SUBJECT INDEX — MORPHOLOGICAL SECTION 



383 



Recording {erroneus) one-eyed and blind 

 fishes in cavern of Gabard in France. 

 Montalembert, R. Pre-Linn. 1748.1. 



Dr. 0. A. Boulenger (Revue Zool. Afri- 

 caine, 1921, vol. 9, pp. 252-253) has re- 

 cently described an eyeless cyprinid {Cceco- 

 barbus geertsii) related to Barbus, from the 

 Grotte de ThysviUe (Bas-Congd). This is 

 the first record of a " blind fish " from other 

 than American caverns. 



BLOOD OF FISHES 



For the circulation of the blood, see Physi- 

 ology under Circulatory system. 



General papers. — Molecular concentra- 

 tion. FrMSricq, L. 1901.1. — Researches 

 oh normal and abnormal blood. Hoffmeyer, 



C. W. 1907.1, Add. 1907.1. —Compara- 

 tive hcematology. Werzberg, H. 1911.1. 



Coagulation of blood in fishes. Bottazzi, 

 F. 1902.1; Delezenne,C. 1897.1; *Nolf, 

 P. 1906.1, 1909.1. — Coagulation in Se- 

 lachii. Rodier, E. 1900.1, .2. — Absence of 

 autoagglutination in eel blood containing 

 trypanosomes. Sabrazfes, J. & Muratet, E. 

 1909.1. 



Origin and development of the blood. 

 Aubert, H. 1S55.1; Brigidi, V. & Tafani, 



A. 1S78.1; Hoffmann, C. K. 1893.1; 

 Mosso, A. 18S8.5; Ziegler, H. E. 1889.1, 

 1892.1. 



For a comprehensive treatise on the de- 

 velopment of the blood, see *Riickert, J. & 

 MoUier, S. Add. 1906.1. 



Chemical composition. Miscellane- 

 ous papers. Funke, O. 1852.1; Jones, J. 

 1856.1; Mitchell, S. W. 1858.1; Morin, 



B. 1829.1. 



Chemical elements or compounds present 

 in the blood of fishes. — Glucose in blood 

 of Selachii. Diamare, V. & Montuori, A. 

 1907.1, .2. — Copper content. Dubois, R. 

 1900.1. — Proleids. Halliburton, W. D. 

 1886.1. — Carbon dioxide content. Nic- 

 loux, M. 1902.1. — Urea in blood. Ra- 

 buteau, A. R. & PapUIon, F. 1873.1. — 

 Enzymes, lipase, and amylase. Sellier, J. 

 1902. 2,.3, 1904.1. — Non-protein nitrogen. 

 Denis, W. Add. 1913.1. 



MOBFHOLOGICAL ELEMENTS 

 of the blood 



Erythrocytes or red corpuscles 



Hemoglobin estimations (hemoglobinome- 

 try) and blood counts (hemocytomelry) or 

 numbers of erythrocytes in fishes. Harris, 



D. F. (Skate) 1903.1; Malassez, L. 1872.1; 

 Marsh, M. C. & Gorham, F. P. 1906.1; 

 Marsh, M. C. Add. 1902.1. 



Development of the erythrocytes. 

 General researches on the origin and forma- 

 tion of erythrocytes in adult fishes, etc. 

 Camerano, L. & Salvadori, T. 1897.1; 

 •Downey, H. 1911.1; •Giglio-Tos, E. 

 1897.2; LerebouUet, D. A. 1863.1, 1864.2. 

 — Role of spleen. Phisalix, C. 1902.1. — 

 Role of thymus. Schaffer, J. 1893.1. 



Formation of red corpuscles in 



"blood islands" in the yolk sac of the 

 embryo fish. 



For extensive studies of the fofmation of 

 red corpuscles, see -A-Stockard, C. R. 

 1915.1, .2. 



Cyclostomatn, Dipnoi, and Ganoidei. 

 MoUier, S. 1906.1, Add. 1906.2. — Petro- 

 myzon. Aseoli, M. 1896.1, 1898.1, 1899.1; 

 Giglio-Tos, E. 1897.1. — Lepidosiren. 

 Brvce, T. H. 1904.1, 1905.1. —Ceratodus. 

 Greil, A. 1908.1, .2, 1913.1. 



Elasmobranchii. — Selachii. Maximow, 

 A. 1910.1; •Riickert, J. 1906.1; Stricht, 

 O. 1896.2. — Scyllium. Mosso, A. 1888.4; 

 Rouvifere, - & Ladreyt, F. 1906.1. — Tor- 

 pedo. Riickert, J. 1887.1; Swaen, A. 

 1885.1; Virchow, H. 1898.1. 



Teleostei. Gensch, H. 1881.1, Add. 

 1882.1; Marcus, H. 1905.1; Mend, E. 

 1910.1; MoUier, S. 1906.2; Wenckebach, 

 K. F. 1885.1; Ziegler, H. E. 1887.1. — 

 Tylosurus. Ryder, J. A. 1882.3. — Sal- 

 monidw. •Sobotta, J. 1894.1, 1902.1. 



Morphology of red corpuscles, in- 

 cluding their form or shape, size, etc. (Bi- 

 concave and circular in Cyclostomata, except 

 Myxine, bi-convex and oval in all other 

 fishes.) 



For extensive papers dealing with the 

 morphology of the red corpuscles, see 

 •Giglio-Tos, E. 1897.2, and •KnoU, P. 

 1896.1. 



Miscellaneous and general. Camerano, 

 L. & Salvadori, T. 1897.1; •Downey, H. 

 1911.1; Hammond, W. H. 1877.1,.2; 

 Jones, T. W. 1846.1; Savory, W. S. 

 1869.1; Leeuwenhoek, A. Pre-Linn. 



1702.2, 1709.1,.2. 



Measurements or sizes of the erythrocytes. 

 Cleland, J. B. & Johnston, T. H. 1912.1; 

 Davy, J. 1846.1; GuUiver, G. 1845.1, 

 1846.1, 1848.1, 1862.1, 1875.1; Jakimov, 

 V. D. & Kohl-Jakimova, N. 1912.1; 

 Milne-Edwards, A., Jr. 1856.1. — Sal- 

 monidce. GuUiver, G. 1872.3, (Lamna) 

 1872.4. 



Structure, size, shape, etc., in Cyclo- 

 stomata (Petromyzon). Camerano, L. 

 1896.1; Dekhuyzen, M. C. 1899.1; 



•Gage, S. H. 1888.1, .2; Giglio-Tos, E. 

 1896.1, .2; Salvadori, T. A. 1896.1; 



Thompson, D. W. 1887.1. 



Structure and form of erythrocytes in — 

 Lepidosiren. Bryce, T. H. 1904.1, 1905.1. 



— Polyodon. Downey, H. 1911.1. — 

 Teleosts and Ganoids. Rawitz, B.. 1899.1, 



1900.1. — Torpedo. Sabrazfes, J. & 

 Muratet, E. 1908.1. — Protopterus. 

 Smith, A. & Gulliver, G. 1848.1. — 

 Amphioxus. Huxley, T. H. Add. 1847.1. 



Mobile granulations in red corpuscles of 

 — ■ Petromyson. Giglioli, E. H. 1896.1. 



— Hippocampus. Sabrazfes, J. & Muratet, 

 E 1900.1, .3. — Anguilla. Sabrazfes, J. 

 &' Muratet, E. 1900.2, 1902.1, 1908.1. 



Nucleus of red cells. Bonsdorff, E. J. 



1855.2. — Zoological import. Gulliver, G. 

 1862.1. 



Reticular structure of red corpuscles. 

 Trinchese, S. 1878.1; Petrone, A. Add. 

 1914.1, .2. 



