Tidally-induced shear stress variability above intertidal mudflats in the macrotidal seine estuary |
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Authors: | R Verney J-C Brun-Cottan R Lafite J Deloffre J A Taylor |
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Institution: | 1. UMR CNRS 6143 Morphodynamique Continentale et C?tiére, University of Rouen, M2C, 76821, Mont Saint Aignan Cedex, France 2. Institut Fran?ais de Recherche pour l'Exploitation de la Mer (IFREMER) DYNECO-PHYSED, BP70, 29280, Plouzane, France 3. UMR CNRS 6143 Morphodynamique Continentale et C?tiére, University of Caen, 24 Allée des Tilleuls, M2C, 14000, Caen, France 4. Coastal and Estuarine Research Group, School of Life Sciences, University of Sussex, Falmer, BN1 9QJ, Brighton, U.K.
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Abstract: | Tidal currents and the spatial variability of tidally-induced shear stress were studied during a tidal cycle on four intertidal
mudflats from the fluvial to the marine part of the Seine estuary. Measurements were carried out during low water discharge
(<400 m3 s−1) in neap and spring tide conditions. Turbulent kinetic energy, covariance, and logarithmic profile methods were used and
compared for the determination of shear stress. The cTKE coefficient value of 0.19 cited in the literature was confirmed. Shear stress values were shown to decrease above mudflats
from the mouth to the fluvial part of the estuary due to dissipation of the tidal energy, from 1 to 0.2 N m−2 for spring tides and 0.8 to 0.05 N m−2 for neap tides. Flood currents dominate tidally-induced shear stress in the marine and lower fluvial estuary during neap
and spring tides and in the upper fluvial part during spring tides. Ebb currents control tidally-induced shear stress in the
upper fluvial part of the estuary during neap tides. These results revealed a linear relationship between friction velocities
and current velocities. Bed roughness length values were calculated from the empirical relationship given by Mitchener and
Torfs (1996) for each site; these values are in agreement with the modes of the sediment particle-size distribution. The influence
of tidal currents on the mudflat dynamics of the Seine estuary was examined by comparing the tidally-induced bed shear stress
and the critical erosion shear stress estimated from bed sediment properties. Bed sediment resuspension induced by tidal currents
was shown to occur only in the lower part of the estuary. |
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