Timing of susceptibility to post-fire debris flows in the western USA

Environmental & Engineering Geoscience
By: , and 



Watersheds recently burned by wildfires can have an increased susceptibility to debris flow, although little is known about how long this susceptibility persists, and how it changes over time. We here use a compilation of 75 debris-flow response and fire-ignition dates, vegetation and bedrock class, rainfall regime, and initiation process from throughout the western U.S. to address these issues. The great majority (85 percent) of debris flows occurred within the first 12 months following wildfire, with 71 percent within the first six months. Seven percent of the debris flows occurred between 1 and 1.5 years after a fire, or during the second rainy season to impact an area. Within the first 1.5 years following fires, all but one of the debris flows initiated through runoff-dominated processes, and debris flows occurred in similar proportions in forested and non-forested landscapes. Geologic materials affected how long debris-flow activity persisted, and the timing of debris flows varied within different rainfall regimes. A second, later period of increased debris flow susceptibility between 2.2 and 10 years after fires is indicated by the remaining 8 percent of events, which occurred primarily in forested terrains and initiated largely through landslide processes. The short time period between fire and debris-flow response within the first 1.5 years after ignition, and the longer-term response between 2.2 and 10 years after fire, demonstrate the necessity of both rapid and long-term reactions by land managers and emergency-response agencies to mitigate hazards from debris flows from recently burned areas in the western U.S.

Study Area

Publication type Article
Publication Subtype Journal Article
Title Timing of susceptibility to post-fire debris flows in the western USA
Series title Environmental & Engineering Geoscience
DOI 10.2113/EEG-1677
Volume 21
Issue 4
Year Published 2015
Language English
Publisher Association of Environmental and Engineering Geologists
Contributing office(s) Geologic Hazards Science Center
Description 16 p.
First page 277
Last page 292
Country United States
Google Analytic Metrics Metrics page
Additional publication details