SST observations of upwelling induced by tidal straining in the Rhine ROFI |
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Authors: | Gerben J. de Boer Julie D. Pietrzak Johan C. Winterwerp |
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Affiliation: | Section of Environmental Fluid Mechanics, Delft University of Technology, P.O. Box, 5048, NL-2600 GA, Delft, The Netherlands |
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Abstract: | In this paper SST imagery and a three-dimensional numerical model of a river plume were employed to detect upwelling induced by tidal straining in the Rhine ROFI (region of fresh water influence). Previous studies have shown that the Rhine ROFI in the North Sea exhibits strong cross-shore density gradients that compete with tidal and wind mixing to establish stratification. During neap periods with low mixing energy an area measuring 30 km offshore by 100 km alongshore becomes stratified. When the ROFI is stratified strong cross-shore currents are observed, with surface currents rotating anti-cyclonically and bottom currents rotating cyclonically. The cross-shore currents interact with the cross-shore density gradients to produce a semi-diurnal cycle of stratification. Due to continuity requirements imposed by the proximity of the coast, the offshore-directed surface currents and onshore-directed bottom currents should lead to coastal upwelling. |
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Keywords: | Rhine river plume Tidal currents Coastal upwelling SST remote sensing imagery Tidal straining Numerical model |
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