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One extreme fire weather event determines the extent and frequency of wildland fires

Xianli Wang, Tom Swystun, Jacqueline Oliver, Mike Flannigan

2021Environmental Research Letters18 citationsDOIOpen Access PDF

Abstract

Abstract Understanding climate change impacts on wildland fire activity has been constrained by the high uncertainty embedded in the prediction of fire size (FS), annual number of fires (ANF), and annual area burned (AAB). While there has been a sustained effort to make connections between fire weather and fire activity, most studies have focused on individual parameters instead of treating them as a connected group. This study explores the intrinsic relationships among the major parameters of fire activity and how they relate to fire-conducive weather conditions to determine optimal prediction models. We found maximum number of fire spread days and maximum FS best predict ANF and AAB, respectively. Assessing the robustness of these relationships across Canada’s ecozones showed they are stronger in the Cordillera than in the Shields and Plains and more universal for AAB than for ANF. We also found skewness of FS distributions may play an important role in relationship strength. These relationships provide a unique way to model future fire activities under changing climate conditions.

Topics & Concepts

Environmental scienceClimate changeSkewnessRobustness (evolution)Extreme weatherClimatologyMeteorologyAtmospheric sciencesGeographyEconometricsMathematicsEcologyGeologyBiochemistryBiologyGeneChemistryFire effects on ecosystemsLandslides and related hazardsPlant Water Relations and Carbon Dynamics
One extreme fire weather event determines the extent and frequency of wildland fires | Litcius