Author_Institution :
Nat. Center for Comput. Hydroscience & Eng., Univ. of Mississippi, Oxford, MS, USA
Abstract :
An aquatic ecology/ecotoxicology model has been incorporated into a one-dimensional modeling package for simulating hydrodynamic, sediment transport, contaminant transport, water quality, aquatic ecosystem, and ecotoxicology in channel networks. The model calculates water temperature, dissolved oxygen, biological oxygen demand, nitrogen, and phosphorus, and considers a basic food web structure consisting of four trophic levels: phytoplankton, zooplankton, forage fish, and predatory fish. It simulates the bioaccumulation of toxic chemicals in organisms and takes into account the effects of toxicity on the growth, grazing, and gamete mortality of the organisms. The model has been tested by simulating the water quality, aquatic ecosystem, PCB transport and bioaccumulation in the Upper Hudson River, New York, showing promising results.
Keywords :
channel flow; contamination; ecology; hydrodynamics; sediments; toxicology; water pollution; water quality; 1D aquatic ecosystem/ecotoxicology model; New York; PCB transport; Upper Hudson River; bioaccumulation; channel networks; contaminant transport; forage fish; hydrodynamic simulation; open channels; phytoplankton; predatory fish; sediment transport; toxic chemicals; toxicity; water quality; zooplankton; Biological system modeling; Ecosystems; Marine animals; Rivers; Sediments; Water; Numerical model; aquatic ecosystems; ecotoxicology; fish dynamics; one-dimensional; open channels;
