Fig. 184. Oolitic Mammals.—1, Lower jaw and teeth of Phascolotherium, Stonesfield Slate; 2, Lower jaw and teeth of Amphitherium, Stonesfield Slate; 3, Lower jaw and teeth of Triconodon, Purbeck beds; 4, Lower jaw and teeth of Plagiaulax, Purbeck beds. All the figures are of the natural size. by Professor Owen to have been carnivorous in its habits; but other authorities maintain that it was most nearly allied to the living Kangaroo-rats (Hypsiprymnus) of Australia, and that it was essentially herbivorous. The remaining three genera appear to have been certainly insectivorous, and find their nearest living representatives in the Australian Phalangers and the American Opossums.

Finally, it is interesting to notice in how many respects the Jurassic fauna of Western Europe approached to that now inhabiting Australia. At the present day, Australia is almost wholly tenanted by Marsupials; upon its land-surface flourish Araucariœ and Cycadaceous plants, and in its seas swims the Port-Jackson Shark (Cestracion Philippi); whilst the Molluscan genus Trigonia is nowadays exclusively confined to the Australian coasts. In England, at the time of the deposition of the Jurassic rocks, we must have had a fauna and flora very closely resembling what we now see in Australia. The small Marsupials, Amphitherium, Phascolotherium, and others, prove that the Mammals were the same in order; cones of Araucarian pines, with tree-ferns and fronds of Cycads, occur throughout the Oolitic series; spine-bearing fishes, like the Port-Jackson Shark, are abundantly represented by genera such as Acrodus and Strophodus; and lastly, the genus Trigonia, now exclusively Australian, is represented in the Oolites by species which differ little from those now existing. Moreover, the discovery during recent years of the singular Mud-fish, the Ceratodus Fosteri in the rivers of Queensland, has added another and a very striking point of resemblance to those already mentioned; since this genus of Fishes, though preeminently Triassic, nevertheless extended its range into the Jurassic. Upon the whole, therefore, there is reason to conclude that Australia has undergone since the close of the Jurassic period fewer changes and vicissitudes than any other known region of the globe; and that this wonderful continent has therefore succeeded in preserving a greater number of the characteristic life-features of the Oolites than any other country with which we are acquainted.

LITERATURE.

The following list comprises some of the more important sources of information as to the rocks and fossils of the Jurassic series:—

(1)'Geology of Oxford and the Thames Valley.' Phillips.
(2)'Geology of Yorkshire,' vol. ii. Phillips.
(3)'Memoirs of the Geological Survey of Great Britain.'
(4)'Geology of Cheltenham.' Murchison, 2d ed. Buckman.
(5)'Introduction to the Monograph of the Oolitic Asteriadæ' (Palæontographical Society). Wright.
(6)"Zone of Avicula contorta and the Lower Lias of the South of England"—'Quart. Journ. Geol. Soc.,' vol. xvi., 1860. Wright.
(7)"Oolites of Northamptonshire"—'Quart. Journ. Geol. Soc.,' vols. Xxvi. and xxix. Sharp.
(8)'Manual of Geology.' Dana.
(9)'Der Jura.' Quenstedt.
(10)'Das Flötzgebirge Württembergs.' Quenstedt.
(11)'Jura Formation.' Oppel.
(12)'Paléontologie du Département de la Moselle.' Terquem.
(13)'Cours élémentaire de Paléontologie.' D'Orbigny.
(14)'Paléontologie Française.' D'Orbigny.
(15)'Fossil Echinodermata of the Oolitic Formation' (Palæontographical Society). Wright.
(16)'Brachiopoda of the Oolitic Formation' (Palæontographical Society). Davidson.
(17)'Mollusca of the Great Oolite' (Palæontographical Society). Morris and Lycett.
(18)'Monograph of the Fossil Trigoniæ' (Palæontographical Society). Lycett.
(19)'Corals of the Oolitic Formation' (Palæontographical Society). Edwards and Haime.
(20)'Supplement to the Corals of the Oolitic Formation' (Palæontographical Society). Martin Duncan.
(21)'Monograph of the Belemnitidæ' (Palæontographical Society). Phillips.
(22)'Structure of the Belemnitidæ' (Mem. Geol. Survey). Huxley.
(23)'Sur les Belemnites.' Blainville.
(24)'Cephalopoden.' Quenstedt.
(25)'Mineral Conchology.' Sowerby.
(26)'Jurassic Cephalopoda' (Palæontologica Indica). Waagen.
(27)'Manual of the Mollusca.' Woodward.
(28)'Petrefaktenkunde.' Schlotheim.
(29)'Bridgewater Treatise.' Buckland.
(30)'Versteinerungen des Oolithengebirges.' Roemer.
(31)'Catalogue of British Fossils.' Morris.
(32)'Catalogue of Fossils in the Museum of Practical Geology.' Etheridge.
(33)'Beiträge zur Petrefaktenkunde.' Münster.
(34)'Petrefacta Germaniæ.' Goldfuss.
(35)'Lethæa Rossica.' Eichwald.
(36)'Fossil Fishes' (Decades of the Geol. Survey). Sir Philip Egerton.
(37)'Manual of Palæontology.' Owen.
(38)'British Fossil Mammals and Birds.' Owen.
(39)'Monographs of the Fossil Reptiles of the Oolitic Formation' (Palæontographical Society). Owen.
(40)'Fossil Mammals of the Mesozoic Formations' (Palæontographical Society). Owen.
(41)'Catalogue of Ornithosauria.' Seeley.
(42)"Classification of the Deinosauria"—'Quart. Journ. Geol. Soc.,' vol. xxvi., 1870. Huxley.

CHAPTER XVII.

THE CRETACEOUS PERIOD.

The next series of rocks in ascending order is the great and important series of the Cretaceous Rocks, so called from the general occurrence in the system of chalk (Lat. creta, chalk). As developed in Britain and Europe generally, the following leading subdivisions may be recognised in the Cretaceous series:—

1. Wealden,
2. Lower Greensand or Neocomian, 		Lower Cretaceous.
3. Gault,
4. Upper Greensand,
5. Chalk,
6. Maestricht beds,
Upper Cretaceous.