A Modeling System to Assess Land Cover Land Use Change Effects on SAV Habitat in the Mobile Bay Estuary |
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Authors: | Maurice G. Estes Jr. Mohammad Z. Al‐Hamdan Jean T. Ellis Chaeli Judd Dana Woodruff Ronald M. Thom Dale Quattrochi Brian Watson Hugo Rodriguez Hoyt Johnson III Tom Herder |
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Affiliation: | 1. Earth System Science Center, University of Alabama in Huntsville, Alabama;2. Earth Science Department, Universities Space Research Association, Huntsville, Alabama;3. Department of Geography and Marine Science Program, University of South Carolina, Columbia, South Carolina;4. Pacific Northwest National Laboratory, Sequim, Washington;5. Earth Science Department, NASA/MSFC, Huntsville, Alabama;6. Tetra Tech, Atlanta, Georgia;7. Terra Systems Southwest, Tucson, Arizona;8. Mobile Bay National Estuary Program, Mobile, Alabama |
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Abstract: | Estuarine ecosystems are largely influenced by watersheds directly connected to them. In the Mobile Bay, Alabama watersheds we examined the effect of land cover and land use (LCLU) changes on discharge rate, water properties, and submerged aquatic vegetation, including freshwater macrophytes and seagrasses, throughout the estuary. LCLU scenarios from 1948, 1992, 2001, and 2030 were used to influence watershed and hydrodynamic models and evaluate the impact of LCLU change on shallow aquatic ecosystems. Overall, our modeling results found that LCLU changes increased freshwater flows into Mobile Bay altering temperature, salinity, and total suspended sediments (TSS). Increased urban land uses coupled with decreased agricultural/pasture lands reduced TSS in the water column. However, increased urbanization or agricultural/pasture land coupled with decreased forest land resulted in higher TSS concentrations. Higher sediment loads were usually strongly correlated with higher TSS levels, except in areas where a large extent of wetlands retained sediment discharged during rainfall events. The modeling results indicated improved water clarity in the shallow aquatic regions of Mississippi Sound and degraded water clarity in the Wolf Bay estuary. This integrated modeling approach will provide new knowledge and tools for coastal resource managers to manage shallow aquatic habitats that provide critical ecosystem services. |
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Keywords: | land use hydrologic aquatic ecosystem modeling Mobile Bay Gulf of Mexico |
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