Wildland fires are inevitable in the western United States. Expansion of human development into forested areas has created a situation where wildfires can adversely affect lives and property, as can the flooding and landslides that occur in the aftermath of the fires. There is a need to develop tools and methods to identify and quantify the potential hazards posed by landslides produced from burned watersheds. Post-fire landslide hazards include fast-moving, highly destructive debris flows that can occur in the years immediately after wildfires in response to high intensity rainfall events, and those flows that are generated over longer time periods accompanied by root decay and loss of soil strength. Post-fire debris flows are particularly hazardous because they can occur with little warning, can exert great impulsive loads on objects in their paths, can strip vegetation, block drainage ways, damage structures, and endanger human life. Wildfires could potentially result in the destabilization of pre-existing deep-seated landslides over long time periods.
The focus of this project is to develop tools and methods for the prediction of postwildfire landslide activity and hazard delineation. Personnel dealing with post-fire rehabilitation and emergency planning need tools to determine the both the probability and magnitude of such potentially destructive events, so we have developed methods to predict which basins might produce post-fire debris flows, and how big these events might be. By utilizing these methods, federal, state, and local land-management agencies can tailor debris-flow specific mitigation efforts to watersheds that are the most prone to the largest debris-flow events.
- Emergency Assessment of Post-fire Debris-Flow Hazards
- NOAA/USGS Flash-Flood and Debris-Flow Early Warning System
- Monitoring Post-Fire Flash Floods and Debris Flows
- Wildfires and Debris Flows in Southern California