Predicting cyanobacteria dominance in lakes. Can. J. Fish. Aquat. Sci. 58, 1905-1908.Downing J.A., Watson S.B. & McCauley E. (2001) Predicting cyanobacteria dominance in lakes. Canadian Journal of Fisheries and Aquatic Sciences, 58, 1905-1908....
Predicting cyanobacteria dominance in lakes. Can. J. Fish. Aquat. Sci. 58, 1905-1908.Downing JA, Watson SB, McCauley E. 2001. Predicting Cyanobacteria dominance in lakes. Can J Fish Aquat Sci. 58:1905-1908.Downing, J.A., Watson, S.B., and McCauley, E. (2001). Predicting ...
Cyanobacteria dominance is a major risk to human and ecosystem health. The stoichiometric control of Cyanobacteria therefore has become central to freshwater resource management. This controversial concept is based on observed Cyanobacteria dominance in lakes with low N:P and the results of lab and ...
(1974). The phosphorus-chlorophyll relationship in lakes1,2. Limnol Oceanogr 19: 767–773. Article CAS Google Scholar Downing JA, Watson SB, McCauley E . (2001). Predicting Cyanobacteria dominance in lakes. Can J Fish Aquat Sci 58: 1905–1908. Article Google Scholar Edgar RC . (2010)...
Combined with an expected increase in the external nutrient loading, this will increase the probability of a shift from a clear to a turbid state. As the model predicts a higher summer chlorophyll-a concentration, a stronger dominance of cyanobacteria during summer and a reduced Zooplankton ...
To test this hypothesis, as well as quantify the drivers of cyanobacteria over different scales and identify interactions between nutrients and climate-related variables, we applied linear and nonlinear mixed-effect modeling techniques to seasonal time-series data from multiple lakes. We first compared ...
In general, in natural lake water for managing recreational waters, chlorophyll-a < 10 ug L−1 is regarded safe, chlorophyll-a >10 ug L−1 with a dominance of cyanobacteria would pose a relatively low probability of adverse health effects, chlorophyll-a >10 ug L−1...