Litcius/Paper detail

Wildfire risk, post-fire debris flows, and transportation infrastructure vulnerability

Andrew Fraser, Mikhail Chester, B. Shane Underwood

2020Sustainable and Resilient Infrastructure41 citationsDOI

Abstract

Wildfires have grown in number, size and intensity in the American West and forecasts predict worsening trends. Evidence mounts that post-fire debris flows pose a major hazard to infrastructure, particularly roadways. Vulnerabilities of assets to post-fire flows requires consideration of geologic, vegetative, and hydrologic conditions. A model that considers environmental conditions, post-fire effects, and transportation asset use is developed, and applied to a fire prone region in Arizona. 17% of watersheds have a greater than 20% chance of post-fire debris movements and flooding under a minor precipitation event. Additionally, there is a greater than 50% probability of post-fire debris flows where recent fires have occurred, validating the underlying model. The model shows the vulnerability of infrastructure to environmental and technological variables, drawing attention to the need to manage the risk as a broader system.

Topics & Concepts

DebrisDebris flowVulnerability (computing)Environmental scienceFlooding (psychology)HazardPrecipitationEnvironmental resource managementHydrology (agriculture)GeographyMeteorologyGeologyComputer scienceGeotechnical engineeringComputer securityPsychotherapistOrganic chemistryPsychologyChemistryFire effects on ecosystemsFire dynamics and safety researchLandslides and related hazards