The missing fire: quantifying human exclusion of wildfire in Pacific Northwest forests, USA

Ryan D Haugo,Christina M Restaino,Kerry L Metlen,Nicole M Vaillant,James C Robertson,C Alina Cansler,Bryce S Kellogg,Crystal A Kolden,Kerry B Kemp

doi:10.1002/ecs2.2702

Abstract

AbstractWestern U.S. wildfire area burned has increased dramatically over the last half‐century. How contemporary extent and severity of wildfires compare to the pre‐settlement patterns to which ecosystems are adapted is debated. We compared large wildfires in Pacific Northwest forests from 1984 to 2015 to modeled historic fire regimes. Despite late twentieth‐century increases in area burned, we show that Pacific Northwest forests have experienced an order of magnitude less fire over 32 yr than expected under historic fire regimes. Within fires that have burned, severity distributions are disconnected from historical references. From 1984 to 2015, 1.6 M ha burned; this is 13.3–18.9 M ha less than expected. Deficits were greatest in dry forest ecosystems adapted to frequent, low‐severity fire, where 7.2–10.3 M ha of low‐severity fire was missing, compared to a 0.2–1.1 M ha deficit of high‐severity fire. When these dry forests do burn, we observed that 36% burned with high‐severity compared to 6–9% historically. We found smaller fire deficits, 0.3–0.6 M ha, within forest ecosystems adapted to infrequent, high‐severity fire. However, we also acknowledge inherent limitations in evaluating contemporary fire regimes in ecosystems which historically burned infrequently and for which fires were highly episodic. The magnitude of contemporary fire deficits and disconnect in burn severity compared to historic fire regimes have important implications for climate change adaptation. Within forests characterized by low‐ and mixed‐severity historic fire regimes, simply increasing wildfire extent while maintaining current trends in burn severity threatens ecosystem resilience and will potentially drive undesirable ecosystem transformations. Restoring natural fire regimes requires management that facilitates much more low‐ and moderate‐severity fire.

Highlights

Fire is a ubiquitous, driving force in ecosystems across the globe with tremendous ecological, social, and economic impacts (Bowman et al.2009)
The Klamath Mountains ecoregion experienced both the greatest overall percentage of total forested area burned in contemporary large wildfires (17%) as well as the greatest fire deficit, with 354,000 ha observed forested area burned compared to an expected burned area range of 4.2–5.0 M ha (Fig. 3; Appendix S1: Table S3)
Observed severity disproportionate to expected severity across fire regimes and ecoregions Across the Pacific Northwest, trends were largely driven by the lack of contemporary lowseverity fire in Fire Regime Group I (FRG I) forests (Fig. 3, Table 4)

Summary

Introduction

Fire is a ubiquitous, driving force in ecosystems across the globe with tremendous ecological, social, and economic impacts (Bowman et al.2009). A significant post-European settlement fire deficit or debt (Lutz et al 2009) has been observed for western U.S forests in millennial-scale reconstructions of climate–fire relationships (Marlon et al 2012, Parks et al 2015, Reilly et al 2017). These deficits are largely attributed to twentieth-century management practices, including wildfire suppression and extensive grazing and logging (Hessburg and Agee 2003)

Methods

Results

Conclusion