161 



Organologia 



Bd. 113 p. 1—112, 5 Taf., 6 figg. [Augenähnliehkeit genügt nicht um 

 Funktion zu erklären. Organ innerer Sekretion. Ursprüngliche Paarig- 

 keit unwahrscheinlich.] 

 204972 Baumgartner, E. A. 14.81 : 7.31 Squalus 



1915. Models showing tho development of the hypophysis in Squalus 

 acantharias. (Amer. Ass. Anat.) Anal. Record Yol. 9 p. 141. 



73 Aresu, Mario. 14.81 : 7.38 Chimaera 



1914. L'Ipofisi in Chimaera monstrosa L. Anat. Anz. iid. 47 p. 181 — 

 192, 4 figg. [Sacco appiattito sulla cui parete dorsale si attacca poste- 

 riormente lobo cromofobo e sulla ventrale anteriormente lobo cromo- 

 filo.] 



74 Theunissea, F. 14.81 : 7.4 



1914. Over de rangschikking der motorische cellen in de hersenen van 

 Acipenser ruthenus en Lepidosteus osseus. Versl. wis- nat. Afd. Akad. Wet. 

 Amsterdam 1). 22 p. 963— 971, 2 figg. — The Arrangement of the motor 

 roots and nuclei in the brain of Acipenser ruthenus and Lepidosteus osseus. 

 Pro«. Sect. Sc. Akad. Wet. Amsterdam Toi. 16 p. 1032—1041, 2 figg. 

 [Close resemblance with each other and Amia, contraste d with Selachian 

 and Teleostean conditions ] 7.44,.47 



75 Smith, P. E. 14.81 : 7.41 Amia 



1914. The development of the hypophysis of Amia calva. Anal, Record 

 Voi. 8 p. 499— 506, 10 figg. [Caudal growth of basal layer of ectoderm 

 to form hypophysial rudiment. Contiguity of entoderai.] 



76 Herrick, C. Judson. 14.81 : 7.55 



1915. The central Gustatory Paths in the Brains of Bony-Fishes. Ball, 

 scieut. Lab. Denison Univ. Yol. 13 p. 35— li<i, 40 figg. 



77 Barteimez, George W. 14.81 : 7.55 



1915. Mauthner's Cell and the Nucleus Motorius Tegmenti. Joum. 

 comp. Neurol. Vol. 25 p. 87—128, 13 figg. [Association cell of 3-neurono 

 refiexes with short latent period. Gigantic Perikaryon and dendrites.] 

 204978 Herrick, C. Judson. 14.81 î 79 Amblystoma 



1914. The medulla oblongata of larval Amblystoma. Journ. comp. Neu- 

 ro!. Vol. 24 p. 343—427, 57 figg. (Sensory roots of cranial nerves and 

 related end-nuclei and tracts (imperfect ségrégation). Motor nuclei and 

 tracts.] 



79 Coghiil, George E. 14.81 : 79 Amblystoma 



1915. Salient features of the medulla oblongata of Amblystoma embryos 

 of definite physio.logical stages in development. (Amer. Ass. Anat.) Anat. 

 Record Vol. 9 p. 68—69. 



80 Smith, P. E. 14.81 : 79 Besmognathus 



1914. Some features in the development of the central nervous system 

 of Desmognathus fusca. Journ. Morphol. Vol. 25 p. 511—557, 8 pis., 14 

 figg. [Olosure of tube. Double nature of epiphysis. Development of 

 hypophysis. Segmentation.] 



81 McKibben, Paul S. 14.81 : 79 Nedurus 



1914. Mast celts in the méninges of Necturus, easily mistaken for nerve 

 cells. Anat. Record YoS. 8 p. 475—478, 2 figg. 



82 Tandler, Jul. 14.81 : 81.1 Gecko 



1907. Modelle der embryonalen Entwicklungsstufen des Geckogehirns 

 (1. Oesterr. Irrenärztetag). Wien. med. Wochenschr. Jahrg. 57 p. 2132. 

 [Corpus striatum ursprünglich unpaarig angelegt.] 



83 Fleischmann, A[lbert]. 14.81 : 88.1 Serinus 



1914. Die Entwicklung des Gehirns beim Kanarienvogel. Sitz.-Ber. 

 physik.-med. Soz. Erlangen Bd. 45 p. 119—136, 16 figg. 

 204984 van Valkenburg, C. T. 14 81 : 9 



1913. Expérimental and Pathologico-Anatomical Researches on the Cor- 

 pus Callosum. Brain Vol. 36 p. 119—165, 2ö figg. [Attempt to trace 

 origin and ending of callosal fibres. Homotopical and heterotopical 

 connexions. Absence of commissural connexions or area striata.] 



9.32,.74,.9 



Bibliogr. Zool, XXIX 



I. 1916 



11 



