Affiliation:
1. Institute of Sustainable Industries and Liveable Cities, Victoria University Melbourne, Footscray, VIC 3011, Australia
Abstract
The Forest Fire Danger Index (FFDI) is the main measure used in Australia for estimating fire risk. Recent work by the authors showed that the FFDI forms stable state regimes, nominated as fire climate regimes. These regimes shifted to greater intensity in southern and eastern Australia around the year 2000 and, a decade later, further north. Reductions in atmospheric moisture were the primary contributor. These changes have not been fully incorporated into future projections. This paper compares the recent regime shifts with the most recent national projections of FFDI, published in 2015. They show that for most states and regions, the 2030 upper limit is approached or exceeded by the recent shift, except for two states with large arid zones, South Australia and Western Australia. Methods for attributing past changes, constructing projections, and the inability of climate models to reproduce the recent decreases in atmospheric moisture, all contribute to these underestimates. To address these shortcomings, we make some suggestions to modify efforts aiming to develop seamless predictions and projections of future fire risk.
Reference65 articles.
1. Jones, R.N., and Ricketts, J.H. (2023). Identifying and Attributing Regime Shifts in Australian Fire Climates. Climate, 11.
2. Jones, R.N., and Ricketts, J.H. (2022). Regime changes in atmospheric moisture under climate change. Atmosphere, 13.
3. An even drier future for the arid lands;Allan;Proc. Natl. Acad. Sci. USA,2024
4. Observed humidity trends in dry regions contradict climate models;Simpson;Proc. Natl. Acad. Sci. USA,2024
5. Pyroconvection risk in Australia: Climatological changes in atmospheric stability and surface fire weather conditions;Dowdy;Geophys. Res. Lett.,2018