A numerical study of tidal asymmetry in Okatee Creek,South Carolina |
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| Authors: | Haosheng Huang Changsheng Chen Jackson O Blanton Francisco A Andrade |
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| Institution: | 1. School for Marine Science and Technology, University of Massachusetts Dartmouth, New Bedford, MA 02744, USA;2. Skidaway Institute of Oceanography, Savannah, GA 31411, USA;3. Guia Marine Laboratory, Faculty of Sciences of Lisbon University, Lisbon, Portugal |
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| Abstract: | The Okatee River, South Carolina is characterized by a narrow tidal channel and an extensive area of intertidal salt marshes. Current measurements in the upstream portion Okatee Creek show that tidal flow features an asymmetric pattern: ebb current is stronger than flood current. The ebb dominance is mainly caused by deformation of the dominant astronomical tidal constituent M2. An unstructured grid, finite volume coastal ocean model (FVCOM) with wet-dry point treatment method is applied to examine physical mechanisms of M4 overtide generation. Model experiments show that mean absolute amplitude and phase errors are 3.1 cm and 1.7° for M2 elevation, 2.4 cm s−1 and 0.8° for M2 current major axis, 2.1 cm and 1.8° for M4 elevation, and 2.1 cm s−1 and 24.6° for M4 current major axis. The overall pattern of tidal asymmetry is qualitatively reproduced. Various sensitivity experiments suggest that the generation of M4 overtide is a result of nonlinear interaction of tidal currents with irregular creek geometry and bottom topography. Consistent with the classical view, the large volume of intertidal water storage is the major reason for ebb dominance in the creek. However, the zero-inertia assumption (i.e., negligible advective terms) is probably not valid for the entire tidal cycle. Besides the pressure gradient force and the bottom friction force, terms related to lateral shear of the along-estuary velocity (i.e., advective inertia and horizontal eddy viscosity) may also contribute in horizontal momentum balance. Exclusion of the flooding-draining processes over the intertidal zone will severely underestimate tidal currents in the river channel and make the tidal asymmetry less prominent. |
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| Keywords: | tidal asymmetry ebb dominance intertidal salt marsh FVCOM numerical simulation Okatee Creek |
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