INDEX 



501 



to, 207-209; retarding effect on 

 growth, 416-423 ; accelerating effect, 

 423-427 ; phototropism, 430-44-"). 



LILLE, temperature and growth of 

 tadpoles. 4.V.). 



Limax, geotaxis, 118-120. 



Limmea, poisoned by azoimid, 7 ; ac- 

 climatization to density, 85 ; light on 

 growth of. 420 ; extent of medium 

 and size, 474. 



Liiium, light and growth, 428. 



Lithium and growth, 318. 



Lobster, copper in blood, 324 ; heat 

 and growth, 458. 



LOCKE, metallic salts as poisons, 14, 15. 



Locomotion, interference with normal. 

 51 ; determination of direction, 32, 

 66, 89, 105, 114, 140, 180,258. 



Locust, heat arid growth of, 458. 



LOEB, chemotaxis, 33 ; oxygen attracts 

 fly larvae, 38 ; gravity and inverte- 

 brates, 118 ; effect of light intensity, 

 179, 197 ; phototaxis, 198 ; photo- 

 taxis and temperature, 200 ; light 

 attunement, 200 ; phototaxis, 204, 

 200, 208 ; temperature and irritabil- 

 ity, 230 ; thermotaxis, 258-261 ; r61e 

 of water in growth, 304 ; oxygen 

 and growth, 306 ; potassium and re- 

 generation, 319 ; magnesium arid 

 growth, 323 ; growth and density, 

 364 ; contact and growth of stolons, 

 370 ; cutting and rate of growth, 

 370 ; thigmotropism in hydroids, 382 ; 

 rheotropism, 388 ; geotropism in hy- 

 droids, 399, 400 ; phototropism in 

 animals, 442. 443. 



LOEW, effect on protoplasm of oxy- 

 gen, 2 ; potassic chlorate, halogens 

 and sodic chromate, 4 ; arsenical 

 salts, 5 ; catalytic poisons, and azoi- 

 mid, 7 ; sulphonal, 10 ; carbonic di- 

 sulphide and inorganic acids, 12 ; 

 soluble mineral bases, 13 ; salts of 

 heavy metals, 14, 15 ; hydroxyla- 

 niine, substitution poisons, 15 ; com- 

 plex nitrogenous compounds, 10; hy- 

 drocyanic acid, 19 ; aldehydes, 20 ; 

 ethylaldehydes, 21 ; sodic fluoride, 

 21, 22 ; alkaloids, 22, 23 ; acclimati- 

 zation to poisons, 27 ; oxygen and 

 growth, 294 ; phosphorus and growth, 

 314. 



LOMBARDINI, effect of electricity on 

 development of chick, 4<>.3. 



LUBBOCK, chemotaxLs, 33 ; effective 

 wave-lengths in phototaxis, 203, 205. 



LUDLOFF, electrotaxis, 141 ; theory of 

 electrotaxis in Ciliata, 14'). 



MACAIRE, heat and metabolism, 2u 

 MACALLUM, iron in growth, oiM. 

 MACDOXNELL, light on frog's growth, 



425. 

 MACDOUGAL, contact response of ten- 



dril, 378, 379. 

 McLEOD,, electricity and plant growth, 



407. 



MAGGI, food of Amoeba, 328. 

 Magnesium, and growth, 323. 

 Magnetropisin, 413. 

 Maize, silicon in, 324. See Zea. 

 Malic acid, chemotactic, 37, 38. 

 Mammals, quinine, 27 ; foods of, 330. 

 Man, acclimatization to poisons, 28; 



sulphur as food, 315. 

 Manganese, and growth, 321. 

 Manganic acid, poison, 3. 4. 

 Marine organisms, effect of fresh water 



on, 79 ; foods of, 303. 

 MARMIER, immunity, 30. 

 MARSHALL, phototaxis, 194. 

 MARTIN SAIXT-AXGE, r61e of water in 



growth, 284. 

 MASS ART, effect on protoplasm of par- 



aldehyde and formaldehyde, 21 ; 



cocaine, 24 ; antipyrin, 27 ; chemo- 



taxis, 33, 34 ; isotonic coefficients, 



73, 74 ; density and protoplasmic 



structure, 70, 80 ; acclimatization to 



density, 8(5-88 ; tonotaxis, 89-92 ; 



phosphorescence, 98 ; thigmotaxis, 



100, 107 ; gravity and Protista, 114- 



110, 121 ; phototaxis, 200. 

 MATTHIAS. See HERMANN. 

 MAUPAS, light and growth of Infuso- 



ria, 422. 

 MAYER, absorption of heat by plants, 



170 ; temperature and metabolism, 



222. 



Mechanics of response, 45. 

 MELTZKR, shaking bacteria, 99, 371. 

 MENDELSSOHN, change of optimum, 



254 ; thermotaxis, 258, 259. 

 Metabolism, modification by poisons, 



1-27 ; by dryness, 59 ; molar agents, 



