Wave- and current-induced bottom shear stress distribution in the Gulf of Lions |
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Authors: | François Dufois Pierre Garreau Pierre Le Hir Philippe Forget |
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Institution: | 1. IFREMER, DYNECO/PHYSED, Centre de Brest, BP 70, 29280 Plouzané, France;2. IRSN, DEI/SESURE, LERCM, Centre Ifremer, BP 330, 83507 La Seyne sur Mer, France;3. LSEET-LEPI, UMR 6017, CNRS-USTV, BP132, 83957 La Garde, France |
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Abstract: | Simulations of both currents and waves were performed throughout the year 2001 to assess the relative contribution of each to their overall erosive potential on the Gulf of Lions shelf. Statistical analysis of bottom shear stress (BSS) was compared to sediment grain-size distribution on the bottom. The hydrodynamic features of the bottom layer coincide with the distribution of surficial sediments, and three areas with different hydro-sedimentary characteristics were revealed. (i) The sandy inner shelf (<30 m) area is a high-energy-wave dominated area but may be subjected to intense current-induced BSS during on-shore winds along the coast and during continental winds mainly in the up-welling cells. (ii) The middle shelf (30–100 m) is a low-energy environment characterised by deposition of cohesive sediments, where the wave effect decreases with depth and current-induced BSS cannot reach the critical value for erosion of fine-grained sediments. (iii) The outer shelf, which has a higher bottom sand fraction than the middle shelf, may be affected by strong south-westward currents generated by on-shore winds, which can have an erosive effect on the fine-grained sediments. |
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Keywords: | Sediment transport Bottom shear stress 3D modelling Gulf of Lions |
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