Modeling the dynamics of aeolian meter-scale bedforms induced by bed heterogeneities
Modeling the dynamics of aeolian meter-scale bedforms induced by bed heterogeneities
Desert surfaces are typically nonuniform, with individual sand dunes generally surrounded by gravel or nonerodible beds. Similarly, beaches vary in composition and moisture that enhances cohesion between the grains. These bed heterogeneities affect the aeolian transport properties greatly and can then influence the emergence and dynamics of bedforms. Here, we propose a model that describes how, due to transport capacity being greater on consolidated than erodible beds, patches of sand can grow, migrate, and spread to form bedforms with meter-scale length. Our approach has a quantitative agreement with high-resolution spatiotemporal observations, where conventional theory would predict the disappearance of these small bedforms. A crucial component of the model is that the transport capacity does not instantly change from one bed configuration to another. Instead, transport capacity develops over a certain distance, which thereby determines the short-term evolution of the bedform. The model predicts various stages in the development of these meter-scale bedforms, and explains how the evolution of bed elevation profiles observed in the field depends on the duration of the wind event and the intensity of the incoming sand flux. Our study thus sheds light on the initiation and dynamics of early-stage bedforms by establishing links between surface properties, emerging sand patterns, and protodunes, commonly observed in coastal and desert landscapes.
dune emergence, ephemeral bedforms, heterogeneous beds, sediment transport
Rambert, Camille
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Nield, Jo
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Narteau, Clement
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Delorme, Pauline
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Wiggs, Giles F.S.
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Baddock, Matthew C.
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Best, Jim
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Christensen, Kenneth T.
ecb835fc-a51a-4062-afbf-52dbb0f42ef0
Claudin, Philippe
bc540459-6b06-4c62-a8ea-2b05b760b3ad
Rambert, Camille
6874a03c-39c2-4102-bdf8-43bde76c1250
Nield, Jo
173be2c5-b953-481a-abc4-c095e5e4b790
Narteau, Clement
4d502d16-3ce8-4095-80ab-a7b018725668
Delorme, Pauline
551d2c3c-2e63-40f4-a1f8-d398d80e2ba7
Wiggs, Giles F.S.
8dc4afa7-91a7-41e5-b603-13d72b082bb7
Baddock, Matthew C.
69a00603-700f-4c3f-b56f-86058a529a99
Best, Jim
e9955f54-34ef-42be-82f8-8a4e543b7093
Christensen, Kenneth T.
ecb835fc-a51a-4062-afbf-52dbb0f42ef0
Claudin, Philippe
bc540459-6b06-4c62-a8ea-2b05b760b3ad
Rambert, Camille, Nield, Jo, Narteau, Clement, Delorme, Pauline, Wiggs, Giles F.S., Baddock, Matthew C., Best, Jim, Christensen, Kenneth T. and Claudin, Philippe
(2025)
Modeling the dynamics of aeolian meter-scale bedforms induced by bed heterogeneities.
Proceedings of the National Academy of Sciences, 122 (20), [e2426143122].
(doi:10.1073/pnas.2426143122).
Abstract
Desert surfaces are typically nonuniform, with individual sand dunes generally surrounded by gravel or nonerodible beds. Similarly, beaches vary in composition and moisture that enhances cohesion between the grains. These bed heterogeneities affect the aeolian transport properties greatly and can then influence the emergence and dynamics of bedforms. Here, we propose a model that describes how, due to transport capacity being greater on consolidated than erodible beds, patches of sand can grow, migrate, and spread to form bedforms with meter-scale length. Our approach has a quantitative agreement with high-resolution spatiotemporal observations, where conventional theory would predict the disappearance of these small bedforms. A crucial component of the model is that the transport capacity does not instantly change from one bed configuration to another. Instead, transport capacity develops over a certain distance, which thereby determines the short-term evolution of the bedform. The model predicts various stages in the development of these meter-scale bedforms, and explains how the evolution of bed elevation profiles observed in the field depends on the duration of the wind event and the intensity of the incoming sand flux. Our study thus sheds light on the initiation and dynamics of early-stage bedforms by establishing links between surface properties, emerging sand patterns, and protodunes, commonly observed in coastal and desert landscapes.
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rambert-et-al-modeling-the-dynamics-of-aeolian-meter-scale-bedforms-induced-by-bed-heterogeneities
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e-pub ahead of print date: 16 May 2025
Keywords:
dune emergence, ephemeral bedforms, heterogeneous beds, sediment transport
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Local EPrints ID: 502779
URI: http://eprints.soton.ac.uk/id/eprint/502779
ISSN: 0027-8424
PURE UUID: 73ea04a1-f060-4f79-a068-789dcbf242af
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Date deposited: 08 Jul 2025 16:37
Last modified: 22 Aug 2025 01:58
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Contributors
Author:
Camille Rambert
Author:
Clement Narteau
Author:
Pauline Delorme
Author:
Giles F.S. Wiggs
Author:
Matthew C. Baddock
Author:
Jim Best
Author:
Kenneth T. Christensen
Author:
Philippe Claudin
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