November 22, 2021
The 2019-20 mega-fires: what did we learn and will it equip us for the future?
Rate of change in fire risk outstripping the capacity of ecological and social systems to adapt
The 2019-20 mega-fires were some of the worst in the world and in recorded history. 1.8 million hectares burned in high-severity fires during Australia鈥檚 Black Summer. The fire behaviour took even experienced firefighters by surprise.
The Australian Black Summer fires are now emblematic of the catastrophic harm wrought by climate change.
Exceptionally dry conditions and lack of soil moisture contributed to the intensity and longevity of the fire season. Similarly extreme wildfire seasons continue to unfold across the globe, including during 2021.
, former Director of the Centre for Environmental Risk Management of Bushfires (CERMB) at the 精东传媒 of 精东传媒 (UOW) and the , and Dr Rachael Nolan from the Hawkesbury Institute for the Environment at Western Sydney 精东传媒, will deliver a keynote presentation at the today (22 November), to pose the question The 2019-20 mega-fires: what did we learn and will it equip us for the future?
The presentation outlines causes, impacts and responses to the 2019-20 fires, which acutely affected forests and woodlands across the south east of the continent.
鈥淲e foreshadow the challenges and responses likely to be required if the 2019-20 season is a harbinger of the future across temperate, southern Australia. Overwhelmingly, these fires were due to extreme climatic circumstances,鈥 Professor Bradstock said.
The management responses, including prescribed burns and suppression, proved partially effective in reducing fire severity and house loss, but such effects were constrained due to extreme weather conditions.
鈥淚mpacts were disproportionately borne by socially disadvantaged regional communities, however, urban populations were strongly affected by prolonged smoke exposure,鈥 Professor Bradstock said.
鈥淭he fires produced large carbon emissions, and exposed large areas of ecosystems and their constituent biodiversity to components of the fire regime that render them vulnerable to decline.鈥
Professor Bradstock is a global leader in bushfire research amid a rapidly changing climate.
In 2006, Professor Bradstock co-established CERMB a multi-disciplinary research team dedicated to the development of a quantitative understanding of risks posed by bushfires and how such risks may be mitigated through cost-effective management.
Professor Bradstock and Dr Nolan argue that the rate of change in fire risk delivered by climate change is outstripping the capacity of our ecological and social systems to adapt.
鈥淰erification of the magnitude of potential impacts from shifting fire regimes is urgently required to understand how climate change and fire will reshape the structure and composition of the forests and woodlands of southern Australia,鈥 Professor Bradstock said.
鈥淎 multi-lateral approach is required to mitigate future fire risk that incorporates new dimensions to complement mainstream fire management capacity.鈥
The charred remains of a forest following the bushfires that tore through the Shoalhaven. Photo: PAUL JONES
Professor Bradstock has worked extensively with government agencies and the community to help improve our understanding and capacity to coexist with fire. He has served as an expert witness at two Royal Commissions and led a major technical project that supported the NSW Independent Bushfire Inquiry during 2020.
Largely due to his efforts, UOW is now home to the most highly regarded bushfire research group in Australia.
The keynote presentation is part of the 61st Annual Conference of the Ecological Society of Australia (ESA). In 2021, the online ESA2021 conference theme is 鈥楻enewal鈥.