Deforestation exacerbates climate change through greenhouse gas emissions, but other climatic alterations linked to the local biophysical changes from deforestation remain poorly understood. Here, we assess the impact of tropical deforestation on fire weather risk—defined as the climate conditions conducive to wildfires—using high-resolution convection-permitting climate simulations. We consider two land cover scenarios for the island of Borneo: land cover in 1980 (forest scenario) and land cover in 2050 (deforestation scenario) to force a convection-permitting climate model, using boundary conditions from ERA-Interim reanalysis for the 2002–2016 period. Our findings revealed significant alterations in post-deforestation fire precursors suc...
Globally, many parts of fire emissions are driven by deforestation. However, few studies have attemp...
Local-scale microclimatic conditions in forest understoreys play a key role in shaping the compositi...
Local-scale microclimatic conditions in forest understoreys play a key role in shaping the compositi...
Deforestation exacerbates climate change through greenhouse gas emissions, but other climatic altera...
Both deforestation and El Niño events influence Borneo's climate, but their interaction is not well ...
Both deforestation and El Niño events influence Borneo's climate, but their interaction is not well ...
[1] Numerous studies with general circulation models suggest that tropical deforestation can result ...
Drainage of peatlands and deforestation have led to large-scale fires in equatorial Asia, affecting ...
Tropical rainforests, naturally resistant to fire when intact, are increasingly vulnerable to burnin...
The equatorial island of Borneo is a deforestation hotspot. However, the influence of forest loss on...
Tropical rainforests, naturally resistant to fire when intact, are increasingly vulnerable to burnin...
Borneo's diverse ecosystems, which are typical humid tropical conditions, are deteriorating rapidly,...
During El Niño years, fires in tropical forests and peatlands in equatorial Asia create large region...
Sumatra and Borneo are areas consisting of rainforests with a high vulnerability to fire. Both areas...
Globally, many parts of fire emissions are driven by deforestation. However, few studies have attemp...
Local-scale microclimatic conditions in forest understoreys play a key role in shaping the compositi...
Local-scale microclimatic conditions in forest understoreys play a key role in shaping the compositi...
Deforestation exacerbates climate change through greenhouse gas emissions, but other climatic altera...
Both deforestation and El Niño events influence Borneo's climate, but their interaction is not well ...
Both deforestation and El Niño events influence Borneo's climate, but their interaction is not well ...
[1] Numerous studies with general circulation models suggest that tropical deforestation can result ...
Drainage of peatlands and deforestation have led to large-scale fires in equatorial Asia, affecting ...
Tropical rainforests, naturally resistant to fire when intact, are increasingly vulnerable to burnin...
The equatorial island of Borneo is a deforestation hotspot. However, the influence of forest loss on...
Tropical rainforests, naturally resistant to fire when intact, are increasingly vulnerable to burnin...
Borneo's diverse ecosystems, which are typical humid tropical conditions, are deteriorating rapidly,...
During El Niño years, fires in tropical forests and peatlands in equatorial Asia create large region...
Sumatra and Borneo are areas consisting of rainforests with a high vulnerability to fire. Both areas...
Globally, many parts of fire emissions are driven by deforestation. However, few studies have attemp...
Local-scale microclimatic conditions in forest understoreys play a key role in shaping the compositi...
Local-scale microclimatic conditions in forest understoreys play a key role in shaping the compositi...