Risk of compound flooding substantially increases in the future Mekong River delta
Risk of compound flooding substantially increases in the future Mekong River delta
Floods are consistently identified as the most serious global natural hazard, causing devastating loss of life and economic damage that runs into multiple billions of US dollars each year. At the coastline, many flood disasters are in fact compound flood events, with two or more flood drivers occurring concurrently or in quick succession. In coastal regions the combined effect of fluvial (river) and coastal (storm tides – storm surges and high astronomical tides) floods has a greater impact than if each occurred separately. Deltas in south-east Asia are particularly exposed to coastal compound floods as they are low-lying, densely populated regions subject to the intense rainfall storm surges frequently associated with tropical cyclone (TC) activity. For our study we used a sophisticated 1D river model, combined with 2D storm tide levels, to analyse past–present and future compound flood hazard and exposure for the Mekong River delta, one of the most flood-vulnerable deltas in the world. We found that with compound flooding, a greater area of the delta will be inundated, and some parts will flood to greater flood depth. Central areas around An Giang and the Dong Thap provinces are particularly impacted in our plausible scenario, where a TC makes landfall near the mouth of one Mekong River distributary. In the future delta, the impact of compound flooding is potentially more significant, as the same compound flood scenario inundates a greater area relative to the present case and to greater depth in many locations, and floods last longer. Compound flooding therefore has clear implications for flood managers of the future delta, who will need to ensure that existing and future flood defences are to the right standard and in the right locations to offer effective protection against this future risk.
3627–3649
Wood, Melissa
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Haigh, Ivan D.
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Le, Quan
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Hung, Nguyen Nghia
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Ba Tran, Hoang
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Darby, Steve
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Marsh, Robert
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Skliris, Nikolaos
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Hirschi, Joel
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24 October 2024
Wood, Melissa
3df4facc-304f-4664-848d-f6c808a23e56
Haigh, Ivan D.
945ff20a-589c-47b7-b06f-61804367eb2d
Le, Quan
23794d5d-5bfe-4ee1-9918-5b68661d9c63
Hung, Nguyen Nghia
2473441b-52b2-49fc-962d-d4e619c3e6ab
Ba Tran, Hoang
f0f3c940-edfc-4561-bb63-fe2eee71a7b3
Darby, Steve
4c3e1c76-d404-4ff3-86f8-84e42fbb7970
Marsh, Robert
702c2e7e-ac19-4019-abd9-a8614ab27717
Skliris, Nikolaos
07af7484-2e14-49aa-9cd3-1979ea9b064e
Hirschi, Joel
c8a45006-a6e3-4319-b5f5-648e8ef98906
Wood, Melissa, Haigh, Ivan D., Le, Quan, Hung, Nguyen Nghia, Ba Tran, Hoang, Darby, Steve, Marsh, Robert, Skliris, Nikolaos and Hirschi, Joel
(2024)
Risk of compound flooding substantially increases in the future Mekong River delta.
Natural Hazards and Earth System Sciences, 24 (10), .
(doi:10.5194/nhess-24-3627-2024).
Abstract
Floods are consistently identified as the most serious global natural hazard, causing devastating loss of life and economic damage that runs into multiple billions of US dollars each year. At the coastline, many flood disasters are in fact compound flood events, with two or more flood drivers occurring concurrently or in quick succession. In coastal regions the combined effect of fluvial (river) and coastal (storm tides – storm surges and high astronomical tides) floods has a greater impact than if each occurred separately. Deltas in south-east Asia are particularly exposed to coastal compound floods as they are low-lying, densely populated regions subject to the intense rainfall storm surges frequently associated with tropical cyclone (TC) activity. For our study we used a sophisticated 1D river model, combined with 2D storm tide levels, to analyse past–present and future compound flood hazard and exposure for the Mekong River delta, one of the most flood-vulnerable deltas in the world. We found that with compound flooding, a greater area of the delta will be inundated, and some parts will flood to greater flood depth. Central areas around An Giang and the Dong Thap provinces are particularly impacted in our plausible scenario, where a TC makes landfall near the mouth of one Mekong River distributary. In the future delta, the impact of compound flooding is potentially more significant, as the same compound flood scenario inundates a greater area relative to the present case and to greater depth in many locations, and floods last longer. Compound flooding therefore has clear implications for flood managers of the future delta, who will need to ensure that existing and future flood defences are to the right standard and in the right locations to offer effective protection against this future risk.
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nhess-24-3627-2024
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Accepted/In Press date: 3 August 2024
Published date: 24 October 2024
Identifiers
Local EPrints ID: 495087
URI: http://eprints.soton.ac.uk/id/eprint/495087
ISSN: 1684-9981
PURE UUID: 26e83840-0e10-4f6d-9ddb-373d6e8f178a
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Date deposited: 29 Oct 2024 17:33
Last modified: 30 Oct 2024 02:56
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Author:
Melissa Wood
Author:
Quan Le
Author:
Nguyen Nghia Hung
Author:
Hoang Ba Tran
Author:
Joel Hirschi
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