Flood Risks in Sinking Delta Cities: Time for a Reevaluation?

Flood Risks in Sinking Delta Cities: Time for a Reevaluation?

Abstract Sea level rise (SLR) and subsidence are expected to increase the risk of flooding and reliance on flood defenses for cities built on deltas. Here, we combine reliability analysis with hydrodynamic modeling to quantify the effect of projected relative SLR on dike failures and flood hazards f...

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Main Authors: Jie Yin, Sebastiaan Jonkman, Ning Lin, Dapeng Yu, Jeroen Aerts, Robert Wilby, Ming Pan, Eric Wood, Jeremy Bricker, Qian Ke, Zhenzhong Zeng, Qing Zhao, Jianzhong Ge, Jun Wang
Format: Article
Language:English
Published: American Geophysical Union (AGU) 2020-08-01
Series:Earth's Future
Subjects:
sea level rise
land subsidence
dike failure
flood risk
delta city
Shanghai
Online Access:https://doi.org/10.1029/2020EF001614
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spelling doaj-6056e6c828c247e1980ae16c142cf5722020-11-25T02:33:02ZengAmerican Geophysical Union (AGU)Earth's Future2328-42772020-08-0188n/an/a10.1029/2020EF001614Flood Risks in Sinking Delta Cities: Time for a Reevaluation?Jie Yin0Sebastiaan Jonkman1Ning Lin2Dapeng Yu3Jeroen Aerts4Robert Wilby5Ming Pan6Eric Wood7Jeremy Bricker8Qian Ke9Zhenzhong Zeng10Qing Zhao11Jianzhong Ge12Jun Wang13Key Laboratory of Geographic Information Science (Ministry of Education) East China Normal University Shanghai ChinaDepartment of Hydraulic Engineering Delft University of Technology Delft The NetherlandsDepartment of Civil and Environmental Engineering Princeton University Princeton NJ USAGeography and Environment Loughborough University Loughborough UKThe Institute for Environmental Studies Vrije Universiteit Amsterdam Amsterdam The NetherlandsGeography and Environment Loughborough University Loughborough UKDepartment of Civil and Environmental Engineering Princeton University Princeton NJ USADepartment of Civil and Environmental Engineering Princeton University Princeton NJ USADepartment of Hydraulic Engineering Delft University of Technology Delft The NetherlandsDepartment of Hydraulic Engineering Delft University of Technology Delft The NetherlandsDepartment of Civil and Environmental Engineering Princeton University Princeton NJ USAKey Laboratory of Geographic Information Science (Ministry of Education) East China Normal University Shanghai ChinaState Key Laboratory of Estuarine and Coastal Research East China Normal University Shanghai ChinaKey Laboratory of Geographic Information Science (Ministry of Education) East China Normal University Shanghai ChinaAbstract Sea level rise (SLR) and subsidence are expected to increase the risk of flooding and reliance on flood defenses for cities built on deltas. Here, we combine reliability analysis with hydrodynamic modeling to quantify the effect of projected relative SLR on dike failures and flood hazards for Shanghai, one of the most exposed delta cities. We find that flood inundation is likely to occur in low‐lying and poorly protected periurban/rural areas of the city even under the present‐day sea level. However, without adaptation measures, the risk increases by a factor of 3–160 across the densely populated floodplain under projected SLR to 2100. Impacts of frequent flood events are predicted to be more affected by SLR than those with longer return periods. Our results imply that including reliability‐based dike failures in flood simulations enables more credible flood risk assessment for global delta cities where conventional methods have assumed either overtopping only or complete failure.https://doi.org/10.1029/2020EF001614sea level riseland subsidencedike failureflood riskdelta cityShanghai
collection DOAJ
language English
format Article
sources DOAJ
author Jie Yin
Sebastiaan Jonkman
Ning Lin
Dapeng Yu
Jeroen Aerts
Robert Wilby
Ming Pan
Eric Wood
Jeremy Bricker
Qian Ke
Zhenzhong Zeng
Qing Zhao
Jianzhong Ge
Jun Wang
spellingShingle Jie Yin
Sebastiaan Jonkman
Ning Lin
Dapeng Yu
Jeroen Aerts
Robert Wilby
Ming Pan
Eric Wood
Jeremy Bricker
Qian Ke
Zhenzhong Zeng
Qing Zhao
Jianzhong Ge
Jun Wang
Flood Risks in Sinking Delta Cities: Time for a Reevaluation?
Earth's Future
sea level rise
land subsidence
dike failure
flood risk
delta city
Shanghai
author_facet Jie Yin
Sebastiaan Jonkman
Ning Lin
Dapeng Yu
Jeroen Aerts
Robert Wilby
Ming Pan
Eric Wood
Jeremy Bricker
Qian Ke
Zhenzhong Zeng
Qing Zhao
Jianzhong Ge
Jun Wang
author_sort Jie Yin
title Flood Risks in Sinking Delta Cities: Time for a Reevaluation?
title_short Flood Risks in Sinking Delta Cities: Time for a Reevaluation?
title_full Flood Risks in Sinking Delta Cities: Time for a Reevaluation?
title_fullStr Flood Risks in Sinking Delta Cities: Time for a Reevaluation?
title_full_unstemmed Flood Risks in Sinking Delta Cities: Time for a Reevaluation?
title_sort flood risks in sinking delta cities: time for a reevaluation?
publisher American Geophysical Union (AGU)
series Earth's Future
issn 2328-4277
publishDate 2020-08-01
description Abstract Sea level rise (SLR) and subsidence are expected to increase the risk of flooding and reliance on flood defenses for cities built on deltas. Here, we combine reliability analysis with hydrodynamic modeling to quantify the effect of projected relative SLR on dike failures and flood hazards for Shanghai, one of the most exposed delta cities. We find that flood inundation is likely to occur in low‐lying and poorly protected periurban/rural areas of the city even under the present‐day sea level. However, without adaptation measures, the risk increases by a factor of 3–160 across the densely populated floodplain under projected SLR to 2100. Impacts of frequent flood events are predicted to be more affected by SLR than those with longer return periods. Our results imply that including reliability‐based dike failures in flood simulations enables more credible flood risk assessment for global delta cities where conventional methods have assumed either overtopping only or complete failure.
topic sea level rise
land subsidence
dike failure
flood risk
delta city
Shanghai
url https://doi.org/10.1029/2020EF001614
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AT sebastiaanjonkman floodrisksinsinkingdeltacitiestimeforareevaluation
AT ninglin floodrisksinsinkingdeltacitiestimeforareevaluation
AT dapengyu floodrisksinsinkingdeltacitiestimeforareevaluation
AT jeroenaerts floodrisksinsinkingdeltacitiestimeforareevaluation
AT robertwilby floodrisksinsinkingdeltacitiestimeforareevaluation
AT mingpan floodrisksinsinkingdeltacitiestimeforareevaluation
AT ericwood floodrisksinsinkingdeltacitiestimeforareevaluation
AT jeremybricker floodrisksinsinkingdeltacitiestimeforareevaluation
AT qianke floodrisksinsinkingdeltacitiestimeforareevaluation
AT zhenzhongzeng floodrisksinsinkingdeltacitiestimeforareevaluation
AT qingzhao floodrisksinsinkingdeltacitiestimeforareevaluation
AT jianzhongge floodrisksinsinkingdeltacitiestimeforareevaluation
AT junwang floodrisksinsinkingdeltacitiestimeforareevaluation
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