Numerical modeling of the Amazon River plume |
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| Authors: | Oumarou Nikiema Jean-Luc Devenon Malika Baklouti |
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| Institution: | 1. Laboratoire d’Océanographie et de Biogéochimie, UMR 6535 CNRS/Université de la méditerranée, OSU/ Centre d’Océanologie de Marseille, Campus de Luminy-case 901, 13288 Marseille cedex 09, France;2. IRD-UR CYROCO, Campus de Luminy-case 901, 13288 Marseille cedex 09, France |
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| Abstract: | Marine circulation above the northern Brazilian continental shelf is subject to energetic forcing factors of various origins: high water buoyancy fluxes induced by the Amazon River freshwater discharge, a strong coastal current associated with a mesoscale current (North Brazil Current (NBC)), a forcing by semidiurnal tide and by Northeast or Southeast trade winds according to the season. Using a three-dimensional (3-D) hydrodynamic numerical model (MOBEEHDYCS), and realistic bathymetry and coastline of the northern Brazilian shelf, this paper aims at studying the influence of some specific physical processes on the morphology of the Amazon plume. The very large volume discharge (180 000 m3/s on average) and the weak effect of Coriolis force are additional characteristics of the studied system, which induce a particular dynamics. The various forcing factors are successively introduced into the model in order to simulate and to determine their respective influences upon the plume extent and the hydrodynamics at the shelf scale. Simulation reveal that the coastal current is at the origin of the permanent northwestward Amazon plume extension while wind effect can either reinforce or moderate this situation. The tide intervenes also to modify the position of the salinity front: a horizontal migration of salinity front is observed under its action. |
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| Keywords: | Amazon River plume Numerical modeling Hydrodynamics Amazon continental shelf |
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