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The application of terrestrial laser scanning to aeolian saltation cloud measurement and its response to changing surface moisture

The application of terrestrial laser scanning to aeolian saltation cloud measurement and its response to changing surface moisture
The application of terrestrial laser scanning to aeolian saltation cloud measurement and its response to changing surface moisture
Saltation is the dominant form of aeolian transport of sand sized grains, yet its heterogeneous spatial and temporal distribution, and inherent feedback and interaction with the surface over which sand is transported, hinders large scale quantification. In this letter we present preliminary data on saltation cloud characteristics quantified using terrestrial laser scanning (TLS). These data, together with surface moisture and surface roughness patterns, elucidate the importance of saltation in the development of protodunes on a drying beach, and indicate the potential usefulness of TLS in examining aeolian processes in both beach and desert environments.
0197-9337
273-278
Nield, J.M.
173be2c5-b953-481a-abc4-c095e5e4b790
Wiggs, G.F.S.
a8348f6c-f651-4a93-9215-ee4becdf2318
Nield, J.M.
173be2c5-b953-481a-abc4-c095e5e4b790
Wiggs, G.F.S.
a8348f6c-f651-4a93-9215-ee4becdf2318

Nield, J.M. and Wiggs, G.F.S. (2011) The application of terrestrial laser scanning to aeolian saltation cloud measurement and its response to changing surface moisture. Earth Surface Processes and Landforms, 36 (2), 273-278. (doi:10.1002/esp.2102).

Record type: Article

Abstract

Saltation is the dominant form of aeolian transport of sand sized grains, yet its heterogeneous spatial and temporal distribution, and inherent feedback and interaction with the surface over which sand is transported, hinders large scale quantification. In this letter we present preliminary data on saltation cloud characteristics quantified using terrestrial laser scanning (TLS). These data, together with surface moisture and surface roughness patterns, elucidate the importance of saltation in the development of protodunes on a drying beach, and indicate the potential usefulness of TLS in examining aeolian processes in both beach and desert environments.

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Published date: 2011
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Identifiers

Local EPrints ID: 167453
URI: http://eprints.soton.ac.uk/id/eprint/167453
DOI: doi:10.1002/esp.2102
ISSN: 0197-9337
PURE UUID: 3ea7369a-4983-4a04-ad7e-cb904af85e40
ORCID for J.M. Nield: ORCID iD orcid.org/0000-0002-2657-0525

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Date deposited: 12 Nov 2010 14:36
Last modified: 14 Mar 2024 02:53

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Author: J.M. Nield ORCID iD
Author: G.F.S. Wiggs

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