Schindler DW. Evolution of phosphorus limitation in lakes(Natural mechnisms compensate for deficiencies of nitrogen and carbon in eutrophied lakes). Science,1977,195:260-262.
[6]
Smith VH. Low nitrogen to phosphorus ratios favor dominance by blue-green algae in lake phytoplankton. Science,1983, 221(4611):669-671.
[7]
Reynolds CS,Jaworski GHM,Cmiech HA et al. On the annual cycle of the blue-green algae Microcystis aeruginosa Kutz, emend Elenkin. Philosophical transactions of planktonic algae. J Phycol,1981,16:486-489.
[8]
Robarts RD,Zohary T. Temperature effects on photosynthetic capacity,respiration,and growth rates of bloom-forming cyanobacteria. New Zealand Journal of Marine and Freshwater Research,1987,21:391-399.
Claude DB,Candield DE,Bachmann RW. Seasonal patterns of chlorophyll,nutrient concentrations and secchi disk transparency in Florida Lakes. Lake and Reserv Mannag,1998,14:60-76.
[16]
Shapiro J. Current beliefs regarding dominance by blue-greens:The case for the importance of CO2 and pH. International Vereinigung fuer Theoretische und Angewandte Limnologie,1990,24(1):38-54.
Shannon CE,Wiener W. The mathematical theory of communication. Illinois:University of Illinois Press,1963.
[29]
Carlson RE. A trophic state index for lakes. Limnology and Oceanography,1977,22(2):361-369.
[30]
Aizaki M. Application of modified Carlson\'s trophic state index to Japanese lakes and its relationships to other parameters related to trophic state. Research Report of National Institute of Environmental Study,1981,(23):13-31.
[31]
Cai QH,Liu JK,King L. A comprehensive model for assessing lake eutrophication. Chinese Journal of Applied Ecology, 2002,13(12):1674-1678.
