614 



INDEX 



Giltay, 235 ; G. u. Aberson, on denitrifying 

 bacteria, 550; influence of oxygen on 

 fermentative activity, 556. 



Gingerbeer-plant, 560. 



Gingko biloba, 333. 



Clattx, 439 ; G. marttima, 430. 



Gleditschia trtacanthus, 401. 



Globoids, 428, 461, 595. 



Globularia, 474. 



Glucose, 506. 



Glucoside-ferments, 507. 



Glucosides, 65, 66, 319, 491 (sec. 87) ; func- 

 tions of, 492. 



Glutamin, 457-9, 465. 



Gluten, 460. 



Glycerine, power of inducing starch forma- 

 tion, 326. 



Glycocoll, 383. 



Glycogen, 476. 



Glycyrrhizin, 491. 



Gnentzsch, 216. 



Godlewski, 222, 318, 319, 322, 332, 361-7, 

 409, 524-8, 539, 540-2, 550; drop ex- 

 periment with porous wood, 227 ; influ- 

 ence of mineral food on germination, 

 594; respiration in oily seeds, 529; 

 theory of ascent of water, 217, 226. 



Goebel, 26, 37, 39, 158, 159, 172, 180, 

 181, 228, 275, 276, 280, 368, 377-95 

 negative pressure in intercellular air, 

 201. 



Goedechens, analyses of ash of algae, 127. 



Goetze u. Pfeiffer, 409. 



Golenkin, 320, 438. 



Gonnermann, 400. 



Goppelsroder, 219. 



Goppert, 175. 



v. Gorup Besanez, 379, 437 ; ash analyses 

 of, 128. 



Gosio, 438. 



Graham, 187 ; on osmosis, 92. 



Grandeau, 368. 



Granulobacter butylicum, 509, 540; lacto- 

 butyticum, 509 ; lacto-butyricum, 532 ; 

 polymyxa, 547 ; saccharo-butyricutn^ 



559- 



Granuloplasm, 48. 

 Granulose, 506. 

 Grapes, disappearance of glycolic acid from, 



602 ; ripening of in darkness, 601. 

 Grassmann, 284. 

 Grating spectrum, use of, 350. 

 Gravity, influence of injuries on response to, 



19; influence of, on bleeding, 264. 

 Green, Reynolds, 460-6, 494, 502-7, 510, 



598, 604 ; on ferments, 501 ; on rennet, 



509 ; zymogen, 503. 

 Greenwood, 377. 

 Gressner, 600. 

 Grew, Nehemiah, 315, 417 ; ascent of water, 



225 ; - - theory of, 226 ; lactiferous 



vessels, 581 ; spongioles, 152. 

 Griessmayer, 460. 



Grihaut, 75. 



Grimbert, on butyric fermentation, 558 ; 



influence of cultivation on fermentative 



activity, 554. 

 Gris, 427 ; deposition of starch in wood, 



602, 603. 

 Grischow, 331. 

 Groom, 160, 276, 371, 433. 

 Grosglik, 360. 



Grossmann u. Mayershausen, 542. 

 Groth, on molecular character of crystals, 



79- 



Growth, influence of temperature on, 562 ; 

 of cessation of on other vital activi- 

 ties, 425. 



Growth and development, causal relation- 

 ship of, 23. 



Griibler, 461 ; formation of crystalloids, 80. 



Griiss, 475~8, 481, 503-7, 5 IO > 545. 598; 

 test for diastase, 505 ; reserve-cellulose, 

 482. 



Guettard, 237, 241 ; importance of dia- 

 stomatic transpiration, 243 ; - in 

 summer, 250. 



Guignard, 494. 



Guillemin, 334. 



Gum, 477. 



Gunnera, 371 ; G. scabra, potassium chlo- 

 ride in petiole of, 141. 



Gustavson, 425. 



Guttation, 253. 



Gymnoplast, 88. 



Haacke, 55 ; electric currents in living cells, 

 104. 



Haas, 602. 



Haberlandt, 52, 59, 159, 180, 189, 191-8, 

 216, 217, 228, 235, 242-4, 276-9, 

 281-7, 307 313, 322, 334, 357, 358, 

 360, 376-8, 409, 478-80, 591, 596, 597, 

 600-4; absorption by water-pores, 161 ; 

 hydathodes, 253 ; internal negative 

 pressure in mosses, 203 ; production of 

 diastase by aleurone layer, 599 ; sieve- 

 tubes of mosses and algae, 581 ; water- 

 glands, 278. 



- (F.), 250, 251 ; (G.) 250, 334, 593- 



Haeckel, 9. 



Haematochrome, 316. 



Haematogen compounds, 426. 



Haemoglobin, as test for oxygen, 311. 



Hales, 198, 212, 227, 237, 242, 250, 259, 

 261, 263, 266; absorption by leaves, 

 160 ; by evergreens in winter, 230 ; 

 amount of transpiration, 220; relation 

 to absorption, 232 ; ascent of water, 

 225 ; causes of, 211 ; bleeding, 254 ; 

 blocking of tracheae, 231 ; diminished 

 transpiration in moist air, 245 ; exist- 

 ence of rarified air in plants, 201, Fig. 

 21 ; expansive power of swelling seeds, 

 75 ; exudation-pressure at different 

 levels, 260 ; oblique transference of 



