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Title: Introduction to the Study of Palæontological Botany

Author: John Hutton Balfour

Release date: January 9, 2016 [eBook #50882]
Most recently updated: October 22, 2024

Language: English

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INTRODUCTION
TO THE STUDY OF
PALÆONTOLOGICAL BOTANY

INTRODUCTION

TO THE STUDY OF

PALÆONTOLOGICAL BOTANY

JOHN HUTTON BALFOUR, A.M. M.D. EDIN.

F.R.S., SEC. R.S.E., F.L.S.

PROFESSOR OF MEDICINE AND BOTANY IN THE UNIVERSITY OF EDINBURGH,
REGIUS KEEPER OF THE ROYAL BOTANIC GARDEN,
AND QUEEN'S BOTANIST FOR SCOTLAND

WITH FOUR LITHOGRAPHIC PLATES, AND UPWARDS OF
ONE HUNDRED WOODCUTS

EDINBURGH
ADAM AND CHARLES BLACK
1872

Printed by R. & R. Clark, Edinburgh.

PROF. HEINRICH ROBERT GOEPPERT, M.D.,

DIRECTOR OF THE BOTANIC GARDEN, BRESLAU;

ONE OF THE MOST EMINENT PALÆONTOLOGICAL
BOTANISTS OF EUROPE,

The following Treatise

IS DEDICATED, WITH BEST RESPECTS, BY HIS
OBLIGED FRIEND

THE AUTHOR.

PREFACE.

The subject of Fossil Botany or Palæophytology has formed a part of the Course of Botany in the University of Edinburgh for the last twenty-five years, and the amount of time devoted to the exposition of it has increased. The recent foundation of a Chair of Geology and of a Falconer Palæontological Fellowship in the University seems to require from the Professors of Zoology and Botany special attention to the bearings of their departments of science on the structure of the animals and plants of former epochs of the Earth's history. No one can be competent to give a correct decision in regard to Fossils, unless he has studied thoroughly the present Fauna and Flora of the globe. To give a well-founded opinion in regard to extinct beings, it is essential that the observer should be conversant with the conformation and development of the living ones now on the earth; with their habits, modes of existence and reproduction, the microscopic structure of their tissues, their distribution, and their relation to soil, the atmosphere, temperature, and climate.

There can be no doubt that to become a good Fossil Geologist a student must begin with living animals and plants. The study of Geology must be shared by the Petralogist, who looks at the condition of the rocks of the globe, the minerals forming them, and their mode of formation; the Chemist, who determines the materials which enter into the composition of minerals and rocks; the Naturalist, who examines the plants and animals found in the various strata; and perhaps also the Natural Philosopher, who calculates from independent sources the phases of the Earth's history. It may be said thus to combine all these students of Science in one brotherhood. Much has been done by the efforts of such men as Hutton and Werner, who were engaged chiefly in considering the mineral department of Geology; but it is clear that the Science could not have attained its present position without the continued labours of those who have been examining fossils in their relations to time and space. Had it not been for the researches of Palæontologists, Geology could not have made its present advance.

In my Class Book of Botany I have given an introduction to Palæophytology, and it occurred to me that it might be useful to students to publish this in a separate form, with additions in both the letterpress and the illustrations. The institution of the Palæontological Fellowship, in memory of my former friend Dr. Falconer, has brought the subject specially under my notice. The Fellowship has been promoted chiefly by my friend and former pupil Dr. Charles Murchison, a gentleman fond of science and of his Alma Mater, the University of Edinburgh, where he and Falconer studied and took their degrees.

The first award of the Fellowship has been made to a distinguished student, who acquitted himself with the greatest credit during the three days of examination on Geology, Zoology, and Botany. I trust that the Fellowship will continue to stimulate our eminent students in future years.

Having been a student of Natural Science along with Dr. Falconer, I feel a peculiar interest in doing what I can to promote the study of a subject to which he so successfully devoted his energies. In my endeavour to do so I have been encouraged by my friend and former pupil, Mr. William Carruthers, at the head of the Botanical Department of the British Museum, and a former student in Edinburgh under the late Professor Fleming. He has done much to advance our knowledge of Fossil Botany, and to him I am indebted for two of the plates and some of the woodcuts which illustrate this publication. He has given me most efficient assistance, and I have to return my best thanks for his kind aid. I am also indebted to my colleague, Professor Geikie, for his valued assistance.

The neighbourhood of Edinburgh is rich in Fossils of the Carboniferous epoch, and much yet remains to be done to illustrate its Palæontology. Such labourers as Geikie and Peach may be expected to give great assistance in the furtherance of our knowledge of Scottish Geology, so as to form a school which shall revive the reputation enjoyed by Edinburgh in the days of Hutton and Jameson. If I can be useful in encouraging students to take up the study of Palæontological Botany, and to prosecute it with vigour, I shall feel that this introductory treatise has not been issued in vain. As one of the few surviving relations of Dr. James Hutton, I am glad to be able to show an interest in a science which may aid in elucidating the "Theory of the Earth."

In writing this work I have taken for granted that the reader is acquainted with the Elements of Botany, and knows the general structure of plants of the present day. I have not, therefore, hesitated to use the ordinary Botanical terms without explanation. I am satisfied that no one can study Fossil Botany properly unless he has studied Modern Botany.

Those readers who may find any difficulty as to technical terms I would refer to my Botanist's Companion, where a full Glossary is given.

27 Inverleith Row,

May 1872.

TABLE OF CONTENTS.

	PAGE
Introductory Remarks	1
Determination of Fossil Plants	3
Mode of Preservation of Fossil Plants	8
Examination of the Structure of Fossil Plants	12
Fossiliferous Rocks	20
Natural Orders to which Fossil Plants belong	22
Periods of Vegetation among Fossil Plants	25
Fossil Flora of the Primary or Palæzoic Period	26
Reign of Acrogens	26
Flora of the Carboniferous Epoch	36
Flora of the Permian Epoch	71
Fossil Flora of the Secondary or Mesozoic Period	72
Reign of Gymnosperms	72
Flora of the Trias and Lias Epochs	77
Flora of the Oolitic Epoch	80
Flora of the Wealden Epoch	84
Fossil Flora of the Tertiary or Cainozoic Period (including the Cretaceous Epoch)	87
Reign of Angiosperms	87
Flora of the Chalk	87
Flora of the Eocene Epoch	90
Flora of the Miocene Epoch	92
Flora of the Pliocene Epoch	98
General Conclusions	101
Recapitulation	103
Works on Fossil Botany	105
Explanation of Plates	111
Index	113

LIST OF WOODCUTS.

Fig.		Page
1.	Section of Peuce Withami, Lindley and Hutton	3
2.	Bark of Araucaria	5
3.	Markings on Araucaria bark	6
4.	""	7
5.	""	7
6.	Leaf of Araucaria	7
7.	Nicolia Owenii (Carr.)	11
8.	Bryson's instrument for slitting Fossils	14
9.	Tree-fern	27
10.	Asplenium	28
11	a. Bifurcating Trunk of a Tree-fern (Alsophila Perrottetiana)	29
11	b. Rhizome of Lastrea Filix-mas	29
12.	Transverse section of stem of a Tree-fern (Cyathea)	29
13.	Scalariform vessels from Tree-fern	30
14.	Sporangia of a Fern	30
15.	Lycopodium clavatum	30
16.	Spore-case, containing Microspores of Lycopodium	30
17.	""Macrospores of Selaginella	30
18.	Fructification of Equisetum maximum	31
19.	Polygonal scale of Equisetum	32
20.	Spore of Equisetum—filaments contracted	32
21.	"""expanded	32
22.	Marsilea Fabri	33
22	bis. Adiantites Lindseæformis	41
23.	Pecopteris (Alethopteris) aquiline	43
24.	"(Alethopteris) heterophylla	43
25.	Neuropteris Loshii	43
26.	"gigantean	43
27.	"acuminate	43
28.	Sphenopteris affinis	43
29.	Cyclopteris dilatata	43
30.	Stem of Caulopteris macrodiscus	44
31.	""Balfouri (Carr.)	44
32.	""Morrisi (Carr.)	44
33.	"Sigillaria pachyderma	45
34.	Sigillaria reniformis	45
35.	"pachyderma	46
36.	"(Favularia) tessellate	46
37.	"pachyderma	46
38.	Stigmaria ficoides	47
39.	""(S. anabathra of Corda)	47
40.	Bifurcating stem of Lepidodendron obovatum (elegans)	49
41.	Stem of Lepidodendron crenatum	49
42.	Fructification of Lepidodendron	50
43.	Longitudinal section of Fructification of Triplosporites	50
44.	(1). Fruit of Selaginella spinulosa, A. Braun (Lycopodium selaginoides, Linn.)	51
	(2). Scale and sporangium from the upper part of cone	51
	(3). Antheridian microspores from ditto	51
	(4). Macrospore	51
	(5). Scale and sporangium from lower part of cone, containing macrospores	51
	(6). Fruit of Lepidostrobus ornatus (Hooker)	51
	(7). Three scales and sporangia of ditto	51
	(8). Microspores from sporangia of the upper part of the cone of Triplosporites Brownii, Brongn.	51
	(9). Macrospore from the sporangia of the lower part	51
	(10). Scales and sporangia of a cone of Flemingites	51
45	a. Calamites Suckovii	57
45	b. Septum or Phragma of a Calamite	57
46.	Vertical stems of Calamites—in coal-measures of Treuil, near St. Etienne	58
47.	Fruits of Equisetum and Calamites	60
	(1). Equisetum arvense, L.	60
	(2). Portion of sporangium wall	60
	(3, 4). Spores—elaters free	60
	(5). Longitudinal section of part of one side of cone	60
	(6). Transverse section of cone	60
	(7). Calamites (Volkmannia) Binneyi (Carr.)	60
	(8). Portion of sporangium wall	60
	(9). Two spores	60
	(10). Longitudinal section of part of one side of cone	60
	(11). Transverse section of cone	60
48.	Foliage and fruits of Calamites	62
	(1, 2). Asterophyllites	62
	(3, 4). Annularia	62
	(5, 6). Sphenophyllum	62
49.	Araucarioxylon Withami, Krauss (Pinites Withami)	63
50.	Trigonocarpum olivæforme	63
51.	Cardiocarpum Lindleyi (Carr.)	65
52.	""	65
53.	Cardiocarpum anomalum (Carr.)	66
54.	Pothocites Grantoni (Paterson)	67
55,	56. Walchia piniformis (Sternb.)	72
57.	Pinus sylvestris	73
58.	Abies excelsa	73
59.	Larix Europæa	73
60.	Cedrus Libani	73
61.	Araucaria excelsa	74
62.	Woody tubes of fir—single rows of discs	74
63.	"" —double and opposite rows of discs	74
64.	Woody tubes of Araucaria excelsa—double and triple and alternate rows of discs	74
65.	Longitudinal section of stem of a Gymnosperm	74
66.	Linear leaves of Pinus Strobus	75
67.	Cone of Pinus sylvestris	75
68.	"Cupressus sempervirens	75
69.	Scale of mature cone of Pinus sylvestris	75
70.	Fruiting branch of Juniperus communis	76
71.	Branch of Taxus baccata	76
72.	Male flower of Yew	76
73.	Fruit of Yew	76
74.	Cycas revoluta	77
75.	Encephalartos (Zamia) pungens	77
76.	Schizoneura heterophylla	78
77.	Zamites	79
78.	Pterophyllum Pleiningerii	80
79.	Nilssonia compta (Pterophyllum comptum of Lindley and Hutton)	80
80.	Palæozamia pectinata (Zamia pectinata of Brongniart, and Lindley and Hutton)	80
81.	Brachyphyllum mammillare	81
82.	Equisetum columnare	81
83.	Araucarites sphærocarpus (Carr.)	82
84.	Termination of a scale of ditto	82
85.	Section of a scale of ditto	82
86.	The Dirt-bed of the island of Portland	83
87.	Cycadoidea megalophylla (Mantellia nidiformis of Brongniart)	83
88.	Kaidacarpum ooliticum (Carr.)	84
89.	Pandanus odoratissimus	84
90.	Fossil wood, Abietites Linkii	85
91.	Sequoiites ovalis	88
92.	Pinites ovatus (Zamia ovata of Lindley and Hutton)	89
93.	Palmacites Lamanonis	90
95.	Comptonia acutiloba	92
96.	Acer trilobatum	93
97.	Ulmus Bronnii	93
98.	Rhamnus Aizoon	94
99.	Alnus gracilis	95
100.	Taxites or Taxodites Campbellii	95
101.	Rhamnites multinervatus	95
102.	Equisetum Campbellii	96

Introduction to the Study of Palæontological Botany

About This Book

The Project Gutenberg eBook of Introduction to the Study of Palæontological Botany

INTRODUCTION TO THE STUDY OF PALÆONTOLOGICAL BOTANY

PREFACE.

TABLE OF CONTENTS.

LIST OF WOODCUTS.

INTRODUCTION
TO THE STUDY OF
PALÆONTOLOGICAL BOTANY