-<h3 id="c15"><span class="sc">The Ichthyosaurus.</span></h3>
-<p>The genus Ichthyosaurus includes many species: of which three
-<span class="pb" id="Page_26">26</span>
-of the best known and most remarkable have been selected for
-restoration to illustrate this most singular of the extinct forms of
-animal life.</p>
-<p>The name (from the Greek <i>ichthys</i>, a fish, and <i>sauros</i>, a lizard)
-indicates the closer affinity of the Ichthyosaur, as compared with
-the Plesiosaur, to the class of fishes. The Ichthyosaurs are remarkable
-for the shortness of the neck and the equality of the width of
-the back of the head with the front of the chest, impressing the
-observer of the fossil skeleton with a conviction that the ancient
-animal must have resembled the whale tribe and the fishes in the
-absence of any intervening constriction or &ldquo;neck.&rdquo;</p>
-<p>This close approximation in the Ichthyosaurs to the form of the
-most strictly aquatic back-boned (vertebrate) animals of the existing
-creation is accompanied by an important modification of the surfaces
-forming the joints of the back-bone, each of which surfaces
-is hollow, leading to the inference that they were originally connected
-together by an elastic bag, or &ldquo;capsule,&rdquo; filled with fluid&mdash;a
-structure which prevails in the class of fishes, but not in any of
-the whale or porpoise tribe, nor in any, save a few of the very
-lowest and most fish-like, of the existing reptiles.</p>
-<p>With the above modifications of the head, trunk, and limbs, in
-relation to swimming, there co-exist corresponding modifications of
-the tail. The bones of this part are much more numerous than in
-the Plesiosaurs, and the entire tail is consequently longer; but it
-does not show any of those modifications that characterise the bony
-support of the tail in fishes. The numerous &ldquo;caudal vertebr&aelig;&rdquo;
-of the Ichthyosaurus gradually decrease in size to the end of the
-tail, where they assume a compressed form, or are flattened from
-side to side, and thus the tail instead of being short and broad, as
-in fishes, is lengthened out as in crocodiles.</p>
-<p>The very frequent occurrence of a fracture of the tail, about
-one fourth of the way from its extremity, in well-preserved
-and entire fossil skeletons, is owing to that proportion of the
-end of the tail having supported a tail-fin. The only evidence
-which the fossil skeleton of a whale would yield of the
-powerful horizontal tail-fin characteristic of the living animal, is
-the depressed or horizontally flattened form of the bones supporting
-such fin. It is inferred, therefore, from the corresponding bones
-<span class="pb" id="Page_27">27</span>
-of the Ichthyosaurus being flattened from side to side, that it
-possessed a tegumentary tail-fin expanded in the vertical direction.
-The shape of a fin composed of such perishable material is of
-course conjectural, but from analogies, not necessary here to
-further enlarge upon, it was probably like, or nearly like, that
-which the able artist engaged in the restoration of the entire form
-of the animal has given to it. Thus, in the construction of the
-principal swimming-organ of the Ichthyosaurus we may trace, as
-in other parts of its structure, a combination of mammalian
-(beast-like), saurian (lizard-like), and piscine (fish-like) peculiarities.
-In its great length and gradual diminution we perceive its saurian
-character; the tegumentary nature of the fin, unsustained by bony
-fin-rays, bespeaks its affinity to the same part in the mammalian
-whales and porpoises; whilst its vertical position makes it closely
-resemble the tail-fin of the fish.</p>
-<p>The horizontality of the tail-fin of the whale tribe is essentially
-connected with their necessities as warm-blooded animals breathing
-atmospheric air; without this means of displacing a mass of
-water in the vertical direction, the head of the whale could not be
-brought with the required rapidity to the surface to respire; but
-the Ichthyosaurs, not being warm-blooded, or quick breathers,
-would not need to bring their head to the surface so frequently, or
-so rapidly, as the whale; and, moreover, a compensation for the
-want of horizontality of their tail-fin was provided by the addition
-of a pair of hind-paddles, which are not present in the whale
-tribe. The vertical fin was a more efficient organ in the rapid
-cleaving of the liquid element, when the Ichthyosaurs were in
-pursuit of their prey, or escaping from an enemy.</p>
-<p>That the Ichthyosaurs occasionally sought the shores, crawled
-on the strand, and basked in the sunshine, may be inferred from
-the bony structure connected with their fore-fins, which does not
-exist in any porpoise, dolphin, grampus, or whale; and for want of
-which, chiefly, those warm-blooded, air-breathing, marine animals are
-so helpless when left high and dry on the sands: the structure in question
-in the Ichthyosaur is a strong osseous arch, inverted and spanning
-across beneath the chest from one shoulder-joint to the other;
-and what is most remarkable in the structure of this &ldquo;scapular&rdquo;
-arch, as it is called, is, that it closely resembles, in the number,
-<span class="pb" id="Page_28">28</span>
-shape, and disposition of its bones, the same part in the singular
-aquatic mammalian quadruped of Australia, called <i>Ornithorhynchus</i>,
-<i>Platypus</i>, and Duck-mole. The Ichthyosaurs, when so visiting the
-shore, either for sleep, or procreation, would lie, or crawl prostrate,
-or with the belly resting or dragging on the ground.</p>
-<p>The most extraordinary feature of the head was the enormous
-magnitude of the eye; and from the quantity of light
-admitted by the expanded pupil it must have possessed great
-powers of vision, especially in the dusk. It is not uncommon to
-find in front of the orbit (cavity for the eye), in fossil skulls, a
-circular series of petrified thin bony plates, ranged round a central
-aperture, where the pupil of the eye was placed. The eyes of
-many fishes are defended by a bony covering consisting of two
-pieces; but a compound circle of overlapping plates is now found
-only in the eyes of turtles, tortoises, lizards, and birds. This
-curious apparatus of bony plates would aid in protecting the eyeball
-from the waves of the sea when the Ichthyosaurus rose to the
-surface, and from the pressure of the dense element when it dived
-to great depths; and they show, writes Dr. Buckland,<a class="fn" id="fr_4" href="#fn_4">[4]</a> &ldquo;that
-the enormous eye, of which they formed the front, was an optical
-instrument of varied and prodigious power, enabling the Ichthyosaurus
-to descry its prey at great or little distances, in the
-obscurity of night, and in the depths of the sea.&rdquo;</p>
-<p>Of no extinct reptile are the materials for a complete and
-exact restoration more abundant and satisfactory than of the Ichthyosaurus;
-they plainly show that its general external figure must
-have been that of a huge predatory abdominal fish, with a longer
-tail, and a smaller tail-fin: scale-less, moreover, and covered by
-a smooth, or finely wrinkled skin analogous to that of the
-whale tribe.</p>
-<p>The mouth was wide, and the jaws long, and armed with
-numerous pointed teeth, indicative of a predatory and carnivorous
-nature in all the species; but these differed from one another in
-regard to the relative strength of the jaws, and the relative size
-and length of the teeth.</p>
-<p>Masses of masticated bones and scales of extinct fishes, that
-lived in the same seas and at the same period as the Ichthyosaurus,
-<span class="pb" id="Page_29">29</span>
-have been found under the ribs of fossil specimens, in the
-situation where the stomach of the animal was placed; smaller,
-harder, and more digested masses, containing also fish-bones and
-scales have been found, bearing the impression of the structure of
-the internal surface of the intestine of the great predatory sea-lizard.
-These digested masses are called &ldquo;coprolites.&rdquo;</p>
-<p>In tracing the evidences of creative power from the earlier to the
-later formations of the earth&rsquo;s crust, remains of the Ichthyosaurus
-are first found in the lower lias, and occur, more or less abundantly,
-through all the superincumbent secondary strata up to, and inclusive
-of, the chalk formations. They are most numerous in the lias and
-oolite, and the largest and most characteristic species have been
-found in these formations.</p>
-<h3 id="c16">No. 12.&mdash;<span class="sc">Ichthyosaurus platyodon.</span></h3>
-<p>This most gigantic species, so called on account of the crown of
-the tooth being more flattened than in other species, and having
-sharp edges, as well as a sharp point, was first discovered in the
-lias of Lyme Regis, in Dorsetshire. Fossil remains now in the
-British Museum, and in the museum of the Geological Society,
-fully bear out the dimensions exhibited by the restoration of the
-animal as seen basking on the shore between the two specimens of
-Long-necked Plesiosaurs. The head of this species is relatively
-larger in proportion to the trunk, than in the <i>Ichthyosaurus communis</i>
-or <i>Ichthyosaurus tenuirostris</i>: the lower jaw is remarkably massive
-and powerful, and projects backwards beyond the joint, as far as
-it does in the crocodile. In the skull of an individual of this species,
-preserved in the apartments of the Geological Society of London, the
-cavity for the eye, or orbit, measures, in its long diameter, fourteen
-inches. The fore and hind paddles are large and of equal size.</p>
-<p>The lias of the valley of Lyme Regis, Dorsetshire, is the chief
-grave-yard of the <i>Ichthyosaurus platyodon</i>; but its remains are
-pretty widely distributed. They have been found in the lias of
-Glastonbury, of Bristol, of Scarborough and Whitby, and of Bitton,
-in Gloucestershire; some vertebr&aelig;, apparently of this species,
-have likewise been found in the lias at Ohmden, in Germany.</p>
-<div class="pb" id="Page_30">30</div>
-<h3 id="c17">No. 13.&mdash;<span class="sc">Ichthyosaurus tenuirostris.</span></h3>
-<p>Behind the <i>Ichthyosaurus platyodon</i>, is placed the restoration of
-the <i>Ichthyosaurus tenuirostris</i>, or Slender-snouted Fish-lizard. The
-most striking peculiarity of this species is the great length and
-slenderness of the jaw-bones, which, in combination with the large
-eye-sockets and flattened cranium, give to the entire skull a form
-which resembles that of a gigantic snipe or woodcock, with the bill
-armed with teeth. These weapons, in the present species, are
-relatively more numerous, smaller, and more sharply pointed than in
-the foregoing, and indicate that the <i>Ichthyosaurus tenuirostris</i> preyed
-on a smaller kind of fish. The fore-paddles are larger than the hind
-ones. In the museum of the Philosophical Institution, at Bristol,
-there is an almost entire skeleton of the present species which
-measures thirteen feet in length. It was discovered in the lias
-of Lyme Regis. Portions of jaws and other parts of the
-skeletons of larger individuals have been found fossil in the
-lias near Bristol, at Barrow-on-Soar, in Leicestershire, and at
-Stratford-on-Avon. The <i>Ichthyosaurus tenuirostris</i> has also left its
-remains in the lias formation at Boll and Amburg, in Wirtemberg,
-Germany.</p>
-<h3 id="c18">No. 14.&mdash;<span class="sc">Ichthyosaurus communis.</span></h3>
-<p>Of this species, which was the most &ldquo;common,&rdquo; when first discovered
-in 1824, but which has since been surpassed by other
-species in regard to the known number of individuals, the head is
-restored, as protruded from the water, to the right of the foregoing
-species.</p>
-<p>The <i>Ichthyosaurus communis</i> is characterised by its relatively
-large teeth, with expanded, deeply-grooved bases, and round conical
-furrowed crowns; the upper jaw contains, on each side, from forty
-to fifty of such teeth. The fore-paddles are three times larger than
-the hind ones. With respect to the size which it attained, the
-<i>Ichthyosaurus communis</i> seems only to be second to the <i>Ichthyosaurus
-platyodon</i>. In the museum of the Earl of Enniskillen, there is a
-fossil skull of the <i>Ichthyosaurus communis</i> which measures, in length,
-two feet nine inches, indicating an animal of at least twenty feet
-in length.</p>
-<div class="pb" id="Page_31">31</div>
-<h3 id="c19"><span class="sc">Plesiosaurus.</span></h3>
-<p>The discovery of this genus forms one of the most important
-additions that geology has made to comparative anatomy. Baron
-Cuvier deemed &ldquo;its structure to have been the most singular, and
-its characters the most monstrous, that had been yet discovered amid
-the ruins of a former world.&rdquo; To the head of a lizard it united
-the teeth of a crocodile, a neck of enormous length, resembling the
-body of a serpent, a trunk and tail having the proportions of an
-ordinary quadruped, the ribs of a chameleon, and the paddles of a
-whale. &ldquo;Such,&rdquo; writes Dr. Buckland, &ldquo;are the strange combinations
-of form and structure in the Plesiosaurus, a genus, the
-remains of which, after interment for thousands of years amidst
-the wreck of millions of extinct inhabitants of the ancient earth,
-are at length recalled to light by the researches of the geologist,
-and submitted to our examination, in nearly as perfect a state as
-the bones of species that are now existing upon the earth.&rdquo; (Op.
-cit., vol. v. p. 203).</p>
-<p>The first remains of this animal were discovered in the lias of
-Lyme Regis, about the year 1823, and formed the subject of the
-paper by the Rev. Mr. Conybeare (now Dean of Llandaff), and
-Mr. (now Sir Henry) De la Beche, in which the genus was
-established and named Plesiosaurus (from the Greek words, <i>plesios</i>
-and <i>sauros</i>, signifying &ldquo;near&rdquo; or &ldquo;allied to,&rdquo; and &ldquo;lizard&rdquo;),
-because the authors saw that it was more nearly allied to the lizard
-than was the Ichthyosaurus from the same formation.</p>
-<p>The entire and undisturbed skeletons of several individuals, of
-different species, have since been discovered, fully confirming the
-sagacious restorations by the original discoverers of the <i>Plesiosaurus</i>.
-Of these species three have been selected as the subjects of Mr.
-Waterhouse Hawkins&rsquo;s reconstructions and representations of the
-living form of the strange reptiles.</p>
-<h3 id="c20">No. 15.&mdash;<span class="sc">Plesiosaurus macrocephalus.</span></h3>
-<p>The first of these has been called, from the relatively larger size
-of the head, the <i>Plesiosaurus macrocephalus</i> (No. 15), (Gr. <i>macros</i>,
-long, <i>cephale</i>, head). The entire length of the animal, as indicated
-by the largest remains, and as given in the restoration, is eighteen
-<span class="pb" id="Page_32">32</span>
-feet, the length of the head being two feet, that of the neck six
-feet; the greatest girth of the body yields seven feet.</p>
-<div class="img" id="fig4">
-<img src="images/p03.jpg" alt="" width="800" height="563" />
-<p class="pcap">No. 15. Plesiosaurus macrocephalus.</p>
-</div>
-<p>Although Baron Cuvier and Dr. Buckland both rightly allude
-to the resemblance of the fins or paddles of the Plesiosaur to
-those of the whale, yet this most remarkable difference must be
-borne in mind, that, whereas the whale tribe have never more than
-one pair of fins, the Plesiosaurs have always two pairs, answering
-to the fore and hind limbs of land quadrupeds; and the fore-pair
-of fins, corresponding to those in the whale, differed by being more
-firmly articulated, through the medium of collar-bones (clavicles),
-and of two other very broad and strong bones (called coracoids),
-to the trunk (thorax), whereby they were the better enabled to
-move the animal upon dry land.</p>
-<p>Remains of the <i>Plesiosaurus macrocephalus</i> have been discovered
-in the lias of Lyme Regis, in Dorsetshire, and of Weston, in
-Somersetshire.</p>
-<h3 id="c21">No. 16.&mdash;<span class="sc">Plesiosaurus dolichodeirus.</span></h3>
-<p>Further to the left, on the shore of the Secondary Island, is a
-restoration of the <i>Plesiosaurus dolichodeirus</i>, or Long-necked Plesiosaurus
-(No. 16). The head in this remarkable species is smaller, and
-<span class="pb" id="Page_33">33</span>
-the neck proportionally longer than in the <i>Plesiosaurus macrocephalus</i>.
-The remains of the Long-necked Plesiosaur have been found chiefly
-at Lyme Regis, in Dorsetshire. The well known specimen of an
-almost entire skeleton, formerly in the possession of His Grace the
-Duke of Buckingham, is now in the British Museum.</p>
-<h3 id="c22">No. 17.&mdash;<span class="sc">Plesiosaurus Hawkinsii.</span></h3>
-<p>The most perfect skeletons of the Plesiosaurus are those that
-have been wrought out of the lias at Street, near Glastonbury, by
-Mr. Thomas Hawkins, F.G.S., and which have been purchased by
-the trustees of the British Museum. A restoration is given by
-Mr. Waterhouse Hawkins, at No. 17, of a species with characters
-somewhat intermediate between the Large-headed and Long-necked
-Plesiosaurs, and which has been called, after its discoverer, <i>Plesiosaurus
-Hawkinsii</i>.</p>
-<p>The Plesiosaurs breathed air like the existing crocodiles and the
-whale tribe, and appear to have lived in shallow seas and estuaries.
-That the Long-necked Sea-lizard was aquatic is evident from the
-form of its paddles; and that it was marine is almost equally so,
-from the remains with which its fossils are universally associated;
-that it may have occasionally visited the shore, the resemblance of
-its extremities to those of a turtle leads us to conjecture; its
-motion, however, must have been very awkward on land; its long
-neck must have impeded its progress through the water, presenting
-a striking contrast to the organisation which so admirably adapted
-the Ichthyosaurus to cut its swift course through the waves. &ldquo;May
-it not, therefore, be concluded that it swam upon, or near the
-surface,&rdquo; asks its accomplished discoverer, &ldquo;arching back its long
-neck like a swan, and occasionally darting it down at the fish that
-happened to float within its reach? It may perhaps have lurked
-in shoal-water along the coast, concealed among the sea-weed, and,
-raising its nostrils to a level with the surface from a considerable
-depth, may have found a secure retreat from the assaults of
-dangerous enemies; while the length and flexibility of its neck
-may have compensated for the want of strength in its jaws, and
-its incapacity for swift motion through the water, by the suddenness
-<span class="pb" id="Page_34">34</span>
-and agility of the attack which enabled it to make on every
-animal fitted for its prey which came within its reach.&rdquo;<a class="fn" id="fr_5" href="#fn_5">[5]</a></p>
-<p>For the Secondary Island three species of the Plesiosaurus have
-been restored, the <i>Plesiosaurus macrocephalus</i>, the <i>Plesiosaurus
-dolichodeirus</i> (Gr. <i>dolichos</i>, long, <i>deire</i>, neck), and the <i>Plesiosaurus
-Hawkinsii</i>. The name &ldquo;long-necked&rdquo; was given to the second of
-these species before it was known that many other species with
-long and slender necks had existed in the seas of the same ancient
-period: the third species is named after Mr. Thomas Hawkins,
-F.G.S., the gentleman by whose patience, zeal, and skill, the
-British Museum has been enriched with so many entire skeletons
-of these most extraordinary extinct sea-lizards.</p>
-<p>The remains of all these species occur in the lias at Lyme Regis,
-and at Street, near Glastonbury; but the <i>Plesiosaurus Hawkinsii</i>
-is the most abundant in the latter locality.</p>
-<div class="img">
-<img src="images/p04.jpg" alt="{uncaptioned}" width="800" height="567" />
-</div>
-<div class="pb" id="Page_35">35</div>
-<h2 id="c23"><span class="small"><span class="ss">NEW RED SANDSTONE.</span></span></h2>
-<p>&ldquo;Trias&rdquo; is an arbitrary term applied in geology to the upper
-division of a vast series of red loams, shales, and sandstones, interposed
-between the lias and the coal, in the midland and western
-counties of England. This series is collectively called the &ldquo;New
-Red Sandstone formation,&rdquo; to distinguish it from the &ldquo;Old Red
-Sandstone formation,&rdquo; of similar or identical mineral character,
-which lies immediately beneath the coal.</p>
-<p>The animals which have been restored and placed on the lowest
-formation of the Secondary Island, are peculiar to the &ldquo;triassic,&rdquo;
-or upper division of the &ldquo;New Red Sandstone&rdquo; series, which
-division consists, in England, of saliferous (salt-including) shales and
-sandstones, from 1000 to 1500 feet thick in Lancashire and
-Cheshire, answering to the formation called &ldquo;Keuper-sandstone&rdquo;
-by the German geologists; and of sandstone and quartzose conglomerate
-of 600 feet in thickness, answering to the German
-&ldquo;Bunter-sandstone.&rdquo;</p>
-<p>The largest and most characteristic animals of the trias are
-reptiles of the order</p>
-<h3 id="c24"><span class="sc">Batrachia.</span></h3>
-<p>The name of this order is from the Greek word <i>batrachos</i>,
-signifying a frog: and the order is represented in the present
-animal-population of England by a few diminutive species of frogs,
-toads, and newts, or water-salamanders. But, at the period of the
-deposition of the new red sandstone, in the present counties of
-Warwick and Cheshire, the shores of the ancient sea, which were
-then formed by that sandy deposit, were trodden by reptiles,
-having the essential bony characters of the Batrachia, but combining
-these with other bony characters of crocodiles and lizards;
-and exhibiting both under a bulk which is made manifest by the
-restoration of the largest known species, (No. 16), occupying the
-<span class="pb" id="Page_36">36</span>
-extreme promontory of the Island, illustrative of the lowest and
-oldest deposits of the secondary series of rocks. The species in
-question is called the&mdash;</p>
-<h3 id="c25">No. 18.&mdash;<span class="sc">Labyrinthodon Salamandroides.</span></h3>
-<p>or the Salamander-like Labyrinthodon; the latter term being from
-the Greek, signifying the peculiar structure of the teeth, which
-differ from all other reptiles in the huge Batrachia in question, by
-reason of the complex labyrinthic interblending of the different
-substances composing the teeth. The skull of the Labyrinthodon
-is attached to the neck-bones by two joints or condyles, and the
-teeth are situated both on the proper jaw-bones, and on the bone
-of the roof of the mouth called &ldquo;vomer:&rdquo; both these characters
-are only found at the present day in the frogs and salamanders.
-The hind-foot of the Labyrinthodon was also, as in the toad and
-frog, much larger than the fore-foot; and the innermost digit in
-both was short and turned in, like a thumb.</p>
-<div class="img" id="fig5">
-<img src="images/p05.jpg" alt="" width="800" height="552" />
-<p class="pcap">No. 18. Labyrinthodon Salamandroides.</p>
-</div>
-<p>Consecutive impressions of the prints of these feet have been
-traced for many steps in succession (as is accurately represented in
-<span class="pb" id="Page_37">37</span>
-the new red sandstone part of the Secondary Island) in quarries of
-that formation in Warwickshire, Cheshire, and also in Lancashire,
-more especially at a quarry of a whitish quartzose sandstone at
-Storton Hill, a few miles from Liverpool. The foot-marks are
-partly concave and partly in relief; the former are seen upon the
-upper surface of the sandstone slabs, but those in relief are only
-upon the lower surfaces, being, in fact, natural casts, formed on the
-subjacent foot-prints as in moulds. The impressions of the hind-foot
-are generally eight inches in length and five inches in width:
-near each large footstep, and at a regular distance&mdash;about an inch
-and a half&mdash;before it, a smaller print of the fore-foot, four inches
-long and three inches wide, occurs. The footsteps follow each
-other in pairs, each pair in the same line, at intervals of about
-fourteen inches from pair to pair. The large as well as the small
-steps show the thumb-like toe alternately on the right and left
-side, each step making a print of five toes.</p>
-<p>Foot-prints of corresponding form but of smaller size have been
-discovered in the quarry at Storton Hill, imprinted on five thin
-beds of clay, lying one upon another in the same quarry, and
-separated by beds of sandstone. From the lower surface of the
-sandstone layers, the solid casts of each impression project in high
-relief, and afford models of the feet, toes, and claws of the animals
-which trod on the clay.</p>
-<p>Similar foot-prints were first observed in Saxony, at the village of
-Hessberg, near Hillburghausen, in several quarries of a gray
-quartzose sandstone, alternating with beds of red sandstone, and of
-the same geological age as the sandstones of England that had
-been trodden by the same strange animal. The German geologist,
-who first described them, proposed the name of <i>Cheirotherium</i> (Gr.
-<i>cheir</i>, the hand, <i>therion</i>, beast), for the great unknown animal that
-had left the foot-prints, in consequence of the resemblance, both of
-the fore and hind feet, to the impression of a human hand, and
-Dr. Kaup conjectured that the animal might be a large species of
-the opossum-kind. The discovery, however, of fossil skulls, jaws,
-teeth, and a few other bones in the sandstones exhibiting the
-footprints in question, has rendered it more probable that both the
-footprints and the fossils are evidences of the same kind of huge
-extinct Batrachian reptiles.</p>
-<div class="pb" id="Page_38">38</div>
-<p>An entire skull of the largest species discovered in the new red
-sandstones of Wurtemberg; a lower jaw of the same species found
-in the same formation in Warwickshire; some vertebr&aelig;, and a
-few fragments of bones of the limbs, have served, with the indications
-of size and shape of the trunk of the animal yielded by the
-series of consecutive foot-prints, as the basis of the restoration of
-the <i>Labyrinthodon salamandroides</i>, in the Secondary Island. It is
-to be understood, however, that, with the exception of the head,
-the form of the animal is necessarily more or less conjectural.</p>
-<h3 id="c26">Nos. 19 &amp; 20.&mdash;<span class="sc">Labyrinthodon pachygnathus.</span></h3>
-<p>This name, signifying the Thick-jawed Labyrinthodon, was given
-by its discoverer to a species of
-these singular Batrachia, found in
-the new red sandstone of Warwickshire,
-and which bears to the largest
-species the proportion exhibited by
-the head and fore-part of the body,
-as emerging from the water, for
-which parts alone the fossils hitherto
-discovered justify the restoration.<a class="fn" id="fr_6" href="#fn_6">[6]</a></p>
-<div class="img" id="fig6">
-<img src="images/p06.jpg" alt="" width="500" height="301" />
-<p class="pcap">Nos. 19 &amp; 20. Section of Tooth of Labyrinthodon.
-<br /><i>a</i> Pulp-cavity: <i>b b</i> inflected folds of ossified capsule of tooth.</p>
-</div>
-<h3 id="c27">Nos. 21 &amp; 22.&mdash;<span class="sc">Dicynodon.</span></h3>
-<p>In 1844 Mr. Andrew G. Bain, who had been employed in the
-construction of military roads in the colony of the Cape of Good
-Hope, discovered, in the tract of country extending northwards
-from the county of Albany, about 450 miles east of Cape Town,
-several nodules or lumps of a kind of sandstone, which, when
-broken, displayed, in most instances, evidences of fossil bones, and
-usually of a skull with two large projecting teeth. Accordingly,
-these evidences of ancient animal life in South Africa were first
-notified to English geologists by Mr. Bain under the name of
-&ldquo;Bidentals;&rdquo; and the specimens transmitted by him were submitted
-<span class="pb" id="Page_39">39</span>
-at his request to Professor Owen for examination. The
-results of the comparisons thereupon instituted went to show that
-there had formerly existed in South Africa, and from geological
-evidence, probably, in a great salt-water lake or inland sea, since
-converted into dry land, a race of reptilian animals presenting in
-the construction of their skull characters of the crocodile, the
-tortoise, and the lizard, coupled with the presence of a pair of huge
-sharp-pointed tusks, growing downwards, one from each side of the
-upper jaw, like the tusks of the mammalian morse or walrus. No
-other kind of teeth were developed in these singular animals: the
-lower jaw was armed, as in the tortoise, by a trenchant sheath of
-horn. Some bones of the back, or vertebr&aelig;, by the hollowness of
-the co-adapted articular surfaces, indicate these reptiles to have been
-good swimmers, and probably to have habitually existed in water;
-but the construction of the bony passages of the nostrils proves
-that they must have come to the surface to breathe air.</p>
-<p>Some extinct plants allied to the Lepidodendron, with other
-fossils, render it probable that the sandstones containing the
-Dicynodont reptiles were of the same geological age as those that
-have revealed the remains of the Labyrinthodonts in Europe.</p>
-<p>The generic name Dicynodon is from the Greek words signifying
-&ldquo;two tusks or canine teeth.&rdquo; Three species of this genus have
-been demonstrated from the fossils transmitted by Mr. Bain.</p>
-<p>The <i>Dicynodon lacerticeps</i>, or Lizard-headed Dicynodon, attained
-the bulk of a walrus; the form of the head and tusks is correctly
-given in the restoration (No. 21); the trunk has been added
-conjecturally, to illustrate the strange combination of characters
-manifested in the head.</p>
-<p>A second species, with a head so formed as to have given the
-animal somewhat of the physiognomy of an owl, has been partially
-restored at No. 22.</p>
-<div class="pb" id="Page_40">40</div>
-<div class="img" id="fig7">
-<img src="images/p07.jpg" alt="" width="504" height="799" />
-<p class="pcap">No. 8. Dinornis.</p>
-</div>
-<h2 id="c28"><span class="small">FOOTNOTES</span></h2>
-<div class="fnblock"><div class="fndef"><a class="fn"  id="fn_1" href="#fr_1">[1]</a>Lyell, &ldquo;Manual of Elementary Geology.&rdquo;
-</div><div class="fndef"><a class="fn"  id="fn_2" href="#fr_2">[2]</a>&ldquo;The first specimens of the teeth were found by Mrs. Mantell in the coarse
-conglomerate of the Forest, in the spring of 1822.&rdquo;&mdash;Mantell, &ldquo;Geology of the
-South-East of England,&rdquo; 8vo, 1833, p. 268.
-</div><div class="fndef"><a class="fn"  id="fn_3" href="#fr_3">[3]</a>&ldquo;Report of British Fossil Reptiles,&rdquo; 1841, p. 110.
-</div><div class="fndef"><a class="fn"  id="fn_4" href="#fr_4">[4]</a>Op. cit., p. 174.
-</div><div class="fndef"><a class="fn"  id="fn_5" href="#fr_5">[5]</a>&ldquo;Transactions of the Geological Society,&rdquo; Second Series, vi. 503. 1841.
-</div><div class="fndef"><a class="fn"  id="fn_6" href="#fr_6">[6]</a>Conybeare, Geol. Trans., i. 388.
-</div>
-</div>
-<p class="tbcenter"><span class="smaller">BRADBURY AND EVANS, PRINTERS, WHITEFRIARS.</span></p>
-<h2>Transcriber&rsquo;s Notes</h2>
-<ul>
-<li>Silently corrected a few typos.</li>
-<li>Retained publication information from the printed edition: this eBook is public-domain in the country of publication.</li>
-<li>In the text versions only, text in <i>italics</i> is delimited by _underscores_.</li>
-</ul>
-
-
-
-
-
-
-
-<pre>
-
-
-
-
-
-End of the Project Gutenberg EBook of Geology and Inhabitants of the Ancient
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