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Outputs (2)

Drainage and erosion of Cambodia's Great Lake in the middle-late Holocene: the combined role of climatic drying, base-level fall and river capture (2020)
Journal Article
Darby, S. E., Langdon, P. G., Best, J. L., Leyland, J., Hackney, C., Marti, M., Morgan, P. R., Ben, S., Aalto, R., Parsons, D. R., Nicholas, A. P., & Leng, M. J. (2020). Drainage and erosion of Cambodia's Great Lake in the middle-late Holocene: the combined role of climatic drying, base-level fall and river capture. Quaternary science reviews, 236, Article 106265. https://doi.org/10.1016/j.quascirev.2020.106265

We provide evidence for a large-scale geomorphic event in Cambodia’s great lake, the Tonlé Sap, during the middle Holocene. The present-day hydrology of the basin is dominated by an annual flood pulse where water from the Mekong River raises the lake... Read More about Drainage and erosion of Cambodia's Great Lake in the middle-late Holocene: the combined role of climatic drying, base-level fall and river capture.

River bank instability from unsustainable sand mining in the lower Mekong River (2020)
Journal Article
Hackney, C. R., Darby, S., Parsons, D. R., Leyland, J., Best, J., Aalto, R., Nicholas, A., & Houseago, R. (2020). River bank instability from unsustainable sand mining in the lower Mekong River. Nature Sustainability, 3(3), 217-225. https://doi.org/10.1038/s41893-019-0455-3

Recent growth of the construction industry has fuelled demand for sand, with considerable volumes being extracted from the world’s large rivers. Sediment transport from upstream naturally replenishes sediment stored in river beds, but the absence of... Read More about River bank instability from unsustainable sand mining in the lower Mekong River.