Recent intensification of riverbed mining in the Mekong Delta revealed by extensive bathymetric surveying

•Large-scale bathymetric surveys revealed significant incisions in the Vietnamese Mekong Delta.•Intensifying sand extractions concentrated in the upper reaches of the Hau and Tien Rivers, and the Co Chien branch.•Bank erosion as a major consequence of large-scale mining operations.•The stability of...

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Bibliographic Details
Published in:Journal of hydrology (Amsterdam) 2023-11, Vol.626, p.130174, Article 130174
Main Authors: Lau, Rachel Yu San, Park, Edward, Tran, Dung Duc, Wang, Jingyu
Format: Article
Language:English
Subjects:
Bank instability
Bathymetry
Mekong delta
Riverbed morphological changes
Sand mining
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Summary:•Large-scale bathymetric surveys revealed significant incisions in the Vietnamese Mekong Delta.•Intensifying sand extractions concentrated in the upper reaches of the Hau and Tien Rivers, and the Co Chien branch.•Bank erosion as a major consequence of large-scale mining operations.•The stability of the delta and livelihoods of riverbank communities are at significant risk. Large-scale sand extraction has had significant and compounding impacts on the riverine environment of the Vietnamese Mekong Delta (VMD). Yet, effective and targeted implementation of regulations and sustainable management remains hindered by scant data availability, limiting a comprehensive understanding of the delta's sand mining scale and extent. This study assessed recent intensifying patterns of sand mining activities in the VMD mainly based on extensive bathymetric surveys carried out across 800 km2 of the VMD river channel from 2017 to 2022. Our results revealed severe riverbed deepening across the VMD, with the upper reaches of the Hau (Bassac) River experiencing an average incision of 1.4 m from 2017 to 2022, resulting in sediment losses of 127 Mm3. Similarly, the upper reaches of the Tien (Mekong) River and the Co Chien branch showed incisions of 1.3 m and 0.7 m from 2017 to 2020, accompanied by sediment losses of 139 Mm3 and 87 Mm3, respectively. The observed spatial and temporal variability in incisions, along with widespread sand mining pockmarks along the riverbed profiles, provide strong evidence of the significant contribution of sand mining to changes in riverbed morphology. The progressive lowering of riverbed elevation provides further evidence of the recent intensification of sand mining activities. Additionally, field surveys highlighted the proximity of perceived sites of bank collapse to pitted riverbeds, providing reliable indications of sand mining-induced erosion. Ultimately, we intend for this evidence-based assessment of sand mining activities in the VMD to contribute to informed quantitative assessments of sediment budgets and effective implementation of regulatory frameworks for sustainable sand mining in the future.
ISSN:0022-1694
1879-2707
DOI:10.1016/j.jhydrol.2023.130174