Izvestiya Tikhookeanskogo Nauchno-Issledovatel'- 

 skogo Instituta Rybnogo Khozyaistva i Okeano- 

 grafi, vol. 41, pp. 3-109. [Fisheries Research 

 Board of Canada, Translation Series No. 288.] 

 Sheridan, William L. 



1961. Temperature relationships in a pink salmon 

 stream in Alaska. Ecology, vol. 42, No. 1, pp. 91- 

 98. 



1962a. Waterflow through a salmon spawning riffle 

 in Southeastern Alaska. U.S. Fish and Wildlife 

 Service, Special Scientific Report — Fisheries No. 

 407, 20 pp. 



1962b. Relation of stream temperatures to timing 

 of pink salmon escapements in Southeast Alaska. 

 In N. J. Wilimovsky (editor), Symposium on pink 

 salmon, pp. 87-102. University of British Colum- 

 bia, H. R. MacMillan Lectures in Fisheries. 

 Shumway, Dean Lee. 



1960. The influence of water velocity on the develop- 

 ment of salmonid embryos at low oxygen levels. 

 M.S. Thesis, Oregon State University, Corvallis, 



49 pp. 



Silver, Stuart Jayson. 



1960. The influence of water velocity and dissolved 

 oxygen on the development of salmonid embryos. 

 M.S. Thesis, Oregon State University, Corvallis, 



50 pp. 



Silver, Stuart J., Charles E. Warren, and Peter 



Duodoroff. 



1963. Dissolved oxygen requirements of developing 

 steelhead trout and chinook salmon embryos at 

 different water velocities. Transactions of the 

 American Fisheries Society, vol. 92, No. 4, pp. 

 327-343. 



Smirnov, A. G. 



1947. Composition of the stocks of Amur salmon and 

 the causes of their fluctuations in abundance. 

 Izvestiya Tikhookeanskogo Nauchno-Issledovatel'- 

 skogo Instituta Rybnogo Khozyaistva i Okeano- 

 grafi, vol. 25, pp. 33-51. [Translation by the Israel 

 Program for Scientific Translations for the National 

 Science Foundation and the Department of the 

 Interior.] 



Snedecor, George Waddel. 



1956. Statistical methods, applied to experiments in 



agriculture and biology. 5th ed. Iowa State Col- 

 lege Press, Ames, 534 pp. 



Surber, Eugene W. 



1935. Effects of carbon dioxide on the development 

 of trout eggs. Transactions of the American Fish- 

 eries Society, vol. 65, pp. 194-203. 



Vaux, Walter G. 



1961. Fluid flow in the open-surfaced porous bed. 

 M.S. Thesis, University of Minnesota, Minneapolis. 

 85 pp. plus appendixes. 



1962. Interchange of stream and intragravel water in 

 a salmon spawning riffle. U.S. Fish and Wildlife 

 Service, Special Scientific Report — Fisheries No. 

 405, 11 pp. 



Wickett, W. Percy. 



1954. The oxygen supply to salmon eggs in spawning 

 beds. Journal of the Fisheries Research Board of 

 Canada, vol. 11, No. 6, pp. 933-953. 



1958. Review of certain environmental factors affect- 

 ing the production of pink and chum salmon. 

 Journal of the Fisheries Research Board of Canada, 

 vol. 15, No. 5, pp. 1103-1126. 



1959. Damage to the Qualicum River stream bed by 

 a flood in January, 1958. Fisheries Research Board 

 of Canada, Progress Reports of the Pacific Coast. 

 Stations, No. 113, pp. 16-17. 



Withler, F. C. 



1952. Sockeye reproduction in a tributary of Babine 

 Lake, 1950-51. Fisheries Research Board of 

 Canada, Progress Reports of the Pacific Coast Sta- 

 tions, No. 91, pp. 13-17. 

 Wolf, Ken. 



1957a. Experimental induction of blue-sac disease. 

 Transactions of the American Fisheries Society, vol. 

 86, for the year 1956, pp. 61-70. 



1957b. Blue-sac disease investigations: microbiology 

 and laboratory induction. U.S. Fish and Wildlife 

 Service, The Progressive Fish-Culturist, vol. 19, 

 No. 1, pp. 14-18. 

 Wuhrmann, K, and H. Woker. 



1948. Beitriige zur Toxikologie der Fische. II. Ex- 

 perimentelle Untersuchungen iiber die Ammoniak- 

 und Blausaurevergiftung. Schweizerische Zeits- 

 schrift fur Hydrologie, Band 11, pp. 210-244. 



SPAWNING BED ENVIRONMENT OF PINK AND CHUM SALMON 



523 



