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Australian Fire Danger Rating System: implementing fire behaviour calculations to forecast fire danger in a research prototype†

B. J. Kenny, Stuart Matthews, Stéphane Sauvage, Saskia Grootemaat, J. J. Hollis, Paul Fox‐Hughes

2024International Journal of Wildland Fire15 citationsDOIOpen Access PDF

Abstract

Background The Australian Fire Danger Rating System (AFDRS) was implemented operationally throughout Australia in September 2022, providing calculation of fire danger forecasts based on peer-reviewed fire behaviour models. The system is modular and allows for ongoing incorporation of new scientific research and improved datasets. Aims Prior to operational implementation of the AFDRS, a Research Prototype (AFDRSRP), described here, was built to test the input data and systems and evaluate the performance and potential outputs. Methods Fire spread models were selected and aligned with fuel types in a process that captured bioregional variation in fuel characteristics. National spatial datasets were created to identify fuel types and fire history in alignment with existing spatial weather forecast layers. Key results The AFDRSRP demonstrated improvements over the McArthur Forest and Grass Fire Danger systems due to its use of improved fire behaviour models, as well as more accurately reflecting the variation in fuels. Conclusions The system design was robust and allowed for the incorporation of updates to the models and datasets prior to implementation of the AFDRS.

Topics & Concepts

Fire regimeRating systemMeteorologyBorealEnvironmental scienceWildfire suppressionEl Niño Southern OscillationAeronauticsForensic engineeringClimatologyFire protectionGeographyEngineeringGeologyArchaeologyCivil engineeringEcologyEcosystemEconomicsEnvironmental economicsBiologyFire effects on ecosystemsFire dynamics and safety researchDisaster Management and Resilience
Australian Fire Danger Rating System: implementing fire behaviour calculations to forecast fire danger in a research prototype† | Litcius