XXVI 



J N D E X. 



Fungus-germs, mode of origin of, 

 i. 183, ii. 203 ; development of, in 

 Ammonic-carbonate solution, i. 

 288; vital resistance of. to heat, 

 i. 315 ; origin of, in pellicle, from 

 segmentation of Amcebce, ii. 226; 

 origin of, from embryonal areas, 

 ii. 233; in blood, ii. 331; from 

 milk-globules, ii. 310; from em- 

 bryonal spheres, ii. 401 ; resolu- 

 tion of Euglence into, ii. 436; in- 

 dependent origin of, within closed 

 flasks {see ArchebioslSj experiments 

 relating to). 



Gavarret, ?sl., on source of energy 

 in animals, i. ■23, 48 ; mode of 

 action of muscle, i. 30. 



Gay-Lussac, views of, concerning 



fermentation, i. 416, 

 Gemmce, ii. 520. 



Gerhardt. on fermentation, i. 416. 



Germ-cells, ii. 96. 



Germs, existence of, in air, ii. 305, 

 53S ; two theories concerning, ii. 

 266; M. Pasteur on unequal dis- 

 tribution of, ii. 272 ; M. Pouchet 



■ and others on atmospheric, ii. 

 275-2S8; distribution of t]iO:^e of 

 Rotifers and NematoidSj li. 535; 

 absence of, in crystals, xv : abun- 

 dance of, in old crvstals. xxv ; 

 presence of, in crystals of Am- 

 monic Tartrate, xvi, xviii ; mode 

 of origin of, xix, xxi, xxiii, xxv- 

 xxix: absence of. in newly-formed 

 crystals, xxi, xxiv. 



Germ-theory of disease, cxx-cxxvii. 

 Glanders, cxxxii. 



Gleocapsa, origin of, n. 411. 



Gomphonema, origin of, ii. 442. 



Gonidia, variation in modes of 

 growth of, ii. 164 ; of Algae, Lich- 

 ens, and Mosses, indistinguishable 

 from one another, Ixxiii. 



Gonidial-cell. hetero^enetic chances 

 m, 11. 378. 



Goodsir, Prof, on centres of nutri- 

 tions i' 146. 



Graham, Prof., on colloids i SS 



Grant, Prof, views concerning evo- 

 lution of living things, ii. xG'- 

 cause of organization, ii. 1^84. ^' 



Gregarinoe, nature of, xcil;*rela. 

 tions of, to Amoebce, xci; to Psq. 

 rosperms, xcii. 



Gros, Dr., transformations of chlo 

 rophyll corpuscles of Euglen:? 

 11.410; origin of Desmicfs and 

 Diatoms, ii, 412; heterogenetic 

 changes in Astasi?e and Euglen- 

 ii. 434; transfoi-mation of En^ 

 glenae into Diatoms, ii. 444 ; inio 

 Micrasterias and Arthrodesmus, 

 11. 44S; into Confen-3e. ii. y.i] 

 origin of Mosses from Confervx! 

 ii. 453; direct transformation of 

 Euglence into Ciliated Infuse.::, 

 ii- 459; origin of Vorticella as 

 outgrowth from algoid filaments, 

 il. 470; process of Pangenesis in 

 Roafers, ii. 4S4; origin of Cilia- 

 ted Infusoria from Rotifer-eggs, 

 ii-4SS; ascending transfomr.t"" 

 of Ciliated Infusoria, ii. ;co; 

 tiansiormation of Actinophrys 

 into Ciliated Infusoria or Rotifers, 

 ii. 505 ; of "svinter-spore of Vol- 

 vox into Rotifers, ii. 506; of 

 Eiiglence into Rotifers, ii. 507; 

 of Euglenx into Xematoids, ii. 



527; origin of Entozoa, ii. 539; 



transformations of Euglenae and 

 Astasi?e. Ixxxv. 



Grove, Mr., on correlation of phy- 

 sical forces. 1. 9. iS. 

 Gruithuisen, on fermentative change? 



in infusions, i. 41 S. 

 Gui^'rin-Meneville. M., on indep c'"'- 

 ent origin of Muscardine, ii. y-^- 



Haeckel. Prof., on original evolution 

 of Life, i. i^j ; Protista and di- 

 visions of, i. 11;: rerroductionof 



Frotomyxa. 1. 193. 

 Halford. Prof.j on snake-^:i?oring. 

 cxxviii. 



! 



f on ^'' 

 pro;-' .0 tr^' 



on 



h 







ode of 



>cb: 



ig 



relation 01,^^^,^ 



spo^.fi Vibrio. 

 Bacteria ar.a 



Heredity, law M^ 

 jleterogeneiis, 1. /4. 

 behveen Archebio. 

 viriott5 modes m v 

 occur, (Table) 1. ' 

 and modem views ( 

 ,-2-181; classifical 



tie; of, ii. i?2; in 

 ammal secretions, ii 



sues of plants, il 3 : 



of, amoagst lowest 



561 ; varieties of, ii 



ofMonad5,fungus-< 

 and Rotifers, bv sr 



%ji4i:i;liiiu 

 future researches c( 



"■ H3 ; different 

 (Table) ii, ;^5 



Hiis, Dr, Braxton, 

 "f ^l°nads, ii. ,,, 



"'' S«d, Mr T r 



>i" ;t ^ i 



E 



fea-.i 



■^"^•co^-? 



