Wind speed and sediment transport recovery in the lee of a vegetated and denuded nebkha within a nebkha dune field
Wind speed and sediment transport recovery in the lee of a vegetated and denuded nebkha within a nebkha dune field
Field observations of scaled wind speed and sand transport recovery in the lee of a nebka within a field of nebkhas and then subsequently for the nebkha denuded of its vegetation cover were collected. The measurements of wind speed at 0.4 times the element height indicate that for both conditions wind speed recovery in the lee is exponential. The porous vegetation cover influences the rate of this recovery being more gradual for the vegetated form. The return to equilibrium wind speed occurs in both cases at approximately eight element heights. For either case the recovery of shear stress and the return to a constant value occurs much closer to the bluff body form than has been described for porous fences. The recovery of sand transport in the lee appears to be more rapid for the un-vegetated condition, which corresponds to the observed faster rate of wind speed increase. The observations did not show a continual increase in saltation flux with increasing downwind distance due to the increasing shear stress downwind and the increase that may be expected due to the fetch effect. The change in saltation flux with downwind distance was controlled by the sediment supply, which diminished with downwind distance. The interaction of a changing shear stress and the zone of influence created by the wind as it interacts with the roughness dimensions, along with the distribution of sediment available for transport bring increased complexity to modeling sand flux for this type of environment over different temporal scales.
Nebkha, Aeolian, Sediment transport, Recovery of wind, Transport in obstacle lee
135-141
Gillies, John A.
59ce9759-fd99-4152-98f0-8ab88315b38c
Nield, Joanna M.
173be2c5-b953-481a-abc4-c095e5e4b790
Nickling, William G.
009b44ea-3c81-420c-93fa-939cf2d0e508
March 2014
Gillies, John A.
59ce9759-fd99-4152-98f0-8ab88315b38c
Nield, Joanna M.
173be2c5-b953-481a-abc4-c095e5e4b790
Nickling, William G.
009b44ea-3c81-420c-93fa-939cf2d0e508
Gillies, John A., Nield, Joanna M. and Nickling, William G.
(2014)
Wind speed and sediment transport recovery in the lee of a vegetated and denuded nebkha within a nebkha dune field.
Aeolian Research, 12, .
(doi:10.1016/j.aeolia.2013.12.005).
Abstract
Field observations of scaled wind speed and sand transport recovery in the lee of a nebka within a field of nebkhas and then subsequently for the nebkha denuded of its vegetation cover were collected. The measurements of wind speed at 0.4 times the element height indicate that for both conditions wind speed recovery in the lee is exponential. The porous vegetation cover influences the rate of this recovery being more gradual for the vegetated form. The return to equilibrium wind speed occurs in both cases at approximately eight element heights. For either case the recovery of shear stress and the return to a constant value occurs much closer to the bluff body form than has been described for porous fences. The recovery of sand transport in the lee appears to be more rapid for the un-vegetated condition, which corresponds to the observed faster rate of wind speed increase. The observations did not show a continual increase in saltation flux with increasing downwind distance due to the increasing shear stress downwind and the increase that may be expected due to the fetch effect. The change in saltation flux with downwind distance was controlled by the sediment supply, which diminished with downwind distance. The interaction of a changing shear stress and the zone of influence created by the wind as it interacts with the roughness dimensions, along with the distribution of sediment available for transport bring increased complexity to modeling sand flux for this type of environment over different temporal scales.
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Published date: March 2014
Keywords:
Nebkha, Aeolian, Sediment transport, Recovery of wind, Transport in obstacle lee
Organisations:
Earth Surface Dynamics
Identifiers
Local EPrints ID: 361304
URI: http://eprints.soton.ac.uk/id/eprint/361304
ISSN: 1875-9637
PURE UUID: 85ab032c-29de-4de0-87de-d5c09d5f1b39
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Date deposited: 22 Jan 2014 10:35
Last modified: 15 Mar 2024 03:29
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Author:
John A. Gillies
Author:
William G. Nickling
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