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Title: Australasian Fossils: A Students' Manual of Palaeontology

Author: Frederick Chapman

Author of introduction, etc.: Ernest Willington Skeats

Release date: March 16, 2019 [eBook #59074]

Language: English

Credits: Produced by MFR, Tom Cosmas and the Online Distributed
Proofreading Team at http://www.pgdp.net (This file was
produced from images generously made available by The
Internet Archive)

*** START OF THE PROJECT GUTENBERG EBOOK AUSTRALASIAN FOSSILS: A STUDENTS' MANUAL OF PALAEONTOLOGY ***

BY THE SAME AUTHOR.

The Foraminifera

An Introduction to the Study of the Protozoa

FREDERICK CHAPMAN, A.L.S., F.R.M.S.

This book has been written with a view of
meeting a demand which has arisen for a concise
account of the Foraminifera, suited to the
requirements of the student of Natural History
and Palaeontology.

With 14 plates and 42 illustrations in the Text.

DEMY 8vo. CLOTH, 10s. 6d.

A FOSSIL CRINOID
(Helicocrinus plumosus), about ⁵/₆ nat. size,
in Silurian Mudstone, Brunswick, Victoria.

(Spec. in Nat. Mus., Melbourne).

Australasian Fossils

A Students’ Manual of Palaeontology

By FREDERICK CHAPMAN,

Palaeontologist to the National Museum, Melbourne.

Formerly Assistant in the Geological Department of the Royal College of Science, London.

Assoc. Linnean Soc. [Lond.], F.R.M.S., etc.

Author of “The Foraminifera,” “A Monograph of the Silurian Bivalved Mollusca of Victoria,” “New or Little-known Victorian Fossils in the National Museum,” etc.

With an Introduction by

PROFESSOR E. W. SKEATS, D.Sc., F.G.S.

GEORGE ROBERTSON & COMPANY PROPY. LTD.,

Melbourne, Sydney, Adelaide, Brisbane and London.

1914.

To

PROFESSOR JOHN WESLEY JUDD

this work is dedicated as a
slight tribute of esteem, and
in grateful acknowledgement
of kindly help and encouragement
through many years.

CONTENTS.

			Page
Preface			10
Introduction by Professor E. W. Skeats, D.Sc., F.G.S.			13
PART I.—GENERAL PRINCIPLES.
Chap.	I.	—Nature and uses of Fossils	21
"	II.	—Classification of Fossil Animals and Plants	34
"	III.	—The Geological Epochs and Time-range of Fossils	41
"	IV.	—How Fossils are Found, and the Rocks They Form	51
PART II.—SYSTEMATIC PALAEONTOLOGY.
Chap.	V.	—Fossil Plants	82
"	VI.	—Fossil Foraminifera and Radiolaria	95
"	VII.	—Fossil Sponges, Corals and Graptolites	107
"	VIII.	—Fossil Starfishes, Sea-lilies and Sea-urchins	133
"	IX.	—Fossil Worms, Sea-mats and Lamp-shells	152
"	X.	—Fossil Shell-fish	174
"	XI.	—Fossil Trilobites, Crustacea and Insects	220
"	XII.	—Fossil Fishes, Amphibians, Reptiles, Birds and Mammals	257

Appendix.—Notes on Collecting and Preserving Fossils			315
Index			321

LIST OF ILLUSTRATIONS.

Fig.		Page
1.	Fossil Shells in clay	22
2.	Tracks, probably of Crustaceans	22
3.	Structure of Silicified Wood in tangential section: Araucarioxylon Daintreei, Chapm.	24
4.	Portrait of William Smith	26
5.	Raised Beach: Brighton, England	28
6.	Raised Beach: Torquay, Victoria	28
7.	Marine Fossils in Volcanic Tuff: Summit of Snowdon	29
8.	Kitchen Middens: Torquay, Victoria	30
9.	Submerged Forest on the Cheshire Coast	30
10.	Pecten murrayanus, Tate. A fossil shell allied to a living species	32
11.	Cliff section: Torquay, Victoria	42
12.	Diagram of superposition of Strata	42
13.	Diagram of the Range-in-time of Australasian Fossils	50
14.	Diprotodon skeletons in situ: Lake Callabonna, S. Australia	51
15.	Bird remains on sand dunes: King Island, Bass Strait	52
16.	Impression of Bird’s feather in Ironstone: Western Victoria	52
17.	A Fossil Turtle: Notochelone costata, Owen sp.	52
18.	A Ganoid Fish: Pristisomus crassus, A. S. Woodward	54
19.	A fossil Insect in amber (Tipula sp.)	54
20.	A fossil Crustacean: Thalassina emerii, Bell	55
21.	An Ammonite: Desmoceras flindersi, McCoy sp.	55
22.	Belemnites: Belemnites diptycha, McCoy	56
23.	A Group of Lamp-shells: Magellania flavescens, Lam. sp.	56
24.	Zoarium of a living Polyzoan: Retepora sp.	58
25.	A fossil Polyzoan: Macropora clarkei, T. Woods sp.	58
26.	Fossil Worm-tubes: (?) Serpula	60
27.	A living Sea-urchin: Strongylocentrotus erythrogrammus, Val.	60
28.	A fossil Sea-urchin: Linthia antiaustrails, Tate	60
29.	A fossil Brittle-Star: Ophioderma egertoni, Brod. sp.	60
30.	A fossil Crinoid: Taxocrinus simplex, Phillips sp.	62
31.	Graptolites on Slate: Tetragraptus fruticosus, J. Hall sp.	62
32.	A Stromatoporoid: Actinostroma	63
33.	Corals in Devonian Marble: Favosites	64
34.	Siliceous Skeleton of a living Sponge: (?) Chonelasma	64
35.	Spicules of a fossil Sponge: Ecionema newberyi, McCoy sp.	65
36.	Nummulites: N. gizehensis, Ehr. var. champollioni, De la Harpe	65
37.	Cainozoic Radiolaria	66
38.	Radiolaria in Siliceous Limestone	67
39.	Travertin Limestone, with leaves of Beech (Fagus)	67
40.	Freshwater Limestone with shells (Bulinus)	68
41.	Hardened mudstone with Brachiopods (Orthis, etc.)	69
42.	Diatomaceous Earth	72
43.	Lepidocyclina Limestone	73
44.	Coral in Limestone: Favosites grandipora, Eth. fil.	74
45.	Crinoidal Limestone	74
46.	Turritella Limestone	75
47.	Ostracodal Limestone	75
48.	Halimeda Limestone	77
49.	Tasmanite: a Spore Coal	77
50.	Kerosene Shale	77
51.	Bone Bed	77
52.	Bone Breccia	79
53.	Cainozoic Ironstone with Leaves (Banksia)	80
54.	Girvanella conferta, Chapm., in Silurian Limestone	83
55.	Palaeozoic Plants	83
56.	Restoration of Lepidodendron	84
57.	Stem of Lepidodendron (Lepidophloios), showing leaf-scars	84
58.	Upper Palaeozoic Plants	85
59.	Map of Gondwana-Land	87
60.	Mesozoic Plants	88
61.	Cainozoic Plants	90
62.	Eucalyptus leaves from the Deep Leads	92
63.	Palaeozoic and Mesozoic Foraminifera	97
64.	Lepidocyclina marginata, Mich. sp. Sections of shell showing structure	99
65.	Cainozoic Foraminifera	100
66.	Fossil Radiolaria	103
67.	Palaeozoic Sponges and Archaeocyathinae	108
68.	Cainozoic Sponges	111
69.	Silurian Corals	111
70.	Upper Palaeozoic Corals	116
71.	Cainozoic Corals	118
72.	Stromatoporoidea and Cladophora	121
73.	Lower Ordovician Graptolites	125
74.	Lower Ordovician Graptolites	125
75.	Upper Ordovician and Silurian Graptolites	127
76.	Fossil Crinoids	135
77.	Fossil Starfishes	140
78.	Protaster brisingoides, Gregory, in Silurian Sandstone	142
79.	Gregoriura spryi, Chapm., in Silurian Mudstone	143
80.	Cainozoic Sea-urchins	145
81.	Cainozoic Sea-urchins	147
82.	Fossil Worms	153
83.	Palaeozoic Polyzoa	156
84.	Cainozoic Polyzoa	157
85.	Lower Palaeozoic Brachiopods	159
86.	Silurian and Devonian Brachiopods	161
87.	Carbopermian Brachiopods	163
88.	Mesozoic Brachiopods	165
89.	Cainozoic Brachiopods	167
90.	Lower Palaeozoic Bivalves	176
91.	Palaeozoic Bivalves	179
92.	Carbopermian Bivalves	180
93.	Lower Mesozoic Bivalves	181
94.	Cretaceous Bivalves	183
95.	Cainozoic Bivalves	185
96.	Cainozoic Bivalves	186
97.	Fossil Scaphopods and Chitons	188
98.	Lower Palaeozoic Gasteropoda	192
99.	Silurian Gasteropoda	194
100.	Upper Palaeozoic Gasteropoda	195
101.	Mesozoic Gasteropoda	197
102.	Cainozoic Gasteropoda	199
103.	Cainozoic Gasteropoda	200
104.	Late Cainozoic and Pleistocene Gasteropoda	201
105.	Palaeozoic Cephalopoda	206
106.	Mesozoic and Cainozoic Cephalopoda	208
107.	Diagram restoration of an Australian Trilobite (Dalmanites)	224
108.	Cambrian Trilobites	226
109.	Older Silurian Trilobites	228
110.	Newer Silurian Trilobites	230
111.	Carboniferous Trilobites and a Phyllopod	232
112.	Silurian Ostracoda	236
113.	Upper Palaeozoic and Mesozoic Ostracoda	238
114.	Cainozoic Ostracoda	239
115.	Fossil Cirripedes	242
116.	Cirripedes. Lepas anatifera, Linn.: living goose barnacle, and L. pritchardi, Hall: Cainozoic	242
117.	Ceratiocaris papilio, Salter	244
118.	Ordovician Phyllocarids	245
119.	Silurian Phyllocarids	245
120.	Fossil Crabs and Insects	247
121.	Silurian Eurypterids	249
122.	Thyestes magnificus, Chapm.	259
123.	Gyracanthides murrayi, A. S. Woodw. Restoration	260
124.	Teeth and Scales of Palaeozoic and Mesozoic Fishes	260
125.	Cleithrolepis granulatus, Egerton	263
126.	Tooth of Ceratodus avus, A. S. W., and phalangeal of a carnivorous Deinosaur	264
127.	Scale of Ceratodus ? avus	265
128.	The Queensland Lung-fish: Neoceratodus forsteri, Krefft	266
129.	Leptolepis gregarius, A. S. W.	266
130.	Cretaceous and Cainozoic Fish-teeth	268
131.	Cainozoic Fish remains	270
132.	Bothriceps major, A. S. W.	273
133.	Ichthyosaurus australis, McCoy	277
134.	Fossil Reptiles	278
135.	Impression of Bird’s feather, magnified, Cainozoic: Victoria	281
136.	Cnemiornis calcitrans, Owen	284
137.	Dinornis maximus, Owen. Great Moa	284
138.	Pachyornis elephantopus, Owen	285
139.	Skeleton of Sarcophilus ursinus, Harris sp.	288
140.	Skull of fossil specimen of Sarcophilus ursinus	288
141.	Thylacinus major, Owen. Hind part of mandible	289
142.	Phascolomys pliocenus, McCoy. Mandible	290
143.	Cainozoic Teeth and Otolith	291
144.	Skeleton of Diprotodon australis, Owen	291
145.	Right hind foot of Diprotodon australis	292
146.	Restoration of Diprotodon australis	292
147.	Skull and mandible of Thylacoleo carnifex, Owen	293
148.	Wynyardia bassiana, Spencer	294
149.	Tooth of Scaldicetus macgeei, Chapm.	297
150.	Impressions of footprints in dune sand-rock, Warrnambool	301
	Map of Australia, showing chief fossiliferous localities	Map

PREFACE.

The more important discoveries of fossils in the southern hemisphere have received, as a rule, very meagre notice in many of the text-books of Geology and Palaeontology published in England, Germany and America, and used by Australasian students. It is thought, therefore, that the time has arrived when an attempt should be made to collect the main facts bearing upon this subject, in order to present them from an Australasian standpoint. With this in view, references to fossils occurring in the northern hemisphere are subordinated, seeing that these may be easily obtained on reference to the accepted text-books in general use.

The present work does not presume to furnish a complete record of Australasian palaeontology, since that would mean the production of a much more extensive and costly volume. Sufficient information is here given, however, to form a groundwork for the student of this section of natural science, and a guide to the collector of these “medals of creation.”

The systematic portion of this book has been arranged primarily from the biological side, since Palaeontology is the “study of ancient life.” Taking each life-group, therefore, from the lowest to the highest types, all the divisions represented by fossils are dealt with in turn, beginning with their occurrence in the oldest rocks and ending with those in the newest strata.

If a commendation of the study of fossils, apart from its scientific utility, were needed, it could be pointed out that palaeontology as a branch of geology is, par excellence, an open-air study: and since it requires as handmaids all the sister sciences, is a subject of far-reaching interest. Microscopy and photography are of immense value in certain branches of fossil research, the former in the examination of the minute forms of mollusca, foraminifera and ostracoda, the latter in the exact portraiture of specimens too intricate to copy with the brush, or too evanescent to long retain, when out of their matrix, their clean fresh surfaces. With geology or palaeontology as an objective, a country walk may be a source of much enjoyment to its students, for “in their hand is Nature like an open book”; and the specimens collected on a summer excursion may be closely and profitably studied in the spare time of the winter recess.

The author sincerely trusts that students may share the same pleasure which he has derived from the study of these relics of past life; and that the present attempt to show their relationship both in geological time and biological organisation, may be the means of inducing many to make further advances in this fascinating subject.

In the production of this work several friends and collaborators have materially assisted, their aid considerably increasing its value. It is therefore with grateful thanks that the author acknowledges the help and encouragement given by Professor E. W. Skeats, D.Sc., who has not only been good enough to write the Introductory passages, but who has carefully gone over the MS. and made many helpful suggestions. Mr. W. S. Dun, F.G.S., Palaeontologist to the Geological Survey Branch of the Department of Mines, Sydney, has also rendered generous help in giving the benefit of his full acquaintance of the palaeontology of his own State. To the Trustees of the National Museum the author is under special obligations for permission to photograph many unique fossil specimens in the Museum collection, comprising Figs. 3, 16-18, 20-22, 28-31, 35, 39, 40, 45, 46, 51-54, 57, 62, 78, 79, 127, 133, 136, 147 and 148. The author’s thanks are also due to Dr. E. C. Stirling, M.D., M.A., F.R.S., for permission to use Figs. 143, 144 and 145, whilst similar privileges have been accorded by Prof. A. G. Seward, F.R.S., Dr. F. A. Bather, F.R.S., and Mr. C. L. Barrett. Prof. T. W. Edgeworth David, F.R.S., has kindly cleared up some doubtful points of stratigraphy and further increased the author’s indebtedness by the loan of a unique slide of Radiolaria figured on p. 69. Mr. Eastwood Moore, to whom special thanks are due, has greatly added to the pictorial side of this work by his skillful help in preparing many of the illustrations for the press, as well as in the drawing of the several maps. The grouped sets of fossils have been especially drawn for this work by the author. They are either copied from authentic specimens or from previously published drawings; references to the authorities being given in the accompanying legends. Dr. T. S. Hall has kindly read the section on Graptolites and Mammalia. For many helpful suggestions and the careful reading of proofs, thanks are especially owing to Mr. W. E. G. Simons, Mr. R. A. Keble, and to my wife.

INTRODUCTION.

Geological Department,
The University, Melbourne.