Density Dependent Grazing In Estuarine Water Quality Models

The objective of this study is to examine the influence different zooplankon grazing rate relationships have on water quality eutrophication model results in a tidal estuary. The water quality model being used includes phytoplankton and both dissolved and particulate constituents as state variables. It includes zooplankton grazing of the phytoplankton, where excretions from the latter increase the particulate constituents. The phytoplankton and particulate constituents also undergo settling. When applied to an existing estuary, the model results are different for a first order zooplankton grazing rate formulation than for a second order zooplankton grazing rate formulation.Constituents enter the estuary as wastewater discharges, freshwater river inflows, exchanges between the sediment and water interface, and exchange across the tidal boundary. The water quality model is coupled with a three-dimensional time varying hydrodynamic and transport model that allows accurate computation of the tidal velocity field transporting the constituents from their sources throughout the estuary. Comparisons of model results between the first order and the second order density dependent zooplankton grazing relationships allow determining which of the two processes best describe water quality behavior for the estuary being examined. The second order density dependent zooplankton grazing relationship performs best in application.