The role of exposure on the vertical variation of mudflat sediment erodibility
The role of exposure on the vertical variation of mudflat sediment erodibility
Variations in meteorological conditions are known to influence the erodibility of sediments on tidal flats. However, there is limited understanding of how evaporation during exposure affects the stability of mudflats. In this study, we conducted field tests spanning 5 days in January 2021 and 14 days in August 2022 in the intertidal zone along the Yancheng coast in Jiangsu Province, China. We selected critical shear stress for erosion (τ
cr) and shear strength (SS) as erosion parameters, and analyzed the variations in hydrodynamic and meteorological parameters, and vertical sediment properties. Our results indicate that bed exposure in summer significantly enhances sediment stability, an effect that extends below the surface layer and even to deeper layers. As exposure duration increases, the differences with depth become more pronounced, leading to increased variability in τ
cr. This vertical gradient increases with exposure duration and atmospheric evaporation intensity, with both the values of vertical τ
cr and SS in summer showing a nearly 2 times increase compared to that in winter. The primary controlling parameter for changes in sediment erodibility during summer exposure is water content, while in winter, the mean grain size (D50) and salinity are more significant. The causal relationship between summer and winter exposure and resistance to vertical erosion of mudflats, shown in this study, underscores the need to pay greater attention to the seasonal influence of atmospheric processes on the spatial heterogeneity of sediments that arises from tidal exposure.
Evaporation, Exposure duration, Intertidal mudflats, Sediment erosion, Vertical resistance
Dong, Chuning
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Chen, Yongping
a795d584-93b6-4e06-9257-c4a9f289dba0
Townend, Ian
f72e5186-cae8-41fd-8712-d5746f78328e
Wu, Yiming
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Guo, Zichao
25f6e52c-302a-4f99-8c1d-1470c8fdec63
Jiang, Qin
72a65269-6c74-4bcb-8293-1aa734b58fbb
Coco, Giovanni
8a6c97e1-2a44-4f03-ad8d-e03dbc2908db
Bryan, Karin R.
85ba8507-148b-46b5-b2bc-c250b663753b
Zhou, Zeng
a167cd81-84c7-4e55-9e28-4529e26e7c01
20 May 2025
Dong, Chuning
cb0e94a0-9982-4ef0-8930-9ad9c4384a58
Chen, Yongping
a795d584-93b6-4e06-9257-c4a9f289dba0
Townend, Ian
f72e5186-cae8-41fd-8712-d5746f78328e
Wu, Yiming
51b0b5a1-f6ed-4224-b7bc-e38bfbda1dd2
Guo, Zichao
25f6e52c-302a-4f99-8c1d-1470c8fdec63
Jiang, Qin
72a65269-6c74-4bcb-8293-1aa734b58fbb
Coco, Giovanni
8a6c97e1-2a44-4f03-ad8d-e03dbc2908db
Bryan, Karin R.
85ba8507-148b-46b5-b2bc-c250b663753b
Zhou, Zeng
a167cd81-84c7-4e55-9e28-4529e26e7c01
Dong, Chuning, Chen, Yongping, Townend, Ian, Wu, Yiming, Guo, Zichao, Jiang, Qin, Coco, Giovanni, Bryan, Karin R. and Zhou, Zeng
(2025)
The role of exposure on the vertical variation of mudflat sediment erodibility.
Marine Geology, 487, [107579].
(doi:10.1016/j.margeo.2025.107579).
Abstract
Variations in meteorological conditions are known to influence the erodibility of sediments on tidal flats. However, there is limited understanding of how evaporation during exposure affects the stability of mudflats. In this study, we conducted field tests spanning 5 days in January 2021 and 14 days in August 2022 in the intertidal zone along the Yancheng coast in Jiangsu Province, China. We selected critical shear stress for erosion (τ
cr) and shear strength (SS) as erosion parameters, and analyzed the variations in hydrodynamic and meteorological parameters, and vertical sediment properties. Our results indicate that bed exposure in summer significantly enhances sediment stability, an effect that extends below the surface layer and even to deeper layers. As exposure duration increases, the differences with depth become more pronounced, leading to increased variability in τ
cr. This vertical gradient increases with exposure duration and atmospheric evaporation intensity, with both the values of vertical τ
cr and SS in summer showing a nearly 2 times increase compared to that in winter. The primary controlling parameter for changes in sediment erodibility during summer exposure is water content, while in winter, the mean grain size (D50) and salinity are more significant. The causal relationship between summer and winter exposure and resistance to vertical erosion of mudflats, shown in this study, underscores the need to pay greater attention to the seasonal influence of atmospheric processes on the spatial heterogeneity of sediments that arises from tidal exposure.
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Accepted/In Press date: 12 May 2025
e-pub ahead of print date: 14 May 2025
Published date: 20 May 2025
Keywords:
Evaporation, Exposure duration, Intertidal mudflats, Sediment erosion, Vertical resistance
Identifiers
Local EPrints ID: 503128
URI: http://eprints.soton.ac.uk/id/eprint/503128
ISSN: 0025-3227
PURE UUID: 56c11cde-cde1-4219-9ad3-7790e37977e0
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Date deposited: 22 Jul 2025 16:44
Last modified: 23 Jul 2025 01:40
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Contributors
Author:
Chuning Dong
Author:
Yongping Chen
Author:
Yiming Wu
Author:
Zichao Guo
Author:
Qin Jiang
Author:
Giovanni Coco
Author:
Karin R. Bryan
Author:
Zeng Zhou
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