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Increasing aridity causes larger and more severe forest fires across Europe

Marc Grünig, Rupert Seidl, Cornelius Senf

2022Global Change Biology151 citationsDOIOpen Access PDF

Abstract

Abstract Area burned has decreased across Europe in recent decades. This trend may, however, reverse under ongoing climate change, particularly in areas not limited by fuel availability (i.e. temperate and boreal forests). Investigating a novel remote sensing dataset of 64,448 fire events that occurred across Europe between 1986 and 2020, we find a power‐law relationship between maximum fire size and area burned, indicating that large fires contribute disproportionally to fire activity in Europe. We further show a robust positive correlation between summer vapor pressure deficit and both maximum fire size ( R 2 = .19) and maximum burn severity ( R 2 = .12). Europe's fire regimes are thus highly sensitive to changes in future climate, with the probability for extreme fires more than doubling by the end of the century. Our results suggest that climate change will challenge current fire management approaches and could undermine the ability of Europe's forests to provide ecosystem services to society.

Topics & Concepts

BorealClimate changeTaigaEnvironmental scienceTemperate climateAridFire regimeEcosystemClimatologyPhysical geographyTemperate rainforestGeographyEcologyForestryArchaeologyGeologyBiologyFire effects on ecosystemsFire dynamics and safety researchLandslides and related hazards
Increasing aridity causes larger and more severe forest fires across Europe | Litcius