Mitigating increasing wildfire risk through fuel break innovations
Nicholas T. Link, Jill F. Johnstone, Xanthe J. Walker, Felecia Amundsen, Hazel K. Berrios, Luc Bibeau, Dorothy Cooley, Ann C. Erickson, Carla Johnston, Joseph M. Little, Nathan Lojewski, Alison D. Perrin, Carly A. Phillips, Stefano Potter, Daniel C. Rees, Lisa B. Saperstein

TL;DR
The paper explores innovative fuel break designs to reduce wildfire risks while providing ecological and socio-economic benefits in boreal regions.
Contribution
The study introduces four new fuel break scenarios that offer co-benefits through community collaboration and scientific input.
Findings
Public listening sessions identified desired co-benefits for fuel breaks in boreal communities.
Four innovative fuel break designs were developed that maintain wildfire utility while offering additional benefits.
These designs can help communities adapt to climate change by providing multiple services.
Abstract
A warming climate and expanding wildland urban interface are escalating wildfire risk to human life and property in the boreal forests of western North America. To address this heightened risk, fuel breaks, which reduce fuels and enhance tactical use by firefighters, are increasingly being installed around northern communities. However, the current design and implementation of fuel breaks have social and ecological trade-offs that undermine wider acceptance and adoption. Creative fuel break designs could address these trade-offs by supporting complementary activities with ecological and socio-economic values—termed co-benefits—while maintaining tactical use for wildfire operations. Here, we report results from public listening sessions that recorded desired co-benefits from boreal residents. Through collaboration among scientists, land managers, and local communities, we developed four…
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Taxonomy
TopicsFire effects on ecosystems · Fire Detection and Safety Systems · Fire dynamics and safety research
