Areas ravaged by wildfire have increased susceptibility to mudslides and debris flows during heavy rains.
November 21, 2025
high
hazard
Burned vegetation and altered soil properties reduce slope stability and increase runoff, elevating post-fire landslide and debris-flow risk when heavy precipitation occurs.
Land areas recently burned by wildfires are more susceptible to mudslides, debris flows, and erosion during subsequent heavy rainfall or thunderstorms because loss of vegetation and altered soil properties reduce slope stability.
November 17, 2025
high
process
Explains how wildfire burn scars change landscape vulnerability to post-fire runoff and mass-wasting events.
Areas recently affected by wildfires are at increased risk of mudslides and debris flows during subsequent thunderstorms and heavy rainfall.
November 16, 2025
high
hazard
Loss of vegetation and altered soil conditions after wildfires make slopes more susceptible to rapid runoff and slope failure during heavy precipitation.
Areas of land burned by recent wildfires (burn scar areas) have increased susceptibility to debris flows and flash flooding during heavy rainfall.
November 15, 2025
high
process
Loss of vegetation and changes to soil properties after wildfires reduce slope stability and increase runoff, raising the risk of debris flows and flash floods when heavy rain occurs.
Wildfires can remove vegetation from hillsides, which reduces soil stability and increases the likelihood of debris flows, mudslides, and landslides during subsequent heavy rainfall.
October 14, 2025
high
hazard
Describes the general geophysical process linking burn scars to increased slope failure risk during storms.