Approaching the Challenge of Multi-phase, Multi-hazard Volcanic Impact Assessment Through the Lens of Systemic Risk: Application to Taranaki Mounga

Author:

Weir Alana1ORCID,Wilson Thomas M.2,Bebbington Mark S.3,Beaven Sarah2,Gordon Teresa4,Campbell-Smart Craig5,Mead Stuart3,Williams James H.2,Fairclough Roger6

Affiliation:

1. University of Canterbury School of Earth and Environment

2. University of Canterbury

3. Massey University

4. New Zealand Ministry for Primary Industries

5. Taranaki Civil Defence and Emergency Management

6. Neo Leaf Global Ltd

Abstract

Abstract Effective volcanic impact and risk assessment underpins effective volcanic disaster risk management. Yet contemporary volcanic risk assessments face a number of challenges, including delineating hazard and impact sequences, and identifying and quantifying systemic risks. A more holistic approach to impact assessment is required, which incorporates the complex, multi-hazard nature of volcanic eruptions and the dynamic nature of vulnerability before, during and after a volcanic event. Addressing this need requires a multidisciplinary, integrated approach, involving scientists and stakeholders to co-develop decision-support tools that are scientifically credible and operationally relevant to provide a foundation for robust, evidence-based risk reduction decisions. This study presents a dynamic, longitudinal impact assessment framework for multi-phase, multi-hazard volcanic events, and applies the framework to interdependent critical infrastructure networks in the Taranaki region of Aotearoa New Zealand, where Taranaki Mounga volcano has a high likelihood of producing a multi-phase explosive eruption within the next 50 years. In the framework, multi-phase scenarios temporally alternate multi-hazard footprints with risk reduction opportunities. Thus direct and cascading impacts, and any risk management actions, carry through to the next phase of activity. The framework forms a testbed for more targeted mitigation and response planning, and allows the investigation of optimal intervention timing for mitigation strategies during an evolving eruption. Using ‘risk management’ scenarios, we find the timing of mitigation intervention to be crucial in reducing disaster losses associated with volcanic activity. This is particularly apparent in indirect, systemic losses that cascade from direct damage to infrastructure assets. This novel, dynamic impact assessment approach addresses the increasing end-user need for impact-based decision-support tools that inform robust response and resilience planning.

Publisher

Research Square Platform LLC

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