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Field investigation of bedform morphodynamics under combined flow

Field investigation of bedform morphodynamics under combined flow
Field investigation of bedform morphodynamics under combined flow
Fieldwork was conducted at the Red Cliff sandbar located in the upper Humber Estuary in order to investigate bedform dynamics under different hydrodynamic conditions related to combinations in tidal and wave-generated currents. A fixed mooring was deployed to obtain current flow and wave properties across the sand bar site at both spring and neap tidal flows and during conditions of high wind generated waves. A terrestrial laser scanner was used to scan the sandbar during low water across the various forcing conditions, acquiring detailed information of ripple geometries. Under spring tide and calm wave conditions, two-dimensional asymmetrical ripples with straight crest lines were generated on the sandbar. Surveys were also conducted during strong winds. Prior to high-wind-waves, two-dimensional symmetrical and washed-out ripples were observed, during spring and neap tidal conditions respectively. The lengths of these ripples were almost the same as those generated under current only conditions, but their heights were relatively smaller. After the strong wind periods, 2D current-induced ripples were replaced by flatbed conditions and 2D symmetrical wash-out ripples, which indicates wave-induced bed shear stress is enhanced by the presence of a tidal current. Most pertinently our study reveals discrepancies between field observations and existing predictions of bed configurations that are largely based on laboratory investigations. This is likely due to a larger grain size distribution in field conditions and due to turbulence dampening by high concentrations of suspended clay particles. The study thus highlights a need to extend a range of field investigations that explore the current deficiencies in our abilities to predict bedforms and bedform dynamics in estuarine systems.
0169-555X
19-30
Wu, Xuxu
539e8018-671f-4bcd-a199-d600e0f7763e
Parsons, Daniel R.
59f2673a-9c73-437a-8865-52d52830a3aa
Wu, Xuxu
539e8018-671f-4bcd-a199-d600e0f7763e
Parsons, Daniel R.
59f2673a-9c73-437a-8865-52d52830a3aa

Wu, Xuxu and Parsons, Daniel R. (2019) Field investigation of bedform morphodynamics under combined flow. Geomorphology, 339, 19-30. (doi:10.1016/j.geomorph.2019.04.028).

Record type: Article

Abstract

Fieldwork was conducted at the Red Cliff sandbar located in the upper Humber Estuary in order to investigate bedform dynamics under different hydrodynamic conditions related to combinations in tidal and wave-generated currents. A fixed mooring was deployed to obtain current flow and wave properties across the sand bar site at both spring and neap tidal flows and during conditions of high wind generated waves. A terrestrial laser scanner was used to scan the sandbar during low water across the various forcing conditions, acquiring detailed information of ripple geometries. Under spring tide and calm wave conditions, two-dimensional asymmetrical ripples with straight crest lines were generated on the sandbar. Surveys were also conducted during strong winds. Prior to high-wind-waves, two-dimensional symmetrical and washed-out ripples were observed, during spring and neap tidal conditions respectively. The lengths of these ripples were almost the same as those generated under current only conditions, but their heights were relatively smaller. After the strong wind periods, 2D current-induced ripples were replaced by flatbed conditions and 2D symmetrical wash-out ripples, which indicates wave-induced bed shear stress is enhanced by the presence of a tidal current. Most pertinently our study reveals discrepancies between field observations and existing predictions of bed configurations that are largely based on laboratory investigations. This is likely due to a larger grain size distribution in field conditions and due to turbulence dampening by high concentrations of suspended clay particles. The study thus highlights a need to extend a range of field investigations that explore the current deficiencies in our abilities to predict bedforms and bedform dynamics in estuarine systems.

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More information

Accepted/In Press date: 26 April 2019
e-pub ahead of print date: 30 April 2019
Published date: 4 May 2019

Identifiers

Local EPrints ID: 491766
URI: http://eprints.soton.ac.uk/id/eprint/491766
DOI: doi:10.1016/j.geomorph.2019.04.028
ISSN: 0169-555X
PURE UUID: 30c94569-c169-454e-b34f-e045d50ed81e
ORCID for Xuxu Wu: ORCID iD orcid.org/0000-0002-2397-0144

Catalogue record

Date deposited: 03 Jul 2024 17:21
Last modified: 11 Jul 2024 02:18

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Contributors

Author: Xuxu Wu ORCID iD
Author: Daniel R. Parsons

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