Climate-induced storminess forces major increases in future storm surge hazard in the South China Sea region
Climate-induced storminess forces major increases in future storm surge hazard in the South China Sea region
Coastal floods, driven by extreme sea levels, are one of the most dangerous natural hazards. The people at highest risk are those living in low-lying coastal areas exposed to tropical-cyclone-forced storm surges. Here we apply a novel modelling framework to estimate past and/or present and future storm-surge-level and extreme-sea-level probabilities along the coastlines of southern China, Vietnam, Cambodia, Thailand, and Malaysia. A regional hydrodynamic model is configured to simulate 10ĝ€¯000 years of synthetic tropical cyclone activity, representative of a past/present (1980-2017) and high-emission-scenario future (2015-2050) period. Results show that extreme storm surges, and therefore total water levels, will increase substantially in the coming decades, driven by an increase in the frequency of intense tropical cyclones. Storm surges along the southern Chinese and northern and southern Vietnamese coastlines increase by up to 1ĝ€¯m, significantly larger than expected changes in mean sea-level rise over the same period. The length of coastline that is presently exposed to storm surge levels of 2.5ĝ€¯m or greater will more than double by 2050. Sections of Cambodian, Thai, and Malaysian coastlines are projected to experience storm surges (at higher return periods) in the future, not previously seen, due to a southward shift in tropical cyclone tracks. Given these findings, coastal flood management and adaptation in these areas should be reviewed for their resilience against future extreme sea levels.
2475-2504
Wood, Melissa
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Haigh, Ivan, David
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Quan, L.
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Hung, Nguyen Nghia
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Ba Tran, Hoang
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Darby, Stephen
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Marsh, Robert
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Skliris, Nikolaos
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Hirschi, Joel J.-M.
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Nicholls, Robert
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Bloemendaal, Nadia
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13 July 2023
Wood, Melissa
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Haigh, Ivan, David
928be075-377f-4e1c-875b-910c3a480443
Quan, L.
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Hung, Nguyen Nghia
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Ba Tran, Hoang
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Darby, Stephen
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Marsh, Robert
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Skliris, Nikolaos
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Hirschi, Joel J.-M.
fa6080bf-a5ce-4254-8c13-19b33a502a1f
Nicholls, Robert
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Bloemendaal, Nadia
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Wood, Melissa, Haigh, Ivan, David, Quan, L., Hung, Nguyen Nghia, Ba Tran, Hoang, Darby, Stephen, Marsh, Robert, Skliris, Nikolaos, Hirschi, Joel J.-M., Nicholls, Robert and Bloemendaal, Nadia
(2023)
Climate-induced storminess forces major increases in future storm surge hazard in the South China Sea region.
Natural Hazards and Earth System Sciences, 23 (7), .
(doi:10.5194/nhess-23-2475-2023).
Abstract
Coastal floods, driven by extreme sea levels, are one of the most dangerous natural hazards. The people at highest risk are those living in low-lying coastal areas exposed to tropical-cyclone-forced storm surges. Here we apply a novel modelling framework to estimate past and/or present and future storm-surge-level and extreme-sea-level probabilities along the coastlines of southern China, Vietnam, Cambodia, Thailand, and Malaysia. A regional hydrodynamic model is configured to simulate 10ĝ€¯000 years of synthetic tropical cyclone activity, representative of a past/present (1980-2017) and high-emission-scenario future (2015-2050) period. Results show that extreme storm surges, and therefore total water levels, will increase substantially in the coming decades, driven by an increase in the frequency of intense tropical cyclones. Storm surges along the southern Chinese and northern and southern Vietnamese coastlines increase by up to 1ĝ€¯m, significantly larger than expected changes in mean sea-level rise over the same period. The length of coastline that is presently exposed to storm surge levels of 2.5ĝ€¯m or greater will more than double by 2050. Sections of Cambodian, Thai, and Malaysian coastlines are projected to experience storm surges (at higher return periods) in the future, not previously seen, due to a southward shift in tropical cyclone tracks. Given these findings, coastal flood management and adaptation in these areas should be reviewed for their resilience against future extreme sea levels.
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nhess-23-2475-2023
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Accepted/In Press date: 19 May 2023
Published date: 13 July 2023
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Funding Information:
This work was supported by the UK Natural Environment Research Council (grant no. NE/S003150/1) and, in Vietnam, by the National Foundation for Science and Technology Development (NAFOSTED-RCUK) fund and the Ministry of Science and Technology (Mekong River project, code DTDL-48/18). Nadia Bloemendaal was funded by a VICI grant from the Netherlands Organization for Scientific Research 569 (NWO grant no. 453-13-006) and the ERC Advanced Grant (COASTMOVE (grant no. 884442)).
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Local EPrints ID: 479073
URI: http://eprints.soton.ac.uk/id/eprint/479073
ISSN: 1684-9981
PURE UUID: ebed7c2c-8c93-42c7-ae68-3e4d2760fb75
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Date deposited: 19 Jul 2023 17:05
Last modified: 18 Mar 2024 03:19
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Contributors
Author:
Melissa Wood
Author:
Ivan, David Haigh
Author:
L. Quan
Author:
Nguyen Nghia Hung
Author:
Hoang Ba Tran
Author:
Joel J.-M. Hirschi
Author:
Robert Nicholls
Author:
Nadia Bloemendaal
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