59S 



INDEX 



Jennings, scat of sensory reaction, 128 



selection in Arcella, 348 



split conjugants, 284 



variations in Paramecium, Fig. 

 167, p. 342 

 Jepps and Dobell, Dientamoeba, 396 

 Jirovec, parabasal Feulgen reaction,HS 

 Joeniidae, Key to genera, 428 

 Jollos, endomixis and environment, 340 



enduring modifications, 344 

 Joukowsky, cannibalism, 185 



isolation cultures, 252 

 Joyet-Lavergne, chondriome and sex, 

 76 



Golgi in metozoa, etc., 79 



Glutathion and mitochondria, 175 



Nina gracilis, sex, Fig. 214, p. 537 



Kahl, protrichocysts, 135 



Kalmus, respiration, 174 



Kanthak, extractives from Trypano- 



somes, 198 

 Kartulis, dysentery, 399 

 Karyomastigont, 414 

 Karyosome, endosome, 51 

 Kepner and Taliaferro, purpose in pro- 

 tozoan activity, 181 

 Kerona pediculus, Fig. 89, p. 160 

 Keuten, Euglena, 61 

 Key to genera of flagellates, 423 

 Keysselitz, Myxobolus autogamy, 324 

 somatic structures in Myxobolus, 

 240 

 Khainsky, chromidia, 70 



digestion, 195 

 Kidder, Concophthirius, 98 



motorium, 129 

 Kinetic elements in ciliates, 121 



in cytoplasm, 105 

 Kinetonucleus, 112 

 Kinetoplast, 114 

 King and Gatenby, Golgi apparatus, 



78 

 Kingsbury, mitochondria and respira- 

 tion, 7f> 

 Kite, physical conditions in Ameba, 



180 

 Klebs, primitive form, 141 

 Klein, cilia structure, Fig. 82, p. 152; 

 Fig. 83, p. 183 

 silver line system, 80 

 Kofoid, axostyle function, 144 

 chromidia, 55, 70 

 free nuclei formation, 88 

 function of parabasal, 111, 115 

 neuromotor system, 105 

 Trichomonas, 1 17 

 Kofoid and Swezy, blepharoplast, 109 

 centroblepharoplast, 117 

 K mlo mix ha dysenteriae, nuclei, 

 394 



Kofoid and Swezy, mitosis in Tricho- 

 nympha campanula, 99 

 parastyle, 1 14 

 Streblomastix, Fig. 16, p. 3 

 Trichomonas augusta, 110 

 Kofoidiidae, 428 

 Koidzumi (Teratonympha , Cyclo- 



nympha, Fig. 180, p. 429 

 Kolkwitz, habitat groups, 352 

 kossel, chemistry of chromatin, 56 

 Kranzlin, origin of elaters, 44t> 

 Krogh, oxidation reduction potential, 



174 

 Krukenberg, pepsin-like ferments, 196 

 Kudo, Myxosporidia distribution, 549 

 Stem /i< Ilia magna, cycle, Fig. 222, 



p. 553 

 Thelohania cycle, Fig. 223, p. 554 

 Kuschakewitsch, chromidia, 70 



I, ABYRINTHTJLIDAE, 443 



Key, 461 

 Lackey, sewage protozoa, 357 

 Lacrymaria olor, elasticity, 162 



types, Fig. 85, p. 156 

 Lamprodermidae, Key, 464 

 Lang, types of pseudopodia, 434 

 Lankesterella ranarum, Fig. 218, p. 545 

 Lankesterellidae, Key, 566 

 Lankesteria ascidiae, cvcle, Fig. 213, p. 



531 

 Lapage, cannibalism, 185 

 Lauterborn, sapropelic forms, 24, 353 

 Laveran, kinetonucleus, 113 



malaria., 106 



transmission of malaria, 407 

 Laveran and Mesnil, sarcocystin, 197 

 Lavoisier, respiration, 174 

 Learning in Protozoa, 181 

 Lebedew, chromidia, 70 

 Leber, endotoxins in Trypanosoma, 198 

 Lecudinidae, Key, 560 

 Ledenmuller, Infusionsthiere, 17 

 Leger, Ophryocystis mesnili, 229; Fig. 

 120, p. 231 



origin of mammalian trypano- 

 somes, 361 

 Leger and Duboscq, chromidia, 69 

 Leidy, Endamoeba, 386, 389 

 Leishman, organism of dam duin fever 



369 

 Leishmania donovani, Fig. 169 E, F, p. 

 366 



transmission, 371 

 Leishmaniases, 367 

 Leishmaniasis, types of, 369 

 Lembadion bullinum, Fig. 199, p. 182 



conchoides, Fig. 87, p. 158 



undulating membranes, 157; 

 Fig. 87, p. 15S 

 Lembidae, Key, 508 



