A methodology for assessing multiple hazards applied to Sweden

• Published in: International journal of disaster risk reduction Vol. 114; p. 104934
• Main Authors: Björck, Johan, McNamee, Margaret, Wahlqvist, Jonathan, Larson, Magnus, Inamdeen, Fainaz
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.11.2024
• Subjects: Fire and rescue service; Flooding; Multi-hazard index assessment; Natural hazards; Wildfires; Multi-hazard index assessment; Wildfires; Natural hazards; Flooding; Fire and rescue service
• ISSN: 2212-4209; 2212-4209
• DOI: 10.1016/j.ijdrr.2024.104934

Despite extensive efforts through various international initiatives to reduce global warming, it has been determined that human induced climate change is here, that the present scale of disruption of the climate is unprecedented and will continue. Increasing weather volatility can be expected, which will most likely increase exposure to weather related hazards, e.g. wildfires, flooding. The aim of this paper is to present an index-based multi-hazard risk assessment method to assess wildfires and flooding hazard for two municipalities within Sweden. The method is designed to be used by the Fire and Rescue Service (FRS) for planning purposes and can be modified to take the local FRS's capabilities and local conditions into account, thereby improving hazard preparedness at a local level. The analysis presented indicates that, while the frequency of multi-hazard overlap from wildfires and flooding is greatest in more northern parts of Sweden, the method provides important information even when applied to areas with limited overlap. A variation of the hazard assessment using a box kernel sliding window was studied to investigate the sensitivity of the model for rapid variations of an individual hazard level. Given that resource needs will typically spread over several days for large scale natural hazards, the box kernel approach is valuable in helping to identify a span of days when resources associated with incident response might be needed. In the future, the model should be expanded to include additional single hazards, the application to additional municipalities and extension to FRS planning exercises for natural hazards. •The present scale of disruption of the climate is unprecedented.•Increased weather volatility gives increased exposure to weather related hazards.•A multi-hazard method is described and exemplified for two Swedish municipalities.•The method is for Fire and Rescue Service (FRS) planning.•The method can incorporate local geographical data and meteorological projections.