SCHOTTE, O. 1923. R^g^n^ration et sysfeme nerv- 

 eux chez les larves de Batraciens urocfeles. C. R. 

 Soc. Phys. et Hist, natur. Geneve, 40: 100. (Sala- 

 mander and Triton larvae; section of limb nerves at 

 various times preceding limb amputation. Depend- 

 ence of regeneration on (probably sympathetic) 

 components of nerve. ) 



1923. La suppression partielle de I'innerva- 



tion et la regeneration des pattes chez les Tritons. 

 C. R. Soc. Phys. et Hist, natur. Geneve 40: 160. 

 (Triton cristatus, T. Alpestris, T. Palmatus; re- 

 section of one or more branches brachial plexus. 

 Species differences in regeneration. Relation of 

 volume of regenerating nerves to rate of regeneration 

 of annputated limb. ) 



1924. Le grand sympathique est le seul 



facteur nerveux de la regeneration des membres de 

 Tritons. C. R. Soc. Phys. et Hist, natur. Geneve 

 4 1: 45. (Extirpation of crural spinal ganglia leaving 

 rami communicantes intact; regeneration of amputat- 

 ed linnb in complete absence of sensory and motor 

 innervation, presence of sympathetic supply.) 



1926. La regeneration de la queue d'Urodeles 



est liee a I'integrite du territoire caudal. C. R. Soc. 

 Phys. et Hist, natur. Geneve. 43: 126. (Relation of 

 level of tail annputation to possibility of regeneration.) 



1926. Hypophysectonnie et regeneration chez 



les Batraciens Urodeles. C. R. Soc. Phys. et Hist, 

 natur. Geneve 43: 67. (Adult and larval Triton, larv- 

 al Salamanders. No effect of hypophysectomy on 

 regeneration in larval Triton; suppression in adult 

 Triton and larval Salamanders. ) 



1926. L'importance du systeme nerveux sym- 

 pathique dans la regeneration des pattes chez le Triton. 

 (The sympathetic nervous system in regeneration of 

 extremities in Triton. ) C. R. Soc. Biol. 94: 1128- 

 1129. (Triton; regeneration of limbs following resec- 

 tion of dorsal and ventral spinal roots but with intact 

 rami communicantes; failure of regeneration follow- 

 ing section of sympathetic supply with intact spinal 

 nerves. Dependence of regeneration on sympathetic 

 innervation. ) 



1926. Le role du milieu interieur dans la 



regeneration des Batraciens Urodeles. (Role of in- 

 ternal environment in regeneration of urodeles.) C. 

 R. Soc. Biol. 94: 1177-1179. (Triton, salamanders; 

 regeneration of limbs in hypophysectomized animals; 

 verification of Walter's results (???); effects of thy- 

 roid and hypophysis on sympathetic nervous system. ) 



1926. Nouvelles preuves physiologiques de 



1 'action du sysfeme nerveux synnpathique dans la 

 regeneration. (Influence of the sympathetic nervous 

 system on regeneration.) C. R. Soc. Phys. et Hist, 

 natur. Geneve 43: 140-143. (Triton; annputation legs; 

 effect of ergotamine tartrate and belladonna alkaloids 

 (which paralyze the sympathetic nervous systenn) on 

 inhibiting blastema regeneration. ) 



and E. G. BUTLER. 1941. Morphological 



effects of denervation and amputation of limbs in uro- 

 dele larvae. Jour. Exp. Zool. 87: 279-322. (Larvae, 

 Amblystoma punctatum, A. opacum, Triturus virid- 

 escens; repeated resection brachial plexus; effect of 

 innervation on morphology of limb, regression and 

 regeneration after amputation. ) 



1944. Phases in regeneration of the 



urodele limb and their dependence upon the nervous 

 system. Jour. Exp. Zool. 97: 95-121. (Larval 

 Amblystoma; nerve resection and limb amputation; 

 dependence of specific regenerative processes, but 

 not morphogenetic processes, on innervation.) 



SCHOTTE, O. , E. G. BUTLER and R. T. HOOD. 



1941. Effects of transplanted blastennas on amputated 

 nerveless limbs of urodele larvae. Proc. Soc. Exp. 

 Biol. Med. 48: 500-503. (Amblystoma; effect of 

 blastema on dedifferentiation of denervated amputated 

 limbs . ) 



- and M. HARLAND . 1943. Effects of denerv- 

 ation and amputation of hind limbs in Anuran tadpoles. 

 Jour. Exp. Zool. 93: 453-490. (Rana pipiens, R. 

 clamitans, R. catesbiana; resection sciatic, simultan- 

 eous amputation limb; relation of innervation to de- 

 differentiation, blastenna formation, regeneration. ) 



and A. G. KARCZMAR. 1944. Limb para- 

 meters and regression rates in denervated amputated 

 limbs of urodele larvae. Jour. Exp. Zool. 97: 43- 

 70. (Amputation and observation of dedifferentiation; 

 correlation of regression rate with tissue mass. 

 Quantitative. ) 



. 1945. Temperature and regression 



rates in denervated amputated limbs of urodele larvae. 

 Jour. Exp. Zool. 99: 235-261. (Amblystonna puncta- 

 tum, Triturus viridescens; denervation, amputation, 

 temperature effects; calculation of Qjo ^°'' regression. 

 Quantitative. ) 



SCHRADER, K. 1938. Untersuchungen iiber die 

 Normalentwicklung des Gehirns und Gehirntransplanta- 

 tionen bei der Mehlmotte Ephestia ktlhniella Zeller 

 nebst einigen Bemerkungen uber das Corpus allatum. 

 Biol. Zentrabl. 58: 52-90. (Development of brain 

 from egg to full grown larva; prepupa, pupa, imago. 

 Lack of apparently secretory cells; relative growth 

 of brain; degeneration and regeneration at metamorph- 

 osis; autonomous development demonstrated by trans- 

 plants; effect of peripheral field on development of 

 brain centers. Sex dimorphism in corpora allata. ) 



SCHREIBER, G. 1930. Studi sul pigmento cromolip- 

 oide, I'apparato fenestrato e la respirazione di supple- 

 mento del sistema nervoso. (Studies on chromolipid 

 pigments, the fenestrated apparatus and the supple- 

 mentary respiration of the nervous system.) Pubb. 

 Staz. Zool. Napoli 10: 151-195. (Cephalopods and 

 gastropods; histogenesis of pigment, effect of asphyx- 

 iation on connective tissue and pigment. formation; 

 observations on canaliculi of Cephalopod ganglion 

 cells, relations to white blood cells. ) 



and C. KOCH. 1941. Growth of the retina 



in amphibians during spontaneous and experimentally 

 induced metamorphosis. I. Biometrical studies. Ann. 

 Acad. Brasil. Sci. 13: 1-14. (Bufo vulgaris; tadpoles; 

 ganglion cells and pars iridica retinae; relation of 

 growth to total retinal volume, thyroxin and develop- 

 mental disharmonies. Quantitative.) 



SCHUCH, K. 1934. Das Gerucksorgan von Triton 

 alpestris. Eine morphologische, histologische , und 

 entwicklungsgeschichtliche Untersuchung. Zool. Jahrb. 

 Abt. Anat. u. Ont. 59: 69-134. (Histological study of 

 olfactory epithelium during formation, larval growth, 

 metamorphosis, adult life. Relation of slime cells 

 to medium in which animal lives. ) 



SCHULLER, H. 1939. Die Entwicklung des Geruch- 

 sorgans bei der Sturmmbve unt" der Seeschwalbe. 

 Zeitschr. Anat. u. Entwicklungsgesch. 109: 75-98. 

 (Sterna hirundo, Larus canus; development of olfactory 

 organ, Jacobson's organ; embryos. ) 



SCHULTZ, E. W. 1941. Regeneration of olfactory 

 cells. Proc. Soc. Exp. Biol. Med. 46: 41-43. (Man; 

 report of regeneration after destruction of olfactory 

 epithelium by therapeutic zinc sulfate. ) 



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