Increased hydraulic roughness in alluvial rivers created by sand-mining sculpted bed features
Increased hydraulic roughness in alluvial rivers created by sand-mining sculpted bed features
Alluvial bedforms are a first order control on flow resistance, water levels and rate of sediment transport. Their morphologies are a direct reflection of the hydraulic and sedimentological conditions under which they are formed. Studies of natural dunes in large river systems have shown that low angled dunes are dominant, characterized by reduced flow resistance and limited recirculation of flow in their lee-slopes. However, increasingly, alluvial rivers are influenced by human activities, such as sand extraction, that directly impact the morphologies of river beds and bedforms. Here, we present a comparison of the morphologies of natural and anthropogenically influenced bedforms observed through multibeam echo sounder surveys on the Mekong River in Cambodia. We show that anthropogenic bedforms have higher amplitudes (μ = 2.8 m, σ = 1.0 m), steeper leeside angles (μ = 20.6°, σ = 5.8°) and shorter wavelengths (μ = 100.1 m, σ = 87.9 m) compared to natural dunes (amplitude: μ = 1.79 m σ = 0.86 m, leeside angle: μ = 11.8° σ = 5.7°, wavelength: μ = 117.0 m, σ = 89.1 m). Our data suggests that the form roughness of anthropogenic bedforms is higher (median ksf = 1.23) than natural bedforms found in sections of the Mekong unaffected by mining (median ksf = 0.49). As a result, flow patterns subsequently force suspended load over bedforms, meaning sediment is unable to infill mining pits. Anthropogenic bedforms may represent a significant and previously under-represented control of flow and sediment transport in alluvial river systems.
bedforms, form roughness, Mekong
Hackney, C.R.
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Cisneros, J.
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Heng, S
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Darby, S.E.
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Leyland, J.
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Konsoer, K.
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Parsons, D.R.
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3 June 2025
Hackney, C.R.
bc99c3e8-243c-4933-9346-46c707e36e0b
Cisneros, J.
74739ee7-d2c3-40c2-86c1-3d2c7056ec10
Heng, S
c9d2c70f-f755-4a2e-84c6-60c4977c901b
Darby, S.E.
4c3e1c76-d404-4ff3-86f8-84e42fbb7970
Leyland, J.
6b1bb9b9-f3d5-4f40-8dd3-232139510e15
Konsoer, K.
bb3d0b15-351e-469e-b6b3-8e2e5fe6a5f3
Parsons, D.R.
254b9145-8299-4c55-98ed-d37a8cdcb782
Hackney, C.R., Cisneros, J., Heng, S, Darby, S.E., Leyland, J., Konsoer, K. and Parsons, D.R.
(2025)
Increased hydraulic roughness in alluvial rivers created by sand-mining sculpted bed features.
Journal of Geophysical Research: Earth Surface, 130 (6), [e2024JF008189].
(doi:10.1029/2024JF008189).
Abstract
Alluvial bedforms are a first order control on flow resistance, water levels and rate of sediment transport. Their morphologies are a direct reflection of the hydraulic and sedimentological conditions under which they are formed. Studies of natural dunes in large river systems have shown that low angled dunes are dominant, characterized by reduced flow resistance and limited recirculation of flow in their lee-slopes. However, increasingly, alluvial rivers are influenced by human activities, such as sand extraction, that directly impact the morphologies of river beds and bedforms. Here, we present a comparison of the morphologies of natural and anthropogenically influenced bedforms observed through multibeam echo sounder surveys on the Mekong River in Cambodia. We show that anthropogenic bedforms have higher amplitudes (μ = 2.8 m, σ = 1.0 m), steeper leeside angles (μ = 20.6°, σ = 5.8°) and shorter wavelengths (μ = 100.1 m, σ = 87.9 m) compared to natural dunes (amplitude: μ = 1.79 m σ = 0.86 m, leeside angle: μ = 11.8° σ = 5.7°, wavelength: μ = 117.0 m, σ = 89.1 m). Our data suggests that the form roughness of anthropogenic bedforms is higher (median ksf = 1.23) than natural bedforms found in sections of the Mekong unaffected by mining (median ksf = 0.49). As a result, flow patterns subsequently force suspended load over bedforms, meaning sediment is unable to infill mining pits. Anthropogenic bedforms may represent a significant and previously under-represented control of flow and sediment transport in alluvial river systems.
Text
JGR Earth Surface - 2025 - Hackney - Increased Hydraulic Roughness in Alluvial Rivers Created by Sand‐Mining Sculpted Bed
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Accepted/In Press date: 10 May 2025
e-pub ahead of print date: 3 June 2025
Published date: 3 June 2025
Keywords:
bedforms, form roughness, Mekong
Identifiers
Local EPrints ID: 503226
URI: http://eprints.soton.ac.uk/id/eprint/503226
ISSN: 2169-9003
PURE UUID: 1329396e-d5e1-4465-a0cf-0e7577f3b185
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Date deposited: 24 Jul 2025 16:40
Last modified: 18 Sep 2025 01:40
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Contributors
Author:
C.R. Hackney
Author:
J. Cisneros
Author:
S Heng
Author:
K. Konsoer
Author:
D.R. Parsons
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