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Proposing DAPP-MR as a disaster risk management pathways framework for complex, dynamic multi-risk.

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Area of Science:

  • Environmental Science
  • Climate Science
  • Risk Management

Background:

  • Climate change amplifies risks through compounding, interacting, and cascading effects across multiple sectors.
  • Existing Disaster Risk Management (DRM) approaches struggle to address the complex interactions of underlying risk drivers.

Purpose of the Study:

  • To tailor the Dynamic Adaptive Policy Pathways (DAPP) approach for designing DRM strategies in complex, multi-risk, multi-sector systems.
  • To introduce a framework that explicitly accounts for interactions, trade-offs, and synergies in multi-risk management.

Main Methods:

  • Reviewing multi-hazard and multi-sector research to inform multi-risk management frameworks.
  • Adapting the DAPP approach to DAPP-MR by incorporating iterative stages to capture cross-sectoral and cross-hazard dynamics.
  • Illustrating the DAPP-MR approach with a stylized case study.

Main Results:

  • Rearranging DAPP analytical steps with three iteration stages effectively captures interactions, trade-offs, and synergies across hazards and sectors.
  • DAPP-MR demonstrates suitability for guiding multi-sector processes in stepwise knowledge integration for multi-risk management.

Conclusions:

  • DAPP-MR provides an analytical foundation for developing integrated, interactive, and operational frameworks for short-to-long-term multi-risk DRM.
  • The approach facilitates a more comprehensive understanding and management of climate change-induced risks in interconnected systems.