We present an assessment of the impact of future climate change on two key drivers of fire risk in Australia, fire weather and fuel load. Fire weather conditions are represented by the McArthur Forest Fire Danger Index (FFDI), calculated from a 12-member regional climate model ensemble. Fuel load is predicted from net primary production, simulated using a land surface model forced by the same regional climate model ensemble. Mean annual fine litter is projected to increase across all ensemble members, by 1.2 to 1.7 t ha−1 in temperate areas, 0.3 to 0.5 t ha−1 in grassland areas and 0.7 to 1.1 t ha−1 in subtropical areas. Ensemble changes in annual cumulative FFDI vary widely, from 57 to 550 in temperate areas, −186 to 1372 in grassland area...
Fire regimes are changing across the globe in response to complex interactions between climate, fuel...
Despite the importance of prescribed burning in contemporary fire management, there is little unders...
Prescribed burning is used globally to mitigate the risks of wildfires, with severe wildfires increa...
We present an assessment of the impact of future climate change on two key drivers of fire risk in A...
Despite considerable environmental and social impacts of bushfire, there are no high resolution, spa...
High-resolution projections of climate change impacts on fire weather conditions in southeast Austra...
Skill-selected global climate models were used to explore the effect of future climate change on reg...
Abstract We explore the impact of future climate change on the risk of forest and grassland fires ov...
Extreme wildfires have recently caused disastrous impacts in Australia and other regions of the worl...
Climate and fuel characteristics influence fire regimes, and both need to be realistically considere...
A data set of observed fire weather in Australia from 1973–2010 is analysed for trends using the McA...
The southwest of Western Australia (SWWA) is prone to bushfires, and these have significant social, ...
There is mounting evidence that warmer and drier climates will result in an increase in fire activit...
Changes to the frequency of fire due to management decisions and climate change have the potential t...
Changes to the frequency of fire due to management decisions and climate change have the potential t...
Fire regimes are changing across the globe in response to complex interactions between climate, fuel...
Despite the importance of prescribed burning in contemporary fire management, there is little unders...
Prescribed burning is used globally to mitigate the risks of wildfires, with severe wildfires increa...
We present an assessment of the impact of future climate change on two key drivers of fire risk in A...
Despite considerable environmental and social impacts of bushfire, there are no high resolution, spa...
High-resolution projections of climate change impacts on fire weather conditions in southeast Austra...
Skill-selected global climate models were used to explore the effect of future climate change on reg...
Abstract We explore the impact of future climate change on the risk of forest and grassland fires ov...
Extreme wildfires have recently caused disastrous impacts in Australia and other regions of the worl...
Climate and fuel characteristics influence fire regimes, and both need to be realistically considere...
A data set of observed fire weather in Australia from 1973–2010 is analysed for trends using the McA...
The southwest of Western Australia (SWWA) is prone to bushfires, and these have significant social, ...
There is mounting evidence that warmer and drier climates will result in an increase in fire activit...
Changes to the frequency of fire due to management decisions and climate change have the potential t...
Changes to the frequency of fire due to management decisions and climate change have the potential t...
Fire regimes are changing across the globe in response to complex interactions between climate, fuel...
Despite the importance of prescribed burning in contemporary fire management, there is little unders...
Prescribed burning is used globally to mitigate the risks of wildfires, with severe wildfires increa...