Projections of salt intrusion in a mega-delta under climatic and anthropogenic stressors
Projections of salt intrusion in a mega-delta under climatic and anthropogenic stressors
Rising temperatures, rapid urbanization and soaring demand for natural resources threaten deltas worldwide and make them vulnerable to rising seas, subsidence, droughts, floods, and salt intrusion. However, climate change projections in deltas often address climate-driven stressors in isolation and disregard parallel anthropogenic processes, leading to insufficient socio-political drive. Here, using a combination of process-based numerical models that integrate both climatic and anthropogenic environmental stressors, we project salt intrusion within the Mekong mega-Delta, in the next three decades. We assess the relative effects of various drivers and show that anthropogenic forces such as groundwater extraction-induced subsidence and riverbed level incisions due to sediment starvation can increase the salinity-affected areas by 10–27% compared to the present-day situation, while future sea level rise adds another 6–19% increase. These projections provide crucial input for adaptation policy development in the Mekong Delta and the methodology inspires future systemic studies of environmental changes in other deltas.
Eslami, Sepehr
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Hoekstra, Piet
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Minderhoud, Philip S. J.
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Trung, Nam Nguyen
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Hoch, Jannis M.
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Sutanudjaja, Edwin H.
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Dung, Do Duc
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Tho, Tran Quang
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Voepel, Hal E.
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Woillez, Marie-Noëlle
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Vegt, Maarten van der
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Eslami, Sepehr
9a353f5c-55f2-4a52-929a-71c24229a719
Hoekstra, Piet
b1b14531-6c3a-4c4f-bc7b-aba983d0f84c
Minderhoud, Philip S. J.
f12cc203-804f-438d-b7c2-96fb11a11bd8
Trung, Nam Nguyen
35563fc2-be91-4849-93a2-616b8c634878
Hoch, Jannis M.
8fce0cf9-f56b-4cf8-942e-a9a5eaa1ceef
Sutanudjaja, Edwin H.
98bfdd4b-feae-4ae2-a6a1-799bc058a461
Dung, Do Duc
15f1c9a5-58d5-4844-83b1-dfcb44dee6b5
Tho, Tran Quang
992d28c2-f9cc-4f80-a058-e0d587862209
Voepel, Hal E.
7330972a-c61c-4058-b52c-3669fadfcf70
Woillez, Marie-Noëlle
1e4fb956-5ca4-4827-9f62-d1c3d384d865
Vegt, Maarten van der
3f0ca645-3612-4d66-a241-e36fc8df687d
Eslami, Sepehr, Hoekstra, Piet, Minderhoud, Philip S. J., Trung, Nam Nguyen, Hoch, Jannis M., Sutanudjaja, Edwin H., Dung, Do Duc, Tho, Tran Quang, Voepel, Hal E., Woillez, Marie-Noëlle and Vegt, Maarten van der
(2021)
Projections of salt intrusion in a mega-delta under climatic and anthropogenic stressors.
Communications Earth & Environment, 2, [142].
(doi:10.1038/s43247-021-00208-5).
Abstract
Rising temperatures, rapid urbanization and soaring demand for natural resources threaten deltas worldwide and make them vulnerable to rising seas, subsidence, droughts, floods, and salt intrusion. However, climate change projections in deltas often address climate-driven stressors in isolation and disregard parallel anthropogenic processes, leading to insufficient socio-political drive. Here, using a combination of process-based numerical models that integrate both climatic and anthropogenic environmental stressors, we project salt intrusion within the Mekong mega-Delta, in the next three decades. We assess the relative effects of various drivers and show that anthropogenic forces such as groundwater extraction-induced subsidence and riverbed level incisions due to sediment starvation can increase the salinity-affected areas by 10–27% compared to the present-day situation, while future sea level rise adds another 6–19% increase. These projections provide crucial input for adaptation policy development in the Mekong Delta and the methodology inspires future systemic studies of environmental changes in other deltas.
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e-pub ahead of print date: 15 July 2021
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Local EPrints ID: 479447
URI: http://eprints.soton.ac.uk/id/eprint/479447
PURE UUID: 1f59d722-fb71-460e-9183-d4f1a15f7dbe
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Date deposited: 24 Jul 2023 16:56
Last modified: 17 Mar 2024 03:36
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Contributors
Author:
Sepehr Eslami
Author:
Piet Hoekstra
Author:
Philip S. J. Minderhoud
Author:
Nam Nguyen Trung
Author:
Jannis M. Hoch
Author:
Edwin H. Sutanudjaja
Author:
Do Duc Dung
Author:
Tran Quang Tho
Author:
Hal E. Voepel
Author:
Marie-Noëlle Woillez
Author:
Maarten van der Vegt
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