Quantifying the form-flow-saltation dynamics of aeolian sand ripples
Quantifying the form-flow-saltation dynamics of aeolian sand ripples
Ripples are the most fundamental and ubiquitous aeolian bedforms formed on sandy surfaces, but their small size and fast response times make them inherently difficult to measure. However, these attributes also make ripples excellent flow indicators, and they have been used extensively in planetary locations for this purpose. Here, we use terrestrial laser scanning to measure ripple morphometry and celerity coincidently, as well as saltation height above rippled surfaces. We find that although ripple height and wavelength respond linearly to increased shear velocity, under strong winds ripple celerity exhibits a non-linear increase. This relationship at high wind speeds is also reflected in the response of aerodynamic roughness and saltation dynamics, with a greater maximum saltation height present over ripple lee slopes. Importantly, when using ripple patterns as indicators of flow conditions, celerity or height should be used in preference to wavelength as their dynamics respond faster to changing wind speed. In planetary and stratigraphic settings where measuring celerity is not possible, wavelength should be considered as indicative of consistent wind conditions rather than the full range of sand transporting wind speeds.
aeolian transport, aerodynamic roughness, ripple dynamics, saltation, terrestrial laser scanning (TLS), terrestrial laser scanning
Nield, Joanna M.
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Baddock, Matthew C.
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Wiggs, Giles F.S.
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Best, Jim
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Christensen, Kenneth T.
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Delorme, Pauline
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Valdez, Andrew
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Bristow, Nathaniel R.
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Hipondoka, Martin H.T.
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Goss, Daniel P.
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Wallum, Natasha S.
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Claudin, Philippe
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7 October 2025
Nield, Joanna M.
173be2c5-b953-481a-abc4-c095e5e4b790
Baddock, Matthew C.
69a00603-700f-4c3f-b56f-86058a529a99
Wiggs, Giles F.S.
8dc4afa7-91a7-41e5-b603-13d72b082bb7
Best, Jim
e9955f54-34ef-42be-82f8-8a4e543b7093
Christensen, Kenneth T.
ecb835fc-a51a-4062-afbf-52dbb0f42ef0
Delorme, Pauline
5d99984e-9fdc-46ee-bebe-a6b7e9a8af0e
Valdez, Andrew
044560f8-e971-429f-8e45-50ebf6849f2f
Bristow, Nathaniel R.
e7c1a332-aa22-4fe3-aa8a-a9bdfa57e053
Hipondoka, Martin H.T.
72b4ae3c-12d4-492b-a89d-232478c4f868
Goss, Daniel P.
94141671-dd88-44b8-98e6-218eb2070df5
Wallum, Natasha S.
446e346b-f7c5-4c23-b042-a71242fafefe
Claudin, Philippe
bc540459-6b06-4c62-a8ea-2b05b760b3ad
Nield, Joanna M., Baddock, Matthew C., Wiggs, Giles F.S., Best, Jim, Christensen, Kenneth T., Delorme, Pauline, Valdez, Andrew, Bristow, Nathaniel R., Hipondoka, Martin H.T., Goss, Daniel P., Wallum, Natasha S. and Claudin, Philippe
(2025)
Quantifying the form-flow-saltation dynamics of aeolian sand ripples.
Journal of Geophysical Research: Earth Surface, 130 (10), [e2025JF008616].
(doi:10.1029/2025JF008616).
Abstract
Ripples are the most fundamental and ubiquitous aeolian bedforms formed on sandy surfaces, but their small size and fast response times make them inherently difficult to measure. However, these attributes also make ripples excellent flow indicators, and they have been used extensively in planetary locations for this purpose. Here, we use terrestrial laser scanning to measure ripple morphometry and celerity coincidently, as well as saltation height above rippled surfaces. We find that although ripple height and wavelength respond linearly to increased shear velocity, under strong winds ripple celerity exhibits a non-linear increase. This relationship at high wind speeds is also reflected in the response of aerodynamic roughness and saltation dynamics, with a greater maximum saltation height present over ripple lee slopes. Importantly, when using ripple patterns as indicators of flow conditions, celerity or height should be used in preference to wavelength as their dynamics respond faster to changing wind speed. In planetary and stratigraphic settings where measuring celerity is not possible, wavelength should be considered as indicative of consistent wind conditions rather than the full range of sand transporting wind speeds.
Text
Nield_etal_ripples_revision_JGR
- Accepted Manuscript
Text
JGR Earth Surface - 2025 - Nield - Quantifying the Form‐Flow‐Saltation Dynamics of Aeolian Sand Ripples
- Version of Record
More information
Accepted/In Press date: 3 September 2025
Published date: 7 October 2025
Keywords:
aeolian transport, aerodynamic roughness, ripple dynamics, saltation, terrestrial laser scanning (TLS), terrestrial laser scanning
Identifiers
Local EPrints ID: 506673
URI: http://eprints.soton.ac.uk/id/eprint/506673
ISSN: 2169-9003
PURE UUID: 171cfaa6-d542-49b6-9c1b-2147ecef5941
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Date deposited: 13 Nov 2025 17:49
Last modified: 14 Nov 2025 03:05
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Contributors
Author:
Matthew C. Baddock
Author:
Giles F.S. Wiggs
Author:
Jim Best
Author:
Kenneth T. Christensen
Author:
Pauline Delorme
Author:
Andrew Valdez
Author:
Nathaniel R. Bristow
Author:
Martin H.T. Hipondoka
Author:
Daniel P. Goss
Author:
Natasha S. Wallum
Author:
Philippe Claudin
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