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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

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posted on 2022-12-16, 10:35 authored by Stephen E Darby, Peter G Langdon, James L Best, Julian Leyland, Christopher R Hackney, Mackenzie Marti, Peter R Morgan, Savuth Ben, Rolf Aalto, Dan ParsonsDan Parsons, Andrew P Nicholas, Melanie J Leng

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 level by c. 8 m during the monsoon season. We present new subsurface geophysical data, allied to new and past core studies, which unequivocally show a period of major mid-Holocene erosion across the entire Tonlé Sap basin that is coincident with establishment of the lake’s flood pulse. We argue that this widespread erosion, which removed at least 1.2 m of sediment across the lake’s extent, was triggered by up to three, likely interacting, processes: (1) base-level lowering due to mid-Holocene sea-level fall, leading to (2) capture of the Tonlé Sap drainage by the Mekong River, and (3) a drying climate that also reduced lake level. Longer-term landscape evolution was thus punctuated by a rapid, river capture- and base-level fall- induced, lake drainage that established the ecosystem that flourishes today. The scale of change induced by this mid-Holocene river capture event demonstrates the susceptibility of the Tonlé Sap lake to ongoing changes in local base-level and hydrology induced by anthropogenic activity, such as damming and sand mining, within the Mekong River Basin. 

Funding

Gilchrist Educational Trust

UK Natural Environmental Research Council (NERC) (NE/JO21970/1, NE/JO21571/1 and NE/JO21881/1)

University of Illinois

University of Southampton Diamond Jubilee Fellowship

History

School

  • Social Sciences and Humanities

Department

  • Geography and Environment

Published in

Quaternary Science Reviews

Volume

236

Issue

2020

Publisher

Elsevier

Version

  • AM (Accepted Manuscript)

Rights holder

© Elsevier

Publisher statement

This paper was accepted for publication in the journal Quaternary Science Reviews published by Elsevier. The final publication is available at https://doi.org/10.1016/j.quascirev.2020.106265. This manuscript version is made available under the CC-BY-NC-ND 4.0 license https://creativecommons.org/licenses/by-nc-nd/4.0/

Acceptance date

2020-03-07

Publication date

2020-04-08

Copyright date

2020

ISSN

0277-3791

eISSN

1873-457X

Language

  • en

Depositor

Prof Dan Parsons. Deposit date: 15 December 2022

Article number

106265