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IDENTIFICATION OF CRITICAL NUTRIENT LEVELS THROUGH FIELD VERIFICATION OF MODELS FOR PHOSPHORUS AND PHYTOPLANKTON GROWTH
Citation:
Auer, M., M. Kieser, AND R. Canale. IDENTIFICATION OF CRITICAL NUTRIENT LEVELS THROUGH FIELD VERIFICATION OF MODELS FOR PHOSPHORUS AND PHYTOPLANKTON GROWTH. U.S. Environmental Protection Agency, Washington, D.C., EPA/600/J-86/539 (NTIS PB90265075), 1986.
Description:
Two models for phosphorus and phytoplankton growth were field verified along a marked gradient in trophic conditions in Green Bay (Lake Michigan): one, the Monod model, relates growth rate to external (dissolved) phosphorus concentration, and the other, the Droop model, describes growth rate as a function of internal (stored), phosphorus levels. he verification provided through a satisfactory fit of model output to field measurements ot phosphorus and gross photosynthesis established a conceptual foundation for empirical models relating phosphorus and trophic state parameters. Phosphorus concentrations corresponding to boundary conditions for trophic state categories were developed based on the verified models by defining oligotrophy as the region of linear response by growth rate to increases in phosphorus (<1.2 ug soluble reactive phosphorus (SRP.L<-1, < 11.5 ug total phosphorus (TP), L-1, mesotrophy as the transitional state (1.2-8.0 ug SRP.L-1, 11.5-37.5 ug TP.L-1) and eutrophy as the region where growth rate is saturated, i.e. insensitive to changes in phosphorus concentration (>8.0 ug SRP.L-1), >37.5 ug TP.L-1). e applied the trophic state classification scheme to several Great Lakes basins to examine their sensitivity to changes in phosphorus levels. he oligotrophic waters of Lakes Superior, Huron, and Michigan and northern Green Bay and Georgian Bay have the greatest sensitivity to increases in total phosphorus concentration. he eutrophic waters of southern Green Bay, western Lake Erie, and nearshore Lake Ontario are nutrient saturated and relatively insensitive to initial reductions in phosphorus levels. Offshore Lake Ontario, eastern and central Lake Erie, Saginaw Bay, and mid Green Bay lie in the transitional phase for sensitivity to phosphorus management.
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IDENTIFICATION OF CRITICAL NUTRIENT LEVELS THROUGH FIELD VERIFICATION OF MODELS FOR PHOSPHORUS AND PHYTOPLANKTON GROWTH