590 



INDEX 



Anoplophryidae, Key, 489 

 Anthophysa vegetans, colony, 39; Fig. 



21, p. 40 

 Anti-digestive ferments, 359 

 Aphrothoraca, Key to genera, 460 

 Aragao, gametocyte formation in Plas- 

 modium, Plate II opp. p. 408 

 Arcella vulgaris, life cycle of, 236 



origin of nucleic acid, Fig. 36, 

 p. 71 

 Arcellidae, 458 



Key, 467 

 Arcyriidae, Key, 465 

 Armourochetidae, Key, 464 

 Arndt division in Hartmannella, 213 



H artmannclla klitzkei, 106 

 Askenasia elegans, Fig. 84, p. 153 

 Aspidisca, Fig. 90, p. 161 

 Aspidiscidae, Key, 521 

 Assimilation, products of, 203 

 Astomida, Key, 489 

 Aulacantha scolymantha, chromosomes, 



Fig. 53, p. 98 

 Austin, Uroleptus mobilis, 256 

 Autogamy, 322 



in Cnidosporidia, 324 

 Awerinzew, autogamy, 324 

 Axopodia, 4 .' ! 1 



Axopodium, 145; Fig. 78, p. 146 

 Axostyle, 144 



division of, Fig. 77, p. 145 



B 



Babes, volutin, 72 

 Babesiidae, Key, 566 

 Babesiina, 543 



Key, 566 

 Bacillary dysentery, 391 

 Baitsell, Pleurotricha lanceolata, graph, 

 ( 251 



Stylonychia pustulata, 253 

 Balantidium, 401 



coli, copulation, 275 



neuromotor system, 129 

 Balbiani, merotomy, 55, 219 

 Bancroft, reversibility of phase, 180 

 Basal body, 107 



granules, ciliates, 123 

 Basichromatin, 57 

 Becker, reducase, 175 

 Beers, Ameba gastric vacuole, 189 

 Belaf, Actinophrys sol, maturation, 308 



Bodo ovatus, Fig. 29, p. 62 



division of Lophomonas, Fig. 105, 

 p. 211 



fertilization in Actinophrys sol, 

 Fig. 142, p. 278 



Karyosome, 51 



lipoplasts in Actinophrys, 316 



substances in nucleus, 57 



vitality graph of Actinophrys sol, 

 Fig. 134, p. 257 



Benda, chondriome, 73 

 Benedict, uric acid in Paramecium, 177 

 Berthold, ameboid movement, 180 

 Blepharisma undidans, Fig. 208, p. 514 

 pseudo-membrane, 157 

 R.Q., 174 

 Blcpharocoridae, Key, 503 

 Blepharoplast, 107 

 Blepharoplastless trypanosomes, 114 

 Bicoecidae, Key to genera, 424 

 Bignami, relapse in malaria, 344 

 Bilateral symmetry, Figs. 17, 18, pp. 



35, 36 

 Binucleata, 113 

 Bioblast, 43 



Biparental inheritance, 350 

 Bishop, Spirostomum, 25 

 Bistadiidae, 141, 455 



Key, 466 

 Bodo lacertae centrioles, 63; Fig. 33, p. 

 65; Fig. 34, p. 66 

 parabasal, Fig. 62, p. 116 

 ovatus, kinetic elements, Fig. 29, 



p. 61 

 species, Fig. 76, p. 143 

 Bodonidae, Key to genera, 426 

 Boeck, blepharoplast in Chilomastix, 

 109 

 and Drbohlav, Endameba cultures, 

 393 

 Bogert, Aulacantha, 68 



scolymantha, Fig. 53, p. 98 

 Botsford, merotomy, 178 

 Boveri, centronucleus type, 61 



"spheres of influence" and divi- 

 sion, 205 

 Boveriidae, Key, 503 

 Bowen, Golgi apparatus function, 179 

 Bowling, Zygocystis, 536 

 Brandt, function of contractile vacuole, 



176 

 Brasil, budding in Eleutheroschizon, 

 229; Fig. 119, p. 230 

 Gonospora varia, 94 

 Brazilian trypanosomiasis, 384 

 Bresslau, artificial membranes, 193 

 silver line system, 80 

 temporary cysts, 267 

 Bresslau andScremin, Feulgen reaction, 

 57 

 parabasal Feulgen reaction, 

 118 

 Bresslau and Tektin, protrichocysts, 



135, 137 

 Brown, Dinenympha, Fig. 176, p. 414 

 Brown and Golgi in Amoeba proteus, 78 

 Bruce, tsetse flies and trypanosomes, 



381 

 Brumpt, copulation in Balantidium, 



275 

 Budding, 225 

 division, 214 

 endogenous, 228 

 exogenous, 226 



