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Strategic storm flood evacuation planning for large coastal cities enables more effective transfer of vulnerable elderly populations

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posted on 2024-03-15, 13:48 authored by Jie Yin, Yuhan Yang, Dapeng YuDapeng Yu, Ning Lin, Robert WilbyRobert Wilby, Stuart Lane, Bindong Sun, Jeremy Bricker, Nigel Wright, Lili Yang, Mingfu Guan

Emergency responders in coastal cities are anticipated to provide effective evacuation of at-risk populations during the preparedness and response phases of coastal floods due to land-falling storms or cyclones. However, existing contingency plans primarily focus on the evacuation of the general public rather than special arrangement for elderly populations who constitute a large proportion of flood fatalities. Here we present a system-level methodology to elaborate citywide coastal flood evacuation plans for optimal deployment of shelters and effective transfer of elderly people with special needs. We conduct a comparative analysis between Shanghai and New York City, which are both among the most exposed coastal cities to storm-induced flooding but represent two distinct institutional systems of emergency operation. The results show marked disparities in evacuation patterns for elderly residents in the two cities. Storm flood evacuation is more challenging in Shanghai due to insufficient provision of shelter capacity (~230,000). Implementing risk-informed and strategic planning could not only meet the potentially huge demand of vulnerable elderly (~520,000) but also improve the overall efficiency of evacuee transfer by a factor of 3. Our work provides new insights into operational emergency evacuation decisions and informs flood management policy development for major coastal cities globally.

Funding

National Natural Science Foundation of China (grant no. 42371076)

Science and Technology Commission of Shanghai Municipality (grant no. 21230750600)

Sustainable Solutions for Managing Compound Flood Risks under Future Uncertainties: The Case of Shanghai City and the Yangtze River Delta Region

Department for Business, Energy and Industrial Strategy

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Smart approach to the prediction and management of coastal flooding in highly urbanised areas

University Grants Committee

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CAREER: Understanding and Designing Structures for Hurricane Wind and Surge Hazards under Changing Climate Conditions

Directorate for Engineering

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Scaling-Up: National Assessment of Emergency Response Accessibility During Flooding

Natural Environment Research Council

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Unlocking the potential of surface water flood nowcasting for emergency services in a changing climate

UK Research and Innovation

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Sustainable Solutions for Managing Compound Flood Risks under Future Uncertainties: The Case of Shanghai city and the Yangtze River Delta Region

Dutch Research Council

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History

School

  • Social Sciences and Humanities

Department

  • Geography and Environment

Published in

Nature Water

Volume

2

Issue

3

Pages

274-284

Publisher

Springer Nature

Version

  • AM (Accepted Manuscript)

Rights holder

© The Author(s), under exclusive licence to Springer Nature Limited

Publisher statement

This version of the article has been accepted for publication, after peer review (when applicable) and is subject to Springer Nature’s AM terms of use, but is not the Version of Record and does not reflect post-acceptance improvements, or any corrections. The Version of Record is available online at: https://doi.org/10.1038/s44221-024-00210-z

Acceptance date

2024-02-02

Publication date

2024-03-11

Copyright date

2024

eISSN

2731-6084

Language

  • en

Depositor

Prof Dapeng Yu. Deposit date: 15 March 2024

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