582 



SUBJECT-INDEX. 



plants in time, 1,320-7, 328; botanical, 

 in New Zealand, i, 389 ; region and 

 organism, 1, 389-91, 401; llirongh 

 varied media, 1, 391-7, 401, 472 ; 

 past and present organic forms, i, 

 399-401, 472; vegetal and ammal 

 complexity, 2. 280. 



D. vision of labour, physiological, {see 

 Physiology). 



Dog : lives of tortoise and, 1, 84, 85 ; 

 heredity and habits, 1, 24il ; abnormal 

 digits, 1, 262 ; expenditure and genesis, 

 2, 452 ; nutrition and genesis, 2, 458. 



Domestication : animal and vegetal 

 varifition, 1, 260-2, 264; and fertility 

 {see MultipUcation). 



DoubledaT, E., oii nutrition and genesis, 

 2, 483-5. 



Dropsy {see Disease") . 



Drosera: individuality, /, 208; prolife- 

 rous growth, 2, 71. 



Du Bois-Eeyraond, E. H., electricity 

 from muscles and nerves, 1, 47. 



Dualism, and evolution, 1, i91. 



Dye : tissue absorption, 2, 262 ; vegetal 

 circula'.ion and staining, 2, 5Cb-43, 

 546-50, 553, 555. 



Eab, development of vertebrate, 2, SOi, 

 306. 



Earth, climatic rhythm and organic 

 change, 1, 411-3, 473. 



Earth-worm, bilateral symmetry, 2, 182, 

 183. 



Echinococcus {see JEniozna). 



Echinodermafa, symmetry, 2, 177-80. 



Ectoderm : functional ditlerentiation, 1, 

 158, 159 ; functional vicariousness, 1. 

 165. 



Effects, multiplication of: variation. 1, 

 265, 269 ; organic evolution, i, 423-6, 

 428, 430, 465, 473 ; morpbolofieal de- 

 velopment, 2, 7-9, 216 ; physiological 

 dillerentiation, 2, 383-4, 385. 



Eggs (.?ee Embryology). 



El'^ctricity : genesis m organic matter, 1, 

 47-9, 57 ; muscular action, 1, 56. 



Elephant, growth and genesis, 2, 439. 



Embryology : as aiding biology, 1, 97 ; 

 simulation of growth, 1, 108 ; initi:il 

 and final organic bulks, 1, 115, 128, 

 132; foetal flesh constitaents, i, 125; 

 human arm development, 1, 140 ; Von 

 Baer'g formula, 1, 141-4, 365-9, 378 ; 

 embryonic heat, /, 149 ; spherical 



organic form, 7, 149 ; functional diffa* 

 rentiation, 1, 159 ; individuality, 1, 

 204 ; imspecialized reproductive tissue, 

 1, 219-24, 254 ; changes following 

 impregnation, 1, 223; nuti'ition and 

 vegela'l gioutli, 2, 224-8, 235-7 ; and 

 animal growth, 1, 228-33, 235-7; 

 physiological units and heredity, i, 

 253-6 ; variation and parental func- 

 tional condition, 1, 261 ; physiological 

 units and variation, 1, 261-7, 2()7-}^, 

 269-70 ; fertilized and unmeet ilized 

 ova, i, 277; hermaphrodism, 1, 278-9, 

 2b0 ; animal and vegetal self-fertili- 

 zation, 1, 279-82, :i90 ; in-and-in 

 breeding, 1, 282-4, 289; eggs of 

 entozoa, 2, 297 ; evolution hypo- 

 thesis, 1, 349, 351, 471 ; petrel' de- 

 velojunent, i, 368 ; substitution and 

 suppvession of organs, 1, 369-71, 378, 

 384 ; direct ami indirect development, 

 1, 371-8; 'size of ova and aevelo]i- 

 ment, i, 373; egg-shell function, /, 

 440 ; direct transforniations and pliy« 

 siological units, 1, 489 ; transforma- 

 tion of blastema, 2, 13 ; arrest of 

 growth and innutrition, 2, 70; d^e- 

 vclo'pment oi dorsib7'anchiata, and litli- 

 colce, 2, 92 ; annul osa, 2, 94; adaptive 

 vertebrate segmentation, 2, 105-10, 

 111, 208 ; animal cell morphology, 2, 

 210; lung development, ^, 321, 32^!; 

 mammalian ova maturation, 2, 333 ; 

 movements of ova, 2, 3 16, 354; n)odi- 

 fieations in mole, ^, 384 ; genesis and 

 nutrition, 2, 404, 405 ; fish ova, 2, 415, 

 433 ; cost of genesis, 2, 415-6 ; num- 

 ber of birds' eggs, 2, 435, 457 ; heat 

 and genesis, 2, 447, 453 ; muscular 

 expenditure and genesis in bi;ds, 2^ 

 418 51, 453 ; vertebrate limb develop- 

 ment,:^, 522; ossificationin vertebrates, 

 2., 525; Owen's vertebrate theory, 2, 

 532 ; development of vertebra?,^, 533. 

 {See also Multiplication). 



Endoderm : functional differentiation, 2, 

 158, 159 ; functional vicariousness, i, 

 1(5. 



Endugens : mode of growth, 2, 56-8, 

 65-9, 75, 165 ; growtii and genesis. 2, 

 430; physiological integration, S, 276, 

 383. 



Eniozoa : metagenesis,!, 213; sel(-fer- 

 tilization, 1, 280 ; eggs, i, 207 ; dis- 

 tribution, i, 314 ; and special creation, 

 i, 342-3; development, i, 378 ; direcJ 



