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The World Before the Deluge Part 14

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4) is rich in Polyzoa. The fossiliferous limestone (No. 3), Mr. King considers, is a deep-water formation, from the numerous Polyzoa which it contains. One of these, _Fenestella retiformis_, found in the Permian rocks of England and Germany, sometimes measures eight inches in width.

Many species of Mollusca, and especially Brachiopoda, appear in the Permian seas of this age, _Spirifera_ and _Producta_ being the most characteristic.

Other sh.e.l.ls now occur, which have not been observed in strata newer than the Permian. _Strophalosia_ (Fig. 73) is abundantly represented in the Permian rocks of Germany, Russia, and England, and much more sparingly in the yellow magnesian limestone, accompanied by _Spirifera undulata_, &c. _S. Schlotheimii_ is widely disseminated both in England, Germany, and Russia, with _Lingula Credneri_, and other Palaeozoic Brachiopoda. Here also we note the first appearance of the Oyster, but still in small numbers. _Fenestella_ represents the Polyzoa. _Schizodus_ has been found by Mr. Binney in the Upper Red Permian Marls of Manchester; but no sh.e.l.ls of any kind have hitherto been met with in the Rothliegende of Lancas.h.i.+re, or in the Vale of Eden.

The brecciated limestone (No. 2) and the concretionary ma.s.ses (No. 1) overlying it (although Professor King has attempted to separate them) are considered by Professor Sedgwick as different forms of the same rock. They contain no foreign elements, but seem to be composed of fragments of the underlying limestone, No. 3. Some of the angular ma.s.ses at Tynemouth cliff are two feet in diameter, and none of them are water-worn.

[Ill.u.s.tration: Fig. 73.--Strophalosia Morrisiana.]

[Ill.u.s.tration: Fig. 74.--Cyrtoceras depressum.]

[Ill.u.s.tration: Fig. 75.--Walchia Schlotheimii.]

The crystalline or concretionary limestone (No. 1) formation is seen upon the coast of Durham and Yorks.h.i.+re, between the Wear and the Tees; and Mr. King thinks that the character of the sh.e.l.ls and the absence of corals indicate a deposit formed in shallow water.

The plants also found in some of the Permian strata indicate the neighbourhood of land. These are land species, and chiefly of genera common in the Coal-measures. Fragments of supposed coniferous wood (generally silicified) are occasionally met with in the Permian red beds of many parts of England.

Among the Ferns characteristic of the period may be mentioned _Sphenopteris dichotoma_ and _S. Artemisiaefolia_; _Pecopteris lonchitica_ and _Neuropteris gigantea_, figured on pp. 143, 144. "If we are," says Lyell, "to draw a line between the Secondary and Primary fossiliferous strata, it must be run through the middle of what was once called the 'New Red.' The inferior half of this group will rank as Primary or Palaeozoic, while its upper member will form the base of the Secondary or Mesozoic series."[52] Among the _Equiseta_ of the Permian formation of Saxony, Colonel Von Gutbier found _Calamites gigas_ and sixty species of fossil plants, most of them Ferns, forty of which have not been found elsewhere. Among these are several species of _Walchia_, a genus of Conifers, of which an example is given in Fig. 75.

[52] "Elements of Geology," p. 456.

[Ill.u.s.tration: Fig. 76.--Trigonocarpum Noggerathii.]

In their stems, leaves, and cones, they bear some resemblance to the _Araucarias_, which have been introduced from North America into our pleasure-grounds during the last half-century.

Among the genera enumerated by Colonel Von Gutbier are some fruits called _Cardiocarpon_, and _Asterophyllites_ and _Annularia_, so characteristic of the Carboniferous age. The Lepidodendron is also common to the Permian rocks of Saxony, Russia, and Thuringia; also the _Noggerathia_, a family of large trees, intermediate between Cycads (Fig. 72) and the Conifers. The fruit of one of these is represented in Fig 76.

PERMIAN ROCKS.--We now give a sketch of the physiognomy of the earth in Permian times. Of what do the beds consist? What is the extent, and what is the mineralogical const.i.tution of the rocks deposited in the seas of the period? The Permian formation consists of three members, which are in descending order--

1. Upper Permian sandstone, or Gres des Vosges; 2. Magnesian Limestone, or Zechstein; 3. Lower Red Sandstone, Marl-slate or Kupferschiefer, and Rothliegende.

The _gres des Vosges_, usually of a red colour, and from 300 to 450 feet thick, composes all the southern part of the Vosges Mountains, where it forms frequent level summits, which are evidences of an ancient plain that has been acted on by running water. It only contains a few vegetable remains.

The _Magnesian Limestone_, Pierre de mine, or Zechstein, so called in consequence of the numerous metalliferous deposits met with in its diverse beds, presents in France only a few insignificant fragments; but in Germany and England it attains the thickness of 450 feet. It is composed of a diversified ma.s.s of Magnesian Limestone, generally of a yellow colour, but sometimes red and brown, and bituminous clay, the last black and fetid. The subordinate rocks consist of marl, gypsum, and inflammable bituminous schists. The beds of marl slate are remarkable for the numbers of peculiar fossil fishes which they contain; and from the occurrence of small proportions of argentiferous grey copper-ore, met with in the bituminous shales which are worked in the district of Mansfeld, in Thuringia--the latter are called _Kupferschiefer_ in Germany.

The _Lower Red Sandstone_, which attains a thickness of from 300 to 600 feet, is found over great part of Germany, in the Vosges, and in England. Its fossil remains are few and rare; they include silicified trunks of Conifers, some impressions of Ferns, and Calamites.

In England the Permian strata, to a great extent, consist of red sandstones and marls; and the Magnesian Limestone of the northern counties is also, though to a less degree, a.s.sociated with red marls.

In Lancas.h.i.+re thin beds of Magnesian Limestone are interstratified with red marls in the upper Permian strata, beneath which there are soft Red Sandstones, estimated by Mr. Hull to be about 1,500 feet thick. These are supposed to represent the Rothliegende, and no sh.e.l.ls of any kind have been found in them. The upper Permian beds, however, contain a few Magnesian Limestone species, such as _Gervillia antiqua_, _Pleurophorus costatus_, _Schizodus obscurus_, and some others, but all small and dwarfed.

The coal-fields of North and South Staffords.h.i.+re, Tamworth, Coalbrook Dale, and of the Forest of Wyre, are partly bordered by Permian rocks, which lie unconformably on the Coal-measures; as is the case, also, in the immediate neighbourhood of Manchester, where they skirt the borders of the main coal-field, and consist of the Lower Red Sandstone, resting unconformably on different parts of the Coal-measures, and overlaid by the pebble-beds of the Trias.

At Stockport the Permian strata are stated by Mr. Hull to be more than 1,500 feet thick.

In Yorks.h.i.+re, Nottinghams.h.i.+re, and Derbys.h.i.+re, the Permian strata are stated by Mr. Aveline to be divided into two chief groups: the Roth-liegende, of no great thickness, and the Magnesian Limestone series; the latter being the largest and most important member of the Permian series in the northern counties of England. The Magnesian Limestone consists there of two great bands, separated by marls and sandstone, and quarried for building and for lime. In Derbys.h.i.+re and Yorks.h.i.+re the magnesian limestone, under the name of Dolomite, forms an excellent building-stone, which has been used in the construction of the Houses of Parliament.

In the midland counties and on the borders of Wales, the Permian section is different from that of Nottinghams.h.i.+re and the North of England. The Magnesian Limestones are absent, and the rocks consist princ.i.p.ally of dark-red marl, brown and red sandstones, and calcareous conglomerates and breccias, which are almost entirely unfossiliferous. In Warwicks.h.i.+re, where they rest conformably on the Coal-measures, they occupy a very considerable tract of country, and are of very great thickness, being estimated by Mr. Howell to be 2,000 feet thick.

In the east of England the Magnesian Limestone contains a numerous marine fauna, but much restricted when compared with that of the Carboniferous period. The sh.e.l.ls of the former are all small and dwarfed in size when compared with their congeners of Carboniferous times, when such there are, and in this respect, and the small number of genera, they resemble the living mollusca of the still less numerous fauna of the Caspian Sea.

Besides the poverty and small size of the mollusca, the later strata of the true Magnesian Limestone seem to afford strong indications that they may have been deposited in a great inland salt-lake subject to evaporation.

The absence of fossils in much of the formation may be partly accounted for by its deposition in great measure from solution, and the uncongenial nature of the waters of a salt-lake may account for the poverty-stricken character of the whole molluscan fauna.

The red colouring-matter of the Permian sandstones and marls is considered, by Professor Ramsay, to be due to carbonate of iron introduced into the waters, and afterwards precipitated as peroxide through the oxidising action of the air and the escape of the carbonic acid which held it in solution. This circ.u.mstance of the red colour of the Permian beds affords an indication that the red Permian strata were deposited in inland waters unconnected with the main ocean, which waters may have been salt or fresh as the case may be.

"The Magnesian Limestone series of the east of England may, possibly, have been connected directly with an open sea at the commencement of the deposition of these strata, whatever its subsequent history may have been; for the fish of the marl strata have generically strong affinities with those of Carboniferous age, some of which were truly marine, while others certainly penetrated shallow lagoons bordered by peaty flats."[53]

[53] "On the Red Rocks of England," by A. C. Ramsay. _Quart. Jour.

Geol. Soc._, vol. xxvii., p. 246.

There is indisputable evidence that the Permian ocean covered an immense area of the globe. In the Permian period this ocean extended from Ireland to the Ural mountains, and probably to Spitzbergen, with its northern boundary defined by the Carboniferous, Devonian, Silurian, and Igneous regions of Scotland, Scandinavia, and Northern Russia; and its southern boundaries apparently stretching far into the south of Europe (King). The chain of the Vosges, stretching across Rhenish Bavaria, the Grand Duchy of Baden, as far as Saxony and Silesia, would be under water. They would communicate with the ocean, which covered all the midland and western counties of England and part of Russia. In other parts of Europe the continent has varied very little since the preceding Devonian and Carboniferous ages. In France the central plateaux would form a great island, which extended towards the south, probably as far as the foot of the Pyrenees; another island would consist of the ma.s.s of Brittany. In Russia the continent would have extended itself considerably towards the east; finally, it is probable that, at the end of the Carboniferous period, the Belgian continent would stretch from the Departments of the Pas-de-Calais and Du Nord, in France, and would extend up to and beyond the Rhine.

In England, the Silurian archipelago, now filled up and occupied by deposits of the Devonian and Carboniferous systems, would be covered with carboniferous vegetation; dry land would now extend, almost without interruption, from Cape Wrath to the Land's End; but, on its eastern sh.o.r.e, the great ma.s.s of the region now lying less than three degrees west of Greenwich would, in a general sense, be under water, or form islands rising out of the sea. Alphonse Esquiros thus eloquently closes the chapter of his work in which he treats of this formation in England: "We have seen seas, vast watery deserts, become populated; we have seen the birth of the first land and its increase; ages succeeding each other, and Nature in its progress advancing among ruins; the ancient inhabitants of the sea, or at least their spoils, have been raised to the summit of lofty mountains. In the midst of these vast cemeteries of the primitive world we have met with the remains of millions of beings; entire species sacrificed to the development of life. Here terminates the first ma.s.s of facts const.i.tuting the infancy of the British Islands.

But great changes are still to produce themselves on this portion of the earth's surface."

Having thus described the _Primary Epoch_, it may be useful, before entering on what is termed by geologists the _Secondary Epoch_, to glance backwards at the facts which we have had under consideration.

In this Primary period plants and animals appear for the first time upon the surface of the cooling globe. We have said that the seas of the epoch were then dominated by the fishes known as _Ganoids_ (from ?a???, _glitter_), from the brilliant polish of the enamelled scales which covered their bodies, sometimes in a very complicated and fantastic manner; the _Trilobites_ are curious Crustaceans, which appear and altogether disappear in the Primary epoch; an immense quant.i.ty of Mollusca, Cephalopoda, and Brachiopoda; the _Encrinites_, animals of curious organisation, which form some of the most graceful ornaments of our Palaeontological collections.

[Ill.u.s.tration: Fig. 77.--Lithostrotion. (Fossil Coral.)]

But, among all these beings, those which prevailed--those which were truly the kings of the organic world--were the Fishes, and, above all, the _Ganoids_, which have left no animated being behind them of similar organisation. Furnished with a sort of defensive armour, they seem to have received from Nature this means of protection to ensure their existence, and permit them to triumph over all the influences which threatened them with destruction in the seas of the ancient world.

[Ill.u.s.tration: Fig. 78.--Rhyncholites, upper, side, and internal views.

1, Side view (Muschelkalk of Luneville); 2, Upper view (same locality); 3, Upper view (Lias of Lyme Regis); 4, Calcareous point of an under mandible, internal view, from Luneville. (Buckland.)]

In the Primary epoch the living creation was in its infancy. No Mammals then roamed the forests; no bird had yet displayed its wings. Without Mammals, therefore, there was no maternal instinct; none of the soft affections which are, with animals, as it were, the precursors of intelligence. Without birds, also, there could be no songs in the air.

Fishes, Mollusca, and Crustacea silently ploughed their way in the depths of the sea, and the immovable Crinoid lived there. On the land we only find a few marsh-frequenting Reptiles, of small size--forerunners of those monstrous Saurians which make their appearance in the Secondary epoch.

The vegetation of the Primary epoch is chiefly of inferior organisation.

With a few plants of a higher order, that is to say, Dicotyledons, Calamites, Sigillarias, it was the Cryptogamia (also several species of Ferns, the Lepidodendra, Lycopodiaceae, and the Equisetaceae, and some doubtfully allied forms, termed Noggerathia), then at their maximum of development, which formed the great ma.s.s of the vegetation.

Let us also consider, in this short a.n.a.lysis, that during the epoch under consideration, what we call _climate_ may not have existed. The same animals and the same plants then lived in the polar regions as at the equator. Since we find, in the Primary formations of the icy regions of Spitzbergen and Melville Islands, nearly the same fossils which we meet with in these same rocks in the torrid zone, we must conclude that the temperature at this epoch was uniform all over the globe, and that the heat of the earth itself was sufficiently high to render inappreciable the calorific influence of the sun.

During this same period the progressive cooling of the earth occasioned frequent ruptures and dislocations of the ground; the terrestrial crust, in opening, afforded a pa.s.sage for the rocks called _igneous_, such as granite, afterwards to the porphyries and syenites, which poured slowly through these immense fissures, and formed mountains of granite and porphyry, or simple clefts, which subsequently became filled with oxides and metallic sulphides, forming what are now designated metallic veins.

The great mountain-range of Ben Nevis offers a striking example of the first of these phenomena; through the granite base a distinct natural section can be traced of porphyry ejected through the granite, and of syenite through the porphyry. These geological commotions (which occasioned, not over the whole extent of the earth, but only in certain places, great movements of the surface) would appear to have been more frequent at the close of the Primary epoch; during the interval which forms the pa.s.sage between the Primary and Secondary epochs; that is to say, between the Permian and the Tria.s.sic periods. The phenomena of eruptions, and the character of the rocks called eruptive, are treated of in a former chapter.

[Ill.u.s.tration: Fig. 79. _a_, Pentacrinites Briareus, reduced; _b_, the same from the Lias of Lyme Regis; natural size.]

The convulsions and disturbances by which the surface of the earth was agitated did not extend, let it be noted, over the whole of its circ.u.mference; the effects were partial and local. It would, then, be wrong to affirm, as is a.s.serted by many modern geologists, that the dislocations of the crust and the agitations of the surface of the globe extended to both hemispheres, resulting in the destruction of all living creatures. The Fauna and Flora of the Permian period did not differ essentially from the Fauna and Flora of the Coal-measures, which shows that no general revolution occurred to disturb the entire globe between these two epochs. Here, then, as in all a.n.a.logous cases, it is unnecessary to recur to any general cataclysm to explain the pa.s.sage from one epoch to another. Have we not, almost in our our own day, seen certain species of animals die out and disappear, without the least geological revolution? Without speaking of the Beaver, which abounded two centuries ago on the banks of the Rhone, and in the Cevennes, which still lived at Paris in the little river Bievre in the middle ages, its existence being now unknown in these lat.i.tudes, although it is still found in America and other countries, we could cite many examples of animals which have become extinct in times by no means remote from our own. Such are the _Dinornis_ and the _Epyornis_, colossal birds of New Zealand and Madagascar, and the _Dodo_, which lived in the Isle of France in 1626. _Ursus spelaeus_, _Cervus Megaceros_, _Bos primigenius_, are species of Bear, Deer, and Ox which were contemporary with man, but have now become extinct. In France we no longer know the gigantic wood-stag, figured by the Romans on their monuments, and which they had brought from England for the fine quality of its flesh. The Erymanthean boar, so widely dispersed during the ancient historical period, no longer exists among our living races, any more than the Crocodiles _lacunosus_ and _laciniatus_ found by Geoffroy St.-Hilaire in the catacombs of ancient Egypt. Many races of animals figured in the mosaics of Palestrina, engraved and painted along with species now actually existing, are no longer found living in our days any more than are the Lions with curly manes, which formerly existed in Syria, and perhaps even in Thessaly and the northern parts of Greece. From what happens in our own time, we may infer what has taken place in times antecedent to the appearance of man; and the idea of successive cataclysms of the globe, must be restrained within bounds. Must we imagine a series of geological revolutions to account for the disappearance of animals which have evidently become extinct in a natural way? What has come to pa.s.s in our days, it is reasonable to conclude, may have taken place in the times anterior to the appearance of man.

[Ill.u.s.tration: Fig. 80.--Terebellaria ramosissima. (Recent Coral.)]

SECONDARY EPOCH.

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