Bedload transport in an inlet channel during a tidal cycle
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Bedload transport in an inlet channel during a tidal cycle. / Ernstsen, V. B.; Becker, M.; Winter, C.; Bartholomä, A.; Flemming, B. W.; Bartholdy, Jesper.
River, Coastal and Estuarine Morphodynamics: RCEM 2007. ed. / C.M. Dohmen-Janssen; S. Hulscher. Taylor & Francis, 2007. p. 351-358.Research output: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research › peer-review
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T1 - Bedload transport in an inlet channel during a tidal cycle
AU - Ernstsen, V. B.
AU - Becker, M.
AU - Winter, C.
AU - Bartholomä, A.
AU - Flemming, B. W.
AU - Bartholdy, Jesper
PY - 2007
Y1 - 2007
N2 - Based on high-resolution swath bathymetry measurements at centimetre-scale precision conducted during a tidal cycle in a dune field in the Grådyb tidal inlet channel in the DanishWadden Sea, a simple tool to calculate bedload transport is presented. Bedload transport was related to simultaneous flow measurements using an acoustic Doppler current profiler. Spatially, bedload transport was higher on the dune crests than in the dune troughs of the large ebb-directed compound dunes, due to higher flow velocities at the crests than in the troughs. Temporally, bedload transport was higher in the troughs of the large ebb-directed compound dunes during the flood tide than during the ebb tide, due to higher near-bed flow velocities in the troughs of the compound dunes during the flood tide as compared to the ebb tide, resulting from flow exposure, i.e. the trough-sheltering effect of the compound dunes being active during the ebb tide, but negligible during the flood tide. Bedload transport was also predicted using five classical and widely used formulae. These predictors were all unable to depict the temporal variation in bedload transport during the tidal cycle. It is suggested that temporal variations in grain-size composition of the mobilised sediment should be taken into account by sediment transport formulae.
AB - Based on high-resolution swath bathymetry measurements at centimetre-scale precision conducted during a tidal cycle in a dune field in the Grådyb tidal inlet channel in the DanishWadden Sea, a simple tool to calculate bedload transport is presented. Bedload transport was related to simultaneous flow measurements using an acoustic Doppler current profiler. Spatially, bedload transport was higher on the dune crests than in the dune troughs of the large ebb-directed compound dunes, due to higher flow velocities at the crests than in the troughs. Temporally, bedload transport was higher in the troughs of the large ebb-directed compound dunes during the flood tide than during the ebb tide, due to higher near-bed flow velocities in the troughs of the compound dunes during the flood tide as compared to the ebb tide, resulting from flow exposure, i.e. the trough-sheltering effect of the compound dunes being active during the ebb tide, but negligible during the flood tide. Bedload transport was also predicted using five classical and widely used formulae. These predictors were all unable to depict the temporal variation in bedload transport during the tidal cycle. It is suggested that temporal variations in grain-size composition of the mobilised sediment should be taken into account by sediment transport formulae.
M3 - Article in proceedings
SN - 978-0-415-45363-9
SP - 351
EP - 358
BT - River, Coastal and Estuarine Morphodynamics
A2 - Dohmen-Janssen, C.M.
A2 - Hulscher, S.
PB - Taylor & Francis
T2 - Bedload transport in an inlet channel during a tidal cycle
Y2 - 29 November 2010
ER -
ID: 2121999