i^f^A different, 



,oniplexityof,ii,: 

 internal prindpi; 

 -i-nal tendenr^ 

 )r. El 



IND E X, 



XXXI 



--iciesa 

 Erasmus Dam 



ivart on c 



5^3; Prof.OweQ; 

 'I'ge M ivart one 

 Lamarck and f 

 use of, ii. 584;^ 

 :incipleof,iL58i;: 

 in by Mr. SpenctL 



^i-, 585-594 ;strei 

 principle sho^vn 



lowest organisi 



:ons, ii. 593. 

 g things, experinii 

 with calcined ai' 

 ferent results obta: 



i 



«:perimenters, i-J 

 relating to, ^vill 



ons, i. lii'P: 

 i. 360; expen^^ 

 with saline soli 

 remarks on, i-l 

 ■'s experiments^^ 



ei-ning, i- 374'J 



ts of acidity 

 .dbyheaM. - 



concerning.;, 

 .f Pr^f ;^oluti* 



igin 01 > 



4S2. 



Ova, in lower animals, i. 199-202; 

 in higher animals, i. 203-211. 



Owen, Prof., on cause of organiza- 

 tion, ii. 583 ; internal organizing 

 tendencies, ii. 591. 



Oxytricha, origin of, from Euglense, 

 ii. 4O2 ; from Chlorococcus vesi- 

 cles, ii. 467 ; metamorphosis of 

 Vorticella into, ii. 493 ; transform- 

 ation of, into Trichoda, ii. 496, 



Paloeontological Record, interpreta- 

 tion of, ii, 620; imperfection of, 

 ii. 622. 



Pangenesis, Mr. Darwin's hypothesis 

 of, ii. 98, 603 ; previous use of 

 term by Dr. Gros, ii. 484 ; — in 

 Tardigrades, ii. 549 ; peculiarities 

 of, in Tardigrades and Rotifers, 



ii. 551-. 

 Panspermism, views of Spallanzani 



and Bonnet on, i. 259; nature of 



theories, ii. 267 ; untenabiiity of 



hypothesis of, ii. 305, 359, 367, 



53^. 

 Paramecium, evolution of, from 



pellicle, ii. 240-250; its conver- 

 sion into Nassula, ii. 251; trans- 

 formations of, ii. 496. 

 Parasites, higher, ii. 309, 539 ; 

 lower, in blood of animals, ii. 

 324-337; in tissues of plants, ii. 

 317, 338-342; in tissues of ani- 

 mals, ii. 342-358 ; within eggs of, 

 ii. 366. 



Pasteur, M., on resistance to heat of 

 spores of fungi, i. 316; double 

 nature of results in experiments 



by, i. 340> 345. 374' 3^4 J vital 

 theory of fermentation, i. 404 ; 



his explanation of experiments 

 with bent-neck flasks, ii. 1 1 ; on 



atmospheric germs, ii. 271-275, 

 286. 



Peach, converted into Nectarine, ii. 



59*5, 59S. 



Peacock, black-shouldered, origin 

 of, ii. 59S. 



Pebrine. nature of, ii. 352, cxxii; 



Pellicle, formation of, on organic 

 infusion, i. 266; composition of, 

 i. 277, ii. 193 ; formation of em- 

 bryonal areas in, ii. 198; remarks 

 concerning changes in, ii. 205 ; 

 series of changes in, leading to 

 evolution of Monads, ii. 215; 

 other changes in, leading to evo- 

 lution of Fungus-germs, ii. 231- 

 235; evolution of Ciliated Infu- 

 soria from, ii. 237-254; changes 

 in, throw light upon mode of ori- 

 gin of living matter, ii. 262 ; con- 

 ditions favourable to production 

 of Ciliated Infusoria, ii. 244, 299. 



Penicillium, evolution of, ii. 195 ; 

 conversion of milk-globules into, 

 ii. 310. ' 



Peranemata, origin of, from Euglen^, 

 ii. 459; from Rotifers, ii. 484; 

 conversion of, into Ciliated Infu- 

 soria, ii. 485. 



Peziza, Corda on formation of spores 

 in, i. 184. 



Philodinice^ mode of origin of, ii. 

 504. 



Phvscia, formation of spore in, i. 

 186. 



Physical Forces, convertibility of, i. 

 13; correlation of vital and, i. 

 i6~49, ^^' action of, upon living 

 tissues, i. 98 ; influence of, on evo- 

 lution of organic compounds, ii. 38. 



Physiological units, ii. 23, 90, 9S, 

 603. 



Phytoids, ii. 542, 553. 



Pineau, M., on formation of spore in 

 Physcia, i. 186; observations of 

 heterog'enetic changes, i. 261 ; on 

 origin of Penicillium, ii. 195 ; of 

 Monads, ii. 196; of Vorticella, 

 ii. 252, 471 ; of Enchelys. ii. 238 ; 

 metamorphoses of Vorticelloe into 

 Oxytrichoe, ii. 493. 



Plaesconia, origin of, from Chloro- 

 coccus vesicles, ii. 467. 



Plague, cxliii. 



Plants, functions of, related to those 

 of Animals, i. 129; M. Brong- 

 niart on development of, in past 



