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Jenkinson JW. Experimental Embryology. (1909) Claredon Press, Oxford.

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Experimental Embryology

Experimental Embryoijogy

By

J. W. Jenkinson. M.A.. D.Sc.

Lecturer in Embryology in the University of Oxford

(1909)

Preface

For the biologist there are, I conceive, in the main two problems. One is to give an account of those activities or functions by means of which an organism maintains its specific form in an environment. The other is to ﬁnd the causes which determine the production of that form, whether in the race or in the individual. The solution of the first of these problems is the business of physiology, in the usual sense of the term. The second falls to morphology.

It is with the origin of form that we are here concerned, and in particular with its origin in the individual. The endeavour to discover by experiment the causes of this process — as distinct from the mere description of the process - is a comparatively new branch of biological science, for Experimental Embryology, or, as some prefer to call it, the Mechanics of Development (Entwicklungsmechanik), or the Physiology of Development, really dates from Roux's production of a half-embryo from a. half-blaatomere, and the consequent formulation of the ‘ Mosaik-Theorie’ of self-differentiation. That hypothesis has been the focus of much fruitful criticism and controversy, the experiment has been followed by many others of the same kind, and the present volume is an attempt to sketch the progress of these researches and speculations on the nature and essence of differentiation, as well as of those which deal with growth, cell-division, and the external conditions of development.

In writing this review I have had the very great advantage of an excellent model in the textbook of Korsehelt and Heider (Lehrbuch cler fucrgleichemleat Entwio/cluugsgeschiclzte (Zer 1ve'rbelZo.~e'n T/u'c7'e, Allgemeiner Theil, Jena, 1902). I have indeed followed the general arrangement adopted by these authors fairly closely except in one respect. I believe so strongly that the processes of growth and cell-division, though they always (in the Metazoa) accompany, are yet distinct from, differentiation, that I have felt justiﬁed in treating them in a chapter apart from the other internal factors of development. The external factors—whether of growth, celhdivision, or differentiation - are discussed in Chapter III, and the ground is thus cleared for a consideration of the real problem — the differentiation of speciﬁc form.

The last chapter is devoted to the theories, scientific and philosophical, of Hans Driesch. I sincerely hope that Herr Driesch will allow my great admiration for the former to atone in some measure for my inability to accept the tenets of nee-vitalism.

It is a very great pleasure to me to acknowledge my indebtedness to the Delegates and Secretaries of the Clarendon Press, and in particular to Professor Osler, for undertaking the publication of this book, as well as for the pains which have been expended in its preparation. Dr. Osler also took the trouble to read through the whole of the manuscript, and Mr. G. V. Smith and Dr. Haldane have been kind enough to look through certain chapters.

To Dr. Ramsden I am under great obligations for his assistance in that part of Chapter II, Section 1, in which surface-tensions are discussed; to Dr. Vernon for calling my attention to Roberts’s work on Anthropometry, and to Mr. Grosvenor for the information embodied in the foot-note on p. 89. Mr. A. D. Lindsay has given me invaluable assistance in those sections of Chapter V which deal with the philosophy of Kant, while, for Aristotle, I was fortunately able to attend Professor Bywater’s lectures on the De Anima.

I can hardly express the debt I owe to Mr. J. A. Smith for much friendly counsel and criticism, although he is, of course, in no way responsible for the philosophical speculations in which I have ventured to indulge.

The illustrations are largely borrowed from Korschelt and Heider’s work, and I must thank Herr Gustav Fischer, of Jena, for his readiness in supplying the blocks. Others are from the original publications‘, and I am obliged to the proprietors for permission to make use of them. A few are my own.

In the appendices will he found an account of some recent work on the relation between the symmetry of the egg and that of the embryo in the Frog, and on the part played by the nucleus in ditt'c1-entiation.

Proceedings of the Boston Society of Natural History, the Journal of Experimental Zoology (Williams 8; Wilkins, Baltimore), the Anm'ir(rn Journal of I‘hysz'ulo_'/_I/ (Ginn & C0., Boston), ZeIIrn~Sfu(Iim (Fischer, Jena), l’erhamIlmI_r/en 410;" A/mlumis-1-hm G(‘.s'¢'”N(‘7I((fl (Fischer, Jena), Er;/cbnisse fiber din Ii'on.m'tzm'ou dcr cIu'onmta'scIzm Kernsubslmz: (Fischer, Jena), .[r¢-kin fiir mik)'osk0])i.s¢*7¢1: .»lm¢tomi(' (Cohen, Bonn), Archizv ff/"r Entwiclcluuysnwvlzanik (Engelinunn, Leipzig), and the Popular Science .llontM3/ (Appleton & Co., New York).

1. The modern form of the prefurmationist doctrine 2. Amphibia 3. Pisces 4. Amphioxus 5. Coe-lenterata 6. Ecliinodcrmata 7. Nemertinen . . . . . . . . 204 8. (.‘tenopho1':i . . . . . . . . 208 9. Chaetopoda and Mollusca . . . . . . 213 10. Ascidia . . . . . . . . . 229 11. General consiileratious and conclusions . . . 240 12. The part. played by the spernmtozoon in the determination of egg-.<ztructm'e . . . . . 247 13. The part played by the nucleus in iliﬂ'e1'enti;iti0n . . 251 (2) The actions of the parts of the developing oiganism on one another 271

Chapter V Driesch’s Theories Of Development - General Reflections And Conclusions

Appendices

APPENDIX A On the .’~y)1)l)lL'l2l'y of the egg, the symmetly of scglnentation, and the symmetry of the embryo in the Frog

APPENDIX B

On the part played by the nucleus in (lifferenti:L’tion

I.\'m<;x or AUTl{0I{

Ixmzx or SUBJPJCTS

ADDENDA

Index Of Authors

Agassiz: effects of fertilization in Ctenophors, 250.

Aristotle: theory of development, 13.

— the soul in function and development, 292 sqq.

— mechanism and teleology, 296.

Auerbach :' segmentation of Ascuris nigrovenosa, 33.

von Baer, 16.

Balfour: effect of yolk on segmentation, 29, 88.

Bataillon: monstrosities osmotic pressure, 120, 135.

—- artiﬁcial parthenogenesis, 124.

Bergh: cell-division in germ-bands of Crustacea, 34.

Berthold: surface-tension and celldivision, 41, 42.

Bischoﬂ‘, 16.

Blane: effect of light upon the development of the Chick, 94, 96.

Boas: rate of growth in man, 63.

— change of variability, 73, 74.

— diminution of correlation coeﬁicient, 75.

Bonnet : emboitement, 14.

— preformation, 15. Bonnevie : diminution of chromosomes in Ascaris lumbricoidcs, 258. Born : gravity and development, 18, 88-85.

— pressure experiments on Frogs’ eggs, 34, 35.

Boveri : early development of Slrongylocentrotus, 23, 183-185.

— egg of Strongylocentrotus stretched, 39.

— suppression of micromeres in Strongylocentrotus, 186.

-— causes of the pattern of segmentation, 197.

— karyokinetic plane, sperm path,

11 ng first furrow in Strongylocentrotus,

8 .

— potentialities of? animal and vegetative cells, 192.

— stratification of cytoplasmic substances, 242, 280.

-- characters dependent on cytonlmam in Flnhinnid larvae. 261.

due to

Boveri : diminution of chromosomes in Ascaris megalocephala, 252, 255-257.

— due to a difference in the cytoplasm, 257.

— hybrid larva from enucleate egg fragment with characters of male parent, 253, 258-260.

— irregular distribution of chromosomes a cause of abnormality, 253, 263-266.

— individuality of chromosomes and chromatin, 256, 263.

—part played by nucleus in differentiation, 266, 285.

—possiblo signiﬁcance of reducing divisions, 266.

— number of chromosomes, size of nucleus, and size of cell, 68, 267, 268.

—2méclear division not qualitative,

6 .

Bowditch: rate of growth in man, 63.

-- change of variability, 73.

Brauer : Branchipus, 22, 24.

Brooks: Lucifer, 22.

de Butfon : Preformation, 15.

Bullzt: artiﬁcial parthenogenesis, 12 .

Bumpus: change of variability in Litlorina, 71, 72.

Bunge: respiration of Ascaris, 112.

Castle : see Davenpoﬂ: and Castle.

Chabry: segmentation furrows and embryonic axes in Ascidians, 229.

—- development of isolated blastemeres in Ascidians, 229, 230.

Child : critique of Driesch’s vitalism, 292, note.

Chun : isolated blastomeres of Ctenophora, 209.

Conklin: maturation, fertilization, and development of Cynthia, 230236.

— development of isolated blastemeres in Oyntlzia, 237.

— development of pieces of gastrula in Cynthia, 238.

— streaming movements of protonlnsm. 40. 316 INDEX OF

Crampton : isolated blastomeres of Ilycmesaa, 215, 216.

— eﬁeot of removal of the polar lobe, 217.

Dareste: mechanical agitation of the Hen’s egg, 89.

— electricity, 91.

Davenport : catalogue of ontogenetic processes, 4 sqq.

— deﬁnition of growth, 58.

— rate of growth, 69.

— the role of water in growth, 58, 59, 115, 116.

- and Castle : acclimatization of eggs of Bufo to heat, 100.

Delage : causes of artificial parthenogenesis, 124.

-- number of chromosomes in artiﬁcial parthenogenesis and in merogony, 125. De Vries : importance of potassium for turgor of plant-cells, 146.

Doncaster: hybrid Echinoid larvae, 26].

Driesch: effect of light in development, 94.

— abnormal segmentation in Erhinus produced by heat, 105.

— Anenteria, produced by heat, 106.

—- segmentation made irregular by dilution of sea-water, 118.

—— pressure experiments on Echinoid eggs, 37, 38, 185, 240.

—- cell-division suppressed by pressure and dilute sea-water, 55; and by heat, 105.

—nuclear division not qualitative, 186.

— blastomeres disarranged, 187, 188.

— isolated blastomeres of Echinoids, 190, 191, 193, 194.

— potentialities of animal and vegetative cells, 193, 194, 201, 242, 243.

— fragments of blastulae and gastrulae in Echinoderms, 194.

— potentialities of ectoderm and agghenteron, and their limitations, 1 .

— development of egg fragments of Echinoids, 195, 196.

— germinal value, surface-area of larvae, and number of cells, 197199, 269.

— one larva from two blastulae, 202.

— and Morgan : isolated blastomeres of Ctenophora, 210, 211.

—2e1gg-fragments of Ctenophora, 30,

2!

AUTHORS

Drgggchz development of Myzostoma,

— isolated blastomeres and parts of larvae in Phallusia, 288, 289.

— first furrow and sagittal plane in Echinoids, 250.

— characters which depend on cytoplasm in Echinoid larvae, 261, 262.

— number of organ-forming substances in cytoplasm, 246, 284, 286.

—— theory of egg-structure, 281, 286, 292.

— reason for limitation of potentialities, 192-194, 201, 212, 242, 243, 281, 282, 284, 291.

--fate a function of position, 188, 282.

—- return of displaced mesenchyme cells in Echinus, 274.

- stimuli in ontogeny, 20, 277, 28"284.

— part played by nucleus in differentiation, 266, 284, 285.

—— equipotential and inequipotentiul systems, 176, 277, 285.

— rhythm of development, 3.

—- harmony of development, 284.

—- composition in development, 3, 285.

— self-diﬁerentiation, 284.

—- teleology, static, 286, 291, 292, 297.

— —- dynamic, 291, 292, 297.

— vitalism, 20, 289 sqq.

Edwards : physiological zero for Home egg, 102.

-- growth without differentiation, 104.

Endres and Walter : post-generation of missing half-embryo, 171.

Eycleshymer: ﬁrst furrow sagittal plane in Necturus, 168.

and

Fabricius : views on development, 13.

Fasola : electric currents, 91.

Fehling : growth of the human embryo, 59, 60, 63.

Feré : effect of sound-vibrations upon the Chick, 90.

_ ._ of light, 96.

— malformations due to high temperatures, 105. .

—- need of oxygen for the Chick, 109.

—— monstrosities produced by various chemical reagents, 18,2. INDEX OF AUTHORS

Fischel, A. : hybrid Echinoid larvae, 261.

— variability of Duck embryos, 71.

Fischel, H. : isolated blastomeres of Ctenophora, 210, 211.

-— derangement of blastomeres in Ctenophora, 211.

Fischer: artiﬁcial parthenogenesis, 124. ’ Foot : polar rings in Allolobophom,

251.

Garbowski : function of pigment ring in Strongylocentrotus egg, 192. — ﬁrst furrow and sagittal plane in

Echinoids, 260.

— grafting of blastulae fragments of Echinus, 202.

Gerassimow: size of nucleus and cells in Spirogyra, 269.

Giacomini: need of oxygen for the Chick, eﬁect of low atmospheric pressure, 109, 110.

Giardina : diﬁerentiation of chromatin in female cells of Dytiscus.

Godlewski : the respiration of the Frog’s eg, 110, 112, 113.

-— heterogeneous cross-fertilization, 262.

Graf : fusion of blastomeres, 56.

Greeley: artiﬁcial parthenogenesis produced by cold, 108.

— low temperatures and absorption of water, 108.

Grobben : Cetochilus, 22.

Groom : effect of fertilization in Cirripedes, 250.

Gigiber: regeneration in Protozoa,

54.

Gurwitsch : monstrosities produced in Amphibian embryos by chemical reagents, 120, 123.

Hacker : Cyclops, 22.

Haeckel: recapitulation, 16.

— development of fragments of blastulao of Crystallodes, 181, note. Hr;ller : preformation and epigenesis,

5.

Harvey: epigenesis, 13.

— metamorphosis, 14.

Hecker: growth of the human embryo, 62, 63.

Hansen: growth of guinea-pig embryos, 62.

Herbst : potassium, sodium, and lithium larvae of Echinoderms, 136-140.

—- signiﬁcance of monsters for origin of variatiops, 141.

317

Herbst : necessity of elements present in sea-water for normal development of Echinoid larvae, 141 sqq.

—— separation of blastomeres of Seaurchins in calcium-free sea-water,

45.

— stimuli in ontogeny, 20, 272, 273, 285.

— formation of Arthropod blastederm oxygenotactic, 114.

—— arms of Plutous due to presence of skeleton, 187, 138, 144, 149, 274, 275.

I-Ierl itzka, development of half-blastomeres of Newt, 173.

Hertwig, 0. : centrifugalized Frog’s egg, 29, 87.

—- rules for nuclear and cell division, 31, 32, 85.

— — conﬁrmed by pressure experiments, 34-36.

— gravity and Echinoderm eggs, 78.

—— insemination of Frog's egg, 79.

— cardinal temperatures for Rana

fusca. and csculenta, 97.

— monstrosities produced by high and by low temperatures, 99.

— temperature and rate of development, 100.

—— monstrosities produced in Amphibian embryos by sodium chloride, 119, 135.

— ﬁrst furrow and sagittal plane in Frog's egg, 165.

— compressedeggs: disproof of qualitative nuclear division, 34—86, 168, 169, 240.

— development of half-blastomere of Frog’s egg, 169.

— mutual interactions of developing parts, 271, 285.

Hertwig, 0. and R. : fertilization processes altered by heat and cold, 107.

— — by alkaloids, 126 sqq., 263.

His: mechanical explanation of development, 3.

—- germinal localization, 17, 158.

— the blastoderm oxygenoti-opic,114.

Hunter: artiﬁcial parthenogenesis by concentrated sea-water, 124.

Iijima: spiral asters in Nephelis egg, 40.

Jenkinson: pressure experiments on eggs of Antedon, 37, note.

— abnormalities of Frog embryos produced by various solutions not due to increased osmotic pressure, 120, 133-136. 318

Jenkinson: plane of symmetry, ﬁrst furrow and sagittal plane in Frog's egg, 165-168.

Jennings: fertilization spindle in Asplanclma, 34.

Kaestner: cardinal temperature points for the Hen‘s egg, 102.

— malformations due to low tem~ peratures, 104. '

Kant : teleology, 286-289, 292, 297.

Kastschenko: injuries to blastoporic lip in Elasmobranchs, 178.

Kathariner: gravity and the gray crescent of the Frog's egg, 86.

King : cause of differentiation of lens, 276, 276.

Knowlton : sec Lillie and Knowlton.

Kolliker: 16.

Kopsch : ﬁrst furrow and sagittal plane in Frog's egg, 165, 168.

—— eﬂ'ect of injuries to blastoporic lip, 178.

Korschelt: fusion of ova in Ophryotmcha, 202.

— nucleus of egg-cell in Dyﬁscus, 252. .

Kostanecki and Wierzejski: eﬁ'ect of fertilization in Physa, 250.

Kowalewsky: 16.

Kraus : the role of water growth of plants, 58.

Lang : effect of fertilization in Polyclads, 250.

Leibnitz : preformation, 15.

Lewis: causes of formation of lens and cornea, 275, 276. Lillie and Knowlton: eﬂect of low temperatures in Amphibia, 100. — temperature and rate of development, 101.

Lillie: effects of salts on ciliary movement, 135.

— ghysiologically balanced solutions, 1 6.

in the

— toxicity and valency, 136.

Loeb : suppression of cell-division in Echinoids and Fishes, 56, 117. -— eﬂect of light in development, 94. —the respiration of Otmolabrua and

Fundulua eggs, 111.

—— the respiration of the ova of Echinoids, 112.

— function of oxygen in regeneration of Tubular-ia head and other processes, 114, 278, 274.

-— eﬁ'ect of hypertonic solutions on Fundulus and Arbacia eggs, 117.

--exovates produced by dilute seawater, 118, 190, 194, 195.

INDEX or AUTHORS

Loeb: artiﬁcial parthenogenesis, 121, 124.

—- etfect of potassium cyanide in prolonging life of ova, 131, 132.

— eﬂect of certain salts on Fundulus embryos and on Plutei, 135.

— toxicity and antitoxicity functions of valency, 186.

-— effect of alkalies, 151.

— effect of gravity on Anmmularia, 272, 273.

-gégterogeneous cross-fertilization,

Lombardini : electric currents, 91.

Lyon : need of oxygen for the eggs of Arbacia, 112.

— action of potassium cyanide, 132.

Malebranche : preformation, 15.

Malpighi: preformation, 14, 15.

Marcacci : mechanical agitation of Hen's eggs, 90.

Mark: spiral asters in eggof Lz‘maac,40.

Mathews: artiﬁcial parthenogenesis by mechanical agitation, 90.

—— effects of atropine and pilocarpine on Echinoderm eggs, 131.

—toxicity and decomposition tension, 136.

— see also Wilson (E.B.)and Mathews.

Mencl : formation of lensin SaImo,276.

Metsclinikoif : separation of blastemeres of Oceania, 181.

-—fusion of blastulae in Mitrocoma, 202.

Minot : rate of growth deﬁned, 60.

—— change of rate of growth of guineapigs, 61.

— - of rabbits, 62, 68.

— — ofchickens, 67.

— coeﬂicients of growth, 65.

— senescence, 65.

-- increase of cytoplasm, decrease of mitotic index, 65.

— change of variability in guineapigs, 71. _ — genetic restriction, 246, 277. Mitrophanow: malformations due to low and high temperatures, 104. — necessity of oxygen for the Chick, 109.

Moore : sodium sulphate an antidote to sodium chloride, 135, 186.

Morgan : suppression of cell-division in Arbacia, 56, 118.

- gravity and the gray crescent of the Frog's egg, 86.

-— monstrosities produced by low temperatures in Ranapaluslris, 100.

— need of oxygen for the Frog's egg, 110. INDEX OF AUTHORS

Morgan :lithium salts used to produce alzlgéiormalities in Frog's eggs, 120,

— attempts to induce parthenogenesis, 124.

— number of chromosomes in artiﬁcial parthenogenesis, 125.

— artiﬁcial parthenogenesis produced by cold, 108. — first furrow, plane of symmetry, and sagittal plane in Frog's egg, 165,168.

— development of half-blastomere of

Frpg's egg ; post-generation, 170,

17 .

— development of vegetative cells of Frog’s egg, 173.

— potentialities of half-blastomeres in Teleostei, relation of ﬂrstfurrow tn sagittal plane, effect of removal of yolk, 178.

— effect of injuries to blastoporic lip, 179.

— number of cells in partial larvae of Amphioxus, 181.

— potentialities of ectoderm in Echinoids, 195.

— development of egg-fragments of Echinoids, 197.

— number of cells in partial larvae of Echinoids, 198.

— fusion of blastulae of Sphaerechinua, 201.

— and Driesch: isolated blastomeres and egg-fragments of Ctenophora, 210-212.

— micromercs of Ctenophore egg, 30.

—- characters of hybrid Echinoid larvae, 260.

Moscowski : gravity and the gray crescent of the Frog's egg, 86.

Miihlmann : prenatal growth-rate in man, 64.

artiﬁcial

Nﬁgeli : permutations of original elements in development, 286.

Pander: 16.

Pearson : variability in man, 73.

Pﬂiiger: isotropy of the cytoplasm, 18, 158.

—--inﬂuence oi’ gravity on development, 18, 78, 81-83, 168.

-- rule for direction of nuclear division, 32, 85.

Plateau : principle of least surfaces, 41, 43.

Platnerz 280.

Pott : growth of the Chick, 59, 60, 67.

319

Pott and Preyer: respiration of the Chick, 112. — loss of weight of Hen’s egg due to evaporation from albumen, 115. Preyer : rate of growth, 60.

Quetelet: change of rate of in man (weight), 68.

— — (stature), 69.

— — (other dimensions), 90.

growth

Rauber : eﬁect of reduced atmospheric pressure on the Frog’s egg, 110.

— elfect of pure oxygen on the eggs and tadpoles of the Frog, 118, 114.

Reichert: 16.

Remak : 16.

Robert : mechanics of spiral segmentation, 45-47.

— rate of growth in man, 68.

—-— change of variability, 73.

Rossi : eﬁ‘ect of electricity on Amphibian eggs, 91.

Roux : aims of experimental embryology, 13.

— ‘Mosaik-Theorie ’ of self-differentiation, 17, 158, 279, 286, 297.

— qualitative nuclear division abandoned, 19, 159, 240.

— idioplasm and reserve-idioplasm, 159, 266.

— a half-embryo from one of ﬁrst two blastomeres and post-generation of missing half, 159, 162.

— coincidence of ﬁrst furrow and sagittal plane in Frog's egg, 17, 159, 165. '

— the spermatozoon and symmetry of the Frog's egg and embryo, 80, 165, 247, 248.

— meaning of karyokinesis, 252.

— dependent diﬂerentiation, 17, 158, 277, 286.

— functional adaptation, 290.

-— speciﬁc gravity of contents of Frog’s eg, 79.

—- gray crescent of Frog's egg, 80, 165.

— inﬂuence of gravity on the Frog's egg, 85-87.

— effect of electricity upon the Frog’s egg, &c., 92.

— light and development, 93.

— segmentation of Rana esculenta, 26.

—- Frog's eggs compressed in small tubes, 39, 40.

— comparison of systems of oil drops and segmenting ova, 49-58.

— cytotropism, 55, 278. 320

Roux: cytotaxis, 55.

— cytochorismus, 45.

-— cytarme, 45, 53.

— cytolisthesis, 58.

— ‘ Framboisia’, 135.

Ruseoni : electric currents, 91.

Sachs : law of direction of cell division, 28.

Sala: fertilization processes altered by cold, 108.

- fusion of the eggs of Ascaris, 202.

Samassa: effect of pure oxygen at

pressures on the Frog's egg,

— effect of lack of oxygen on the Frog's egg, 119.

— effect of various gases on the eggs of Ascaris, 112.

—development of animal cells of Frog's egg, 173.

— Schaper: development of tadpoles after removal of brain and eyes, 175.

—- cause of differentiation of lens, 275.

Schulze, F. E. : Sponges, 22. Schulze, 0.: gray crescent of Frog’s

eg, 80, 247.

—— gravity and the Frog’s egg, 86.

—- effect of low temperatures on the Frog's egg, 100.

—— ﬁrst furrow and sagittal plane in Frog's egg, 165.

— double monsters from Frog’s egg, 171.

Seeliger : hybrid Echinoderm larvae, 260, 269.

Selenka: first furrow and sagittal plane in Echinoids, 250.

Semper: rate of growth in Limnaea, 67.

Smith: Peltogaster, 24.

Sollmann : after effects of hypertonic solutions, 124.

Spemann : development ofconstricted Newt's eggs, and embryos, 174, 175.

— causes of formation of lens and cornea, 275, 276.

Sumner: injuries to blastoporic lip of Teleostei, 178, 246.

Sutton {individuality of chromosomes in Brachyslola, 256.

Swammerdam : preformation, 14, 15.

segmentation of

Vejdovsky : unequal centrosomes in dividing pole-cells, 31.

— polar rings in Rhym.-hclmis, 251.

Vernon: rate of growth in Strongmlocmtrotus, 67, 70.

INDEX or AUTHORS

Vernon : alteration of variability in Echinoid larvae, 71, 74.

-— effect of light on Echinoid larvae, 95, 96. '

— effects of change of temperature on Echinoid larvae, 106, 107.

-— change of variability produced by heat, 107.

— and by chemical agency, 141, 156.

—poisonousness of carbon dioxide to Sea-urchin eggs, 112.

— characters of hybrid Echinoid larvae, 261.

Verworn : behaviour of Protozoa in an electric current, 93.

— regeneration in Protozoa, 254, note.

Walter, sec Endres and Walter.

Weber : law of stimuli, 272.

Weismann: qualitative division, 19, 297.

— idioplasm, and reserve—idioplasm, 159.

Weldon : growth-rate in Carcinus, 71.

— change of variability in Carcinus, 72.

— — in Clausilia, 73.

Wetzel : double monsters Frog’s egg, 172, 245.

Whitman : polar rings in Clepsine, 251.

Wierzejski, see Wierzejski, 250.

Wilson, 0. B. : malformations of Amphibian embryos, 120.

— acclimatizution to salt-solution, 136.

Wilson, E. B. : phioxus, 26.

—— segmentation of Renilla, 55, note.

— unequal centrosomes in dividing pole-cells, 31.

—pressure experiments on eggs of Nareis, 39, 213, 240.

- cytology of artiﬁcial parthenogenesis, 124.

— development of isolated blastemeres in Amphioxus, 179, 180.

—— isolated blastomeres of Oerebratulus, and fragments of blastulae, 205, 206.

— isolated blastomeres of Patella, 218-222.

—- of Dentalium, 225, 226.

—— removal of polar lobe, 224.

— effect of fertilization, 222, 223.

— development of egg-fragments, 226, 227.

nuclear

from

Kostanecki and segmentation of Am

Wilson (E. B.) and Mathews : spermpath, egg axis, ﬁx-st furrow, and embryonic axes of Toacopneustes, 185, 249, 250. ‘

Windle: effect of magnetism and electricity on development, 91.

Wolff : epigenesis, 16. '

Yatgu: egg-fragments of Cerebratulus,

2 7.

Yung: effect of light on tadpoles, etc., 94.

Zeleny : egg-fragments of Cerebratulus, 206, 207.

Zelinka : fertilization Callidma, 34.

spindle in

Jnxntsonr’ Y

Ziegler : heterodynamic centrosomes, 80.

.— formation of micromeres in Cteno phora, 209, note.

-— pressure experiments on egg gaéiinoids and Ctenophora,

— fertilization of Diplogaster, 84.

— egg and embryonic axes, 250.

Zoja : isolated blastomeres of Hydromedusae, 181, 182.

—— animal and vegetative cells of Strongylocentrotus, 198.

Zur Strassen : segmentation of Asoaiis, 81.

— fusion of the eggs of Ascaris.

s of 88,

Addenda Et Corrigenda

P. 5, 5 lines from bottom, for unicellular read multicellular. P. 28, line 10, after irregular, insert and in Triclads.

P. 57. To Literature acid J. Sacns. Die Anordnung den-Zellen in jiingsten Pﬂanzentheilen, Arb. Bot. Inst. Wurzburg, ii, 1882. _

P. 114. To Literature add G. BUNGE. Weitere Untersuchungen iiber die Athmung der Wiirmer, Zeitsc-hr. physiol. Chem. xiv, 1890.

P. 140, line 22, for prospective potentialities read prospective signiﬁcanoes.

P. 225, 2 lines from bottom, for is now placed in road has now moved into.

P. 271. To Literature add W. S. Surrox. On the morphology of the chromosome group in Brachyslola magna, Biol. Bull. iv, 1902.

P. 278. To Literature add J. W. Jnxxmsox. On the effect of certain solutions upon the development of the Frog's egg, Arch. Ent. Mech. xxi, 1906.

Cite this page: Hill, M.A. (2024, June 16) Embryology Book - Experimental Embryology (1909). Retrieved from https://embryology.med.unsw.edu.au/embryology/index.php/Book_-_Experimental_Embryology_(1909)

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Book - Experimental Embryology (1909)

Contents

Experimental Embryology

Preface

Contents

Index Of Authors

Addenda Et Corrigenda