Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
The Lake Michigan Eutrophication Model, LM3‐Eutro: Model Development and Calibration
A eutrophication model developed to generate primary‐production estimates in Lake Michigan can simulate 17 state variables, including three plankton classes and several nutrients. The model, known as the Lake Michigan Eutrophication model (LM3‐Eutro), has a high‐resolution computational grid that enables good spatial description of spring temperature and phytoplankton concentrations, which have significant gradients in the lakes. The grid also allows the model to predict concentrations in nearshore areas and other regions of interest. The model provided more accurate estimates of algal light limitation based on three‐hour intervals compared to daily averages that are used in most eutrophication models, especially during sunny summer days when algal photo‐inhibition often occurs. Model output was compared to field data using statistical parameters such as squares of the correlation coefficients to determine the best model fit. The calibrated model output fit the field data reasonably well for nutrients and phytoplankton, which provided confidence in the framework, governing equations, and coefficients used.
The Lake Michigan Eutrophication Model, LM3‐Eutro: Model Development and Calibration
A eutrophication model developed to generate primary‐production estimates in Lake Michigan can simulate 17 state variables, including three plankton classes and several nutrients. The model, known as the Lake Michigan Eutrophication model (LM3‐Eutro), has a high‐resolution computational grid that enables good spatial description of spring temperature and phytoplankton concentrations, which have significant gradients in the lakes. The grid also allows the model to predict concentrations in nearshore areas and other regions of interest. The model provided more accurate estimates of algal light limitation based on three‐hour intervals compared to daily averages that are used in most eutrophication models, especially during sunny summer days when algal photo‐inhibition often occurs. Model output was compared to field data using statistical parameters such as squares of the correlation coefficients to determine the best model fit. The calibrated model output fit the field data reasonably well for nutrients and phytoplankton, which provided confidence in the framework, governing equations, and coefficients used.
The Lake Michigan Eutrophication Model, LM3‐Eutro: Model Development and Calibration
Pauer, James J. (Autor:in) / Anstead, Amy M. (Autor:in) / Melendez, Wilson (Autor:in) / Rossmann, Ronald (Autor:in) / Taunt, Katherine W. (Autor:in) / Kreis, Russell G. (Autor:in)
Water Environment Research ; 80 ; 853-861
01.09.2008
9 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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