Add to ORKGClimate change is expected to alter the geographic distribution of wildfire, a complex abiotic process that responds to a variety of spatial and environmental gradients. How future climate change may alter global wildfire activity, however, is still largely unknown. As a first step to quantifying potential change in global wildfire, we present a multivariate quantification of environmental drivers for the observed, current distribution of vegetation fires using statistical models of the relationship between fire activity and resources to burn, climate conditions, human influence, and lightning flash rates at a coarse spatiotemporal resolution (100 km, over one decade). We then demonstrate how these statistical models can be used to project ...
Wildfires influence terrestrial carbon cycling and represent a safety risk, and yet a process-based ...
Fire impacts climate over wide spatial and temporal scales via many complex, interdependent, and oft...
In this study, components of the Max Planck Institute Earth System Model were used to explore how ch...
Climate change is expected to alter the geographic distribution of wildfire, a complex abiotic proce...
Climate change is expected to alter the geographic distribution of wildfire, a complex abiotic proce...
Future disruptions to fire activity will threaten ecosystems and human well-being throughout the wor...
Recent wildfire outbreaks around the world have prompted concern that climate change is increasing f...
Fire is an integral Earth system process, playing an important role in the distribution of terrestri...
Fire is a natural component of most ecosystems, and it has effects on vegetation, soil, water, atmos...
The occurrence of wildfires is very sensitive to fire meteorology, vegetation type and coverage. We ...
International audienceWildland fire is expected to increase in response to global warming, yet littl...
Wildfire is a natural and unavoidable feature of the environment in many terrestrial ecosystems and ...
Recent wildfire outbreaks around the world have prompted concern that climate change is increasing f...
e understanding of fire is limited largely to the annual extent of burning as detected by satellites...
Accurate process-based prediction of climate change effects on wildfires requires coupling processes...
Wildfires influence terrestrial carbon cycling and represent a safety risk, and yet a process-based ...
Fire impacts climate over wide spatial and temporal scales via many complex, interdependent, and oft...
In this study, components of the Max Planck Institute Earth System Model were used to explore how ch...
Climate change is expected to alter the geographic distribution of wildfire, a complex abiotic proce...
Climate change is expected to alter the geographic distribution of wildfire, a complex abiotic proce...
Future disruptions to fire activity will threaten ecosystems and human well-being throughout the wor...
Recent wildfire outbreaks around the world have prompted concern that climate change is increasing f...
Fire is an integral Earth system process, playing an important role in the distribution of terrestri...
Fire is a natural component of most ecosystems, and it has effects on vegetation, soil, water, atmos...
The occurrence of wildfires is very sensitive to fire meteorology, vegetation type and coverage. We ...
International audienceWildland fire is expected to increase in response to global warming, yet littl...
Wildfire is a natural and unavoidable feature of the environment in many terrestrial ecosystems and ...
Recent wildfire outbreaks around the world have prompted concern that climate change is increasing f...
e understanding of fire is limited largely to the annual extent of burning as detected by satellites...
Accurate process-based prediction of climate change effects on wildfires requires coupling processes...
Wildfires influence terrestrial carbon cycling and represent a safety risk, and yet a process-based ...
Fire impacts climate over wide spatial and temporal scales via many complex, interdependent, and oft...
In this study, components of the Max Planck Institute Earth System Model were used to explore how ch...