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Growing compound-flood risk, driven by both climate change and land subsidence, challenges flood risk reduction in major delta cities

Growing compound-flood risk, driven by both climate change and land subsidence, challenges flood risk reduction in major delta cities
Growing compound-flood risk, driven by both climate change and land subsidence, challenges flood risk reduction in major delta cities
Low-lying deltas host some of the world’s fastest-growing cities yet are exposed to floods driven by the compound actions of tide, storm surge, rain, and river flows. Most previous studies of compound floods are partial, while here, we estimate future compound floods in Shanghai for all relevant driving factors. We use a dynamically linked atmosphere, ocean, and coast model (AOCM) that incorporates all flood drivers, including sea-level rise (SLR), sea-surface temperature rise, and land subsidence. Simulations forced by baseline conditions and IPCC RCP2.6, -4.5, and -8.5 scenarios show that by 2100, the inundation extent of the 200-year event could increase by up to 80%, reflecting subsidence (34% [28%–41%]) and climate change (29% [20%–37%] due to SLR and 37% [26%–44%] due to more intense tropical storms), respectively. Land subsidence and SLR create a dangerous “polder effect” if defenses fail, which must be considered in adaptation in Shanghai and other deltaic cities.
2590-3330
Zhang, Min
08f26f30-47c4-45a3-88a3-08a64d0b2088
Nicholls, Robert
5ccdb8f7-0ed5-4f6e-b36c-518f5b15db5d
Wen, JIahong
d0405bcd-1fe0-46aa-a981-7525e331e031
Bouma, Tjeerd
b29c9364-3785-420c-9942-32768bc13840
Darby, Steve
4c3e1c76-d404-4ff3-86f8-84e42fbb7970
Du, Shiqiang
075a0e73-93bd-4e36-b188-593f0f40f425
Dai, Zhijun
518bc4ef-716d-461d-a781-a3e5b4d04ba7
Zhang, Min
08f26f30-47c4-45a3-88a3-08a64d0b2088
Nicholls, Robert
5ccdb8f7-0ed5-4f6e-b36c-518f5b15db5d
Wen, JIahong
d0405bcd-1fe0-46aa-a981-7525e331e031
Bouma, Tjeerd
b29c9364-3785-420c-9942-32768bc13840
Darby, Steve
4c3e1c76-d404-4ff3-86f8-84e42fbb7970
Du, Shiqiang
075a0e73-93bd-4e36-b188-593f0f40f425
Dai, Zhijun
518bc4ef-716d-461d-a781-a3e5b4d04ba7

Zhang, Min, Nicholls, Robert, Wen, JIahong, Bouma, Tjeerd, Darby, Steve, Du, Shiqiang and Dai, Zhijun (2025) Growing compound-flood risk, driven by both climate change and land subsidence, challenges flood risk reduction in major delta cities. One Earth, [101489]. (doi:10.1016/j.oneear.2025.101489).

Record type: Article

Abstract

Low-lying deltas host some of the world’s fastest-growing cities yet are exposed to floods driven by the compound actions of tide, storm surge, rain, and river flows. Most previous studies of compound floods are partial, while here, we estimate future compound floods in Shanghai for all relevant driving factors. We use a dynamically linked atmosphere, ocean, and coast model (AOCM) that incorporates all flood drivers, including sea-level rise (SLR), sea-surface temperature rise, and land subsidence. Simulations forced by baseline conditions and IPCC RCP2.6, -4.5, and -8.5 scenarios show that by 2100, the inundation extent of the 200-year event could increase by up to 80%, reflecting subsidence (34% [28%–41%]) and climate change (29% [20%–37%] due to SLR and 37% [26%–44%] due to more intense tropical storms), respectively. Land subsidence and SLR create a dangerous “polder effect” if defenses fail, which must be considered in adaptation in Shanghai and other deltaic cities.

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Accepted/In Press date: 17 September 2025
e-pub ahead of print date: 14 October 2025
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Identifiers

Local EPrints ID: 506634
URI: http://eprints.soton.ac.uk/id/eprint/506634
DOI: doi:10.1016/j.oneear.2025.101489
ISSN: 2590-3330
PURE UUID: 51440107-6e09-4f4b-8e79-1caa3e1039d2
ORCID for Steve Darby: ORCID iD orcid.org/0000-0001-8778-4394

Catalogue record

Date deposited: 12 Nov 2025 17:46
Last modified: 13 Nov 2025 02:35

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Contributors

Author: Min Zhang
Author: Robert Nicholls
Author: JIahong Wen
Author: Tjeerd Bouma
Author: Steve Darby ORCID iD
Author: Shiqiang Du
Author: Zhijun Dai

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