Using a fisheries ecosystem model with a water quality model to explore trophic and habitat impacts on a fisheries stock: A case study of the blue crab population in the Chesapeake Bay |
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Authors: | Hongguang Ma Howard Townsend Maddy Sigrist Villy Christensen |
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Institution: | a NOAA Chesapeake Bay Office - Cooperative Oxford Laboratory, Oxford, MD, United States b Cooperative Oxford Laboratory, Oxford, MD, United States c Fisheries Centre, University of British Columbia, Vancouver, BC, Canada d Versar, Inc., Columbia, MD, United States e JHT Inc., United States f Chesapeake Research Consortium, Inc., United States |
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Abstract: | Recent calls for the development of ecosystem-based fisheries management compel the development of resource management tools and linkages between existing fisheries management tools and other resource tools to enable assessment and management of multiple impacts on fisheries resources. In this paper, we describe the use of the Chesapeake Bay Fisheries Ecosystem Model (CBFEM), developed using the Ecopath with Ecosim (EwE) software, and the Chesapeake Bay Water Quality Model (WQM) to demonstrate how linkages between available modeling tools can be used to inform ecosystem-based natural resource management. The CBFEM was developed to provide strategic ecosystem information in support of fisheries management. The WQM was developed to assess impacts on water quality. The CBFEM was indirectly coupled with the WQM to assess the effects of water quality and submerged aquatic vegetation (SAV) on blue crabs. The output from two WQM scenarios (1985-1994), a baseline scenario representing actual nutrient inputs and another with reduced inputs based on a tributary management strategy, was incorporated into the CBFEM. The results suggested that blue crab biomass could be enhanced under management strategies (reduced nutrient input) when the effective search rate of blue crab young-of-the-year's (YOY's) predators or the vulnerability of blue crab YOY to its predators was adjusted by SAV. Such model linkages are important for incorporating physical and biological components of ecosystems in order to explore ecosystem-based fisheries management options. |
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Keywords: | Fisheries ecosystem model Ecopath with Ecosim Blue crab Submerged aquatic vegetation (SAV) Habitat Water quality |
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