Evaluating Adaptation Pathways in a Complex Multi-Risk System

Julius Schlumberger; Marjolijn Haasnoot; Jeroen C.J.H. Aerts; Veerle Bril; Lars van der Weide; Marleen de Ruiter

doi:10.1029/2023EF004288

Evaluating Adaptation Pathways in a Complex Multi-Risk System

Julius Schlumberger^*, Marjolijn Haasnoot, Jeroen C.J.H. Aerts, Veerle Bril, Lars van der Weide, Marleen de Ruiter

^*Corresponding author for this work

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

Disaster Risk Management (DRM) is complex due to interacting climate risks from interacting hazards and sectors. We develop a synthetic multi-risk test case to explore the effects of these interactions on decision-making under deep uncertainty. The test case accounts for changes in hazard impacts and occurrence frequency due to interactions between floods and droughts. Interactions between the shipping, housing and agricultural sectors are considered as well. We use this test case to explore the utility of the Dynamic Adaptive Policy Pathways for Multi-Risk (DAPP-MR) framework. DAPP-MR has been introduced to assess DRM policies' effectiveness under deep uncertainties and to develop integrated adaptive strategies considering interactions across hazards, sectors and time. With the test case, we show that the stage-wise approach of DAPP-MR, which gradually increases the complexity of the analysis, can facilitate the evaluation process. Earlier stages of the analysis can be used to establish the direct cause-effect relations, later stages allow us to identify whether additional interacting factors have a significant effect on the direct cause-effect relations. As a result, decision-makers can gain insights into dependencies and their relevance for developing short-to long-term strategies under deep uncertainty. We show that multi-risk interactions can lead to non-linear effects that influence the outcome of the policy analysis, for example, the indirect influence of a decision in one sector on another. Future work could investigate further improving the operationalization of this staged approach as well as extending the set of uncertainties, dynamics and decision-rules accounted for in the multi-risk test case.

Original language	English
Article number	e2023EF004288
Pages (from-to)	1-18
Number of pages	18
Journal	Earth's Future
Volume	12
Issue number	5
Early online date	28 May 2024
DOIs	https://doi.org/10.1029/2023EF004288
Publication status	Published - May 2024

Bibliographical note

Publisher Copyright:
© 2024. The Authors. Earth's Future published by Wiley Periodicals LLC on behalf of American Geophysical Union.

Funding

JS, MH and MdR have been supported in this research by the European Union's Horizon 2020 research and innovation programme (Grant 101003276) as part of the MYRIAD_EU project. JA has been supported in this work by the ERC Grant COASTMOVE, Grant 884442. The work reflects only the author's view and the agency is not responsible for any use that may be made of the information it contains. We thank SURF ( www.surf.nl ) for the support in using the National Supercomputer Snellius. The authors wish to acknowledge Kukuh Wachyu Bias, coloripop, Adrien Coquet, Hary Murdiono JS, Amelia, Luis Prado, Alex Burte, shashank singh, Eucalyp, Symbolon, Ian Rahmadi Kurniawan, Ralf Schmitzer andre Buand, ProSymbols, M. Oki Orlando and Nurul Hotimah for the icons made available through https://thenounproject.com/ used in our figures, which are available under the Creative Commons Attribution 3.0 Unported License (CC BY 3.0). We furthermore want to thank Sarah Wright for the editorial proof\u2010reading and the two anonymous reviewers and the editor for their constructive and in\u2010depth feedback that helped to improve the quality of the article. JS, MH and MdR have been supported in this research by the European Union's Horizon 2020 research and innovation programme (Grant 101003276) as part of the MYRIAD_EU project. JA has been supported in this work by the ERC Grant COASTMOVE, Grant 884442. The work reflects only the author's view and the agency is not responsible for any use that may be made of the information it contains. We thank SURF (www.surf.nl) for the support in using the National Supercomputer Snellius. The authors wish to acknowledge Kukuh Wachyu Bias, coloripop, Adrien Coquet, Hary Murdiono JS, Amelia, Luis Prado, Alex Burte, shashank singh, Eucalyp, Symbolon, Ian Rahmadi Kurniawan, Ralf Schmitzer andre Buand, ProSymbols, M. Oki Orlando and Nurul Hotimah for the icons made available through https://thenounproject.com/ used in our figures, which are available under the Creative Commons Attribution 3.0 Unported License (CC BY 3.0). We furthermore want to thank Sarah Wright for the editorial proof-reading and the two anonymous reviewers and the editor for their constructive and in-depth feedback that helped to improve the quality of the article.

Funders	Funder number
European Commission
Horizon 2020	101003276
Horizon 2020
European Research Council	884442
European Research Council
SURF	CC BY 3.0

Keywords

adaptation pathways
case study
disaster risk management
multi-hazard
multi-risk
multi-sector

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10.1029/2023EF004288

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Cite this

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Evaluating Adaptation Pathways in a Complex Multi-Risk System

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