600 



INDEX OF AUTHORS 



Car])enter, Operculina shell, Fig. 66, p. 



130 

 Carrel, Tissue culture, 208, 481 

 Caullery and Mesnil, Autogamy in 

 Neosporidia, 550 



Fertilization in Actinomyxida, 460 

 Celakowsky, Digestion 187 

 Chagas, Somatella formation, 239 



Trypanosoma cruzi, Fig. 47, p. 96 

 Chagas disease, 288 

 Chambers, Amaha, periplast, 127 



pseudopodia, 172 

 Chatin, Origin of chitin, 129 

 Chatton, Blastodinida>, 270 



Conjugation conditions, 511 



Ellobiojihrija, 373 



Endobasal bodies, 79 



Glaucoma scintillans, 570 



Life cycles, 477 



Mesomitosis, 113 



Pleodorino, 503 



Polykrikos, Fig. 132, p. 273 

 Chatton and Lalung-Bonnaire, Vahl- 



kampfia, 388 

 Child, DedifTerentiation, 242 



Metabolic gradients, 172 



Potassium cyanide and metabo- 

 lism, 489 



Senescence, 208 

 Claparcde and Lachmann, Contractile 



vacuoles, 169 

 Cleveland, Termite parasites, 193, 295 

 Clowes, Sol and gel states, 172 

 Cohn, Myxosporidia budding, 230, 451 

 Collin, Anoplophrya hranchiarum, chro- 

 mosomes, 522, et seq. 



Kinetic elements, 105 



Tokophrya cyclopum, Fig. 113, p. 

 232 

 Cowdry, Chlamydozoa, 463 



Chondriosomes, 49 

 Craig, Craigia, 338 

 Crawley, Gregarine movement, 423 



Sarcocystis muris, life history, 461 

 Crow, Volvocidre, 283 

 Cutler, Division frequency, 205 



Skatol on endamabae, 489 

 Cutler and Crump, Soil Protozoa, 25 



Dallinger, Adaptations, 568 

 Dallinger and Drysdale, Adaptations 



to temperature changes, 568 

 Dangear, Euglcna sociabilis, Fig. 95, 



p. 209 

 le Dantec, Digestion, 187 

 Davis, Autogamy in Myxosporidia, 547 

 Myxosporidia, 449 

 Odomilus, 295 



Spha^rules in Myxosporidia, Fig. 

 116, p. 235 



Dawson, Amicronucleate ciliates, 72 

 Cannibalism, 177 

 Oxytrichi, double individuals, 570 

 Vitality, 477 

 Debaisieux, Autogamy, 457, 550 

 Dehorne, Paramecium chromosomes, 



121, 522, et seq. 

 Delage, Protozoa, 55 

 Dembowska, Cirri regeneration, 155, 



224 

 Dobell, Aggregata eberlhi, haploid 

 groups. Fig. 222, p. 532 

 Axostyle function, 138 

 Binucleata, 93 

 Biparental inheritance, 578 

 Conception of Protozoa, 18 



of the cell, 19 

 Copromoiias subtilis, Fig. 208, p. 



498 

 Kinetoplast, 95 

 Scytomonas (Copromonas), 91 

 Dobell and Jameson, Haploid groups. 



Fig. 222, p. 532 

 Doflein, Ama:ba vespertilio, 80; Fig. 39, 

 p. 82 

 Axostyle function, 138 

 Bistadiida>, 87 



Calonympha grassii, Fig. 49, p. 98 

 Chlorogonium euchlorum. Fig. 



117, p. 237 

 Chrysomonadida, Fig. 125, p. 258 

 Classification, 252 

 Dicti/oskiium and Sappinia, Fig. 



147, p. 329 

 Flagellum insertion, Fig. 42, p. 86 

 Follkuliiia, Fig. 84, p. 160 

 (hjiiinodiiiium lunula, Fig. 130, p. 



271 

 H ydrurus foetidus, Fig. 127, p. 260 

 Karyosomes, 60 

 Nocliluca nucleus, 63 

 Parabasal body, Fig. 47, p. 96 

 Parasitic nutrition, 186 

 Plasmotomv, 230 

 Pole cells, S3 



Pseudopodia and stereoplasm, 142 

 Stcrc'oplasm, 42 

 Stereoplasmatic axis, 316 

 Dogiel, Cycloposlhiuin bipalmatum, Fig. 

 207, p. 498 

 Diplodinium triloricatum, sperma- 

 tozoa, Fig. 213, p. 517 

 Nuclei as spermatozoa, 498 

 Schizocysiis spinculi, Fig. 114, 

 p. 232 

 Dreyer, Skeleton patterns, 32; Fig. 11, 



p. 33; 130, 318 

 Driesch, Organization, 44, 165 

 Driiner, Contractility hypothesis, 204 

 Drzewiecki, Gregarines, 247 

 duBois Reymond, Protoplasm, 44 

 Dujardin, Classification, 33, 315 

 Contractile vacuoles, 170 



