Floods, wildfires, heatwaves and droughts often result from a combination of interacting
physical processes across multiple spatial and temporal scales. The combination of …

Cloud drop condensation nuclei (CCN) and ice nuclei (IN) particles determine to a large
extent cloud microstructure and, consequently, cloud albedo and the dynamic response of …

New burned area datasets and top-down constraints from atmospheric concentration
measurements of pyrogenic gases have decreased the large uncertainty in fire emissions …

Wildland fire is a global phenomenon, and a result of interactions between climate–weather,
fuels and people. Our climate is changing rapidly primarily through the release of …

Long-term records of burned area are needed to understand wildfire dynamics, assess fire
impacts on ecosystems and air quality, and improve fire forecasts. Here we fuse multiple …

Climate 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 …

We provide an empirical, global test of the varying constraints hypothesis, which predicts
systematic heterogeneity in the relative importance of biomass resources to burn and …

Extreme weather and climate events have direct impacts on ecosystems and can further
trigger ecosystem disturbances, often having impacts that last longer than the event's …

This study sought to produce an accurate multi-hazard risk map for a mountainous region of
Iran. The study area is in southwestern Iran. The region has experienced numerous extreme …

Early global estimates of carbon emissions from biomass burning were based on empirical
assumptions of fire return interval in different biomes in the 1980s. Since then, significant …