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Future enhanced threshold effects of wildfire drivers could increase burned areas in northern mid- and high latitudes

Hang Zhao, Zhengxiang Zhang, Xin Wang, Shuo Zhen, Hongyan Zhang, Zhao‐Jun Bu, Jianjun Zhao, Xiaoyi Guo, K F Wei, Long Dong

2025Communications Earth & Environment12 citationsDOIOpen Access PDF

Abstract

Wildfires exhibit extensive nonlinear characteristics and threshold effects in response to environmental changes. However, how threshold effects affect wildfire responses and their future changes remains unclear. Here we identified thresholds where wildfire-driver relationships shift and estimated the impact of threshold effects on wildfire dynamics in the 21st century in northern mid- and high latitudes (>30°N). Wildfire-driver thresholds, coregulated by gradient differences in heat and moisture conditions, vegetation productivity, and human activities, effectively explain the spatial patterns and uneven responses of wildfires. Despite the dominance of temperature, precipitation, and socioeconomic status on wildfires, 30.70% of wildfire changes are attributed to their threshold effects, notably in boreal and temperate ecosystems. Climate change will enhance the threshold effects of wildfire drivers, leading to a 47.81 ± 3.08% increase in burned areas by 2030–2100 compared with 2001‒2022. Our findings highlight that enhanced threshold effects of drivers promote future wildfire changes, posing challenges to fire suppression. Future wildfire dynamics in boreal and temperate ecosystems could depend on threshold effects of climate change-related fire drivers, leading to an increase in burned areas of about 50% by 2100, according to an analysis of climate, vegetation and human activity data.

Topics & Concepts

LatitudeEnvironmental sciencePhysical geographyAtmospheric sciencesGeographyClimatologyGeologyGeodesyFire effects on ecosystemsRangeland and Wildlife ManagementAtmospheric and Environmental Gas Dynamics