3. Phytoplankton . 



Anonymous 



1953. Factors in "red tide" outbreak of 1952. Prog. Fish. 



Cult. 15(3) :128. 

 1961. The Florida red tide. U. S. Fish Wildlife Serv., Fish. 



Leafl. 506. 8 p. 



Arnold, E. L. 



1958. Gulf of Mexico plankton investigations 1951-53. U. S. 

 Fish Wildlife Serv., Spec. Sci. Rep. Fish. 269. $3 p. • 



Bainbridge, R. 



1953. Studies on the inter-relationships of zooplankton and 



phytoplankton. J. Mar. Biol. Ass. United Kingdom 32:385-^5- 

 1957. The size, shape, and density of marine phytoplankton 

 concentrations. Biol. Rev. 32:9-115- 



Balech, E. 



1967. Microplankton of the Gulf of Mexico and Caribbean Sea. 

 Texas A & M Research Foundation 67-lO-T. ihk p. 



Bein, S. J. 



1955. Red tide bacterial studies. Univ. Miami Mar. Lab., Spec. 

 Serv. Bull. 10:1-2. 



1957. The relationship of total phosphorus concentration in 

 seawater to red tide blooms. Bull. Mar. Sci. 7 (h) : 316-329. 



Bogdanov, D. V., V. A. Sokolov, and N. S. Khromov 



1968. Regions of high biological productivity in the Gulf of 

 Mexico and the Caribbean Sea (in Russian). Okeanologiia 

 8:^66-ii78. 



Chew, F. 



1953. Results of hydrographic and chemical investigations in the 

 region of the "red tide" bloom on the west coast of Florida 

 in November 1952. Bull. Mar. Sci. 2(h): 610-625. 



1956. A tentative method for the prediction of the Florida Red 

 Tide outbreaks. Bull. Mar. Sci. 6 (h) :292-30h. 



Collier, A. 



1958. Some biochemical aspects of red tides and related 

 oceanographic problems. Limnol. Oceanogr. 3(l)03-39- 



Conger, P. S. 



195U. Present status of diatom studies in the Gulf of Mexico, 



p. 227-232. In Galtsoff, P., Gulf of Mexico, its origin, waters, 

 and marine life. U. S. Fish Wildlife Serv., Fish. Bull. 89. 



124 



