How Does Fire Suppression Alter the Wildfire Regime? A Systematic Review

Hai, Jiaying; Zhang, Ling; Gao, Cong; Wang, Han; Wu, Jiansheng

doi:10.3390/fire6110424

Cited by 2 publications

(1 citation statement)

References 127 publications

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“…The finding here that fires are less severe recently than historically refutes the theory that fire suppression is leading to more severe fires, that must be suppressed, in dry forests. This theory is the "wildfire paradox," that the more effective fire suppression is, the more severe future fires will be [24]. However, fire suppression did not lead to more severe fires, but is instead likely simply why recent FRs are longer than historical FRs for all fire severities, including high-severity fires.…”

Section: Management Implicationsmentioning

confidence: 99%

Contemporary Wildfires Not More Severe Than Historically: More Fire of All Severities Needed to Sustain and Adapt Western US Dry Forests as Climate Changes

Baker

2024

Sustainability

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Fire-adapted dry forests and nearby communities both need to be sustained as climate changes. Wildfires have increased in the ~25.5 million ha of dry forests in the western US, but are wildfires already more severe than historical (preindustrial) wildfires, warranting suppression, or is more fire needed? Recent research suggests that a higher percentage are more severe, but is this from more high-severity fire (≥70% mortality) or simply less lower-severity fire? To resolve this question, I compared government fire-severity data from 2000–2020 with corresponding government Landfire historical data, representing the last few centuries. The fire rotation (expected time to burn across an area of interest) for high-severity fire was 477 years recently versus 255 years historically, a deficit, not a surplus. High-severity fire would need to increase 1.9 times to equal historical rates. Thus, reducing high-severity fire through fuel reductions is fire suppression, which has significant well-known adverse ecological impacts. These include reductions in (1) natural burn patches, snags, and non-forest openings, that favor diverse fire-adapted species, and (2) landscape heterogeneity that can limit future disturbances and enhance landscape ecological processes. Even larger deficits were in moderate (4.4 times) and low (5.8 times) fire severities. However, if only these lower severities were restored, the high-severity percentage would correspondingly be reduced to low levels. All fire severities are needed to provide a variety of post-fire settings that favor a broad suite of selection pressures and adaptations to emerging climate. This paper shows that to sustain and adapt dry forests and nearby communities to fire and climate change, the billions spent on fuel reductions to reduce high-severity fire can be redirected to protecting the built environment, fostering both safe and sustainable dry forests and human communities.

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Section: Management Implicationsmentioning

confidence: 99%

Contemporary Wildfires Not More Severe Than Historically: More Fire of All Severities Needed to Sustain and Adapt Western US Dry Forests as Climate Changes

Baker

2024

Sustainability

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Multiple disturbances, multiple legacies: Fire, canopy gaps and deer jointly change the forest seed bank

Reed,

Royo,

Carson

et al. 2024

Journal of Ecology

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Disturbance regimes, like low‐intensity fire, canopy gaps and ungulate browsing, play a critical role in determining ecological composition and structure in temperate forests around the world. Each disturbance (or lack thereof) can lead to unique plant communities, but we do not understand how combined disturbances change plant diversity and the resulting soil seed bank. Changes in the soil seed bank, which depend on the plants that survive post‐disturbance, can then influence future biodiversity and succession. We used a long‐term experiment in West Virginia, USA, that factorially manipulated low‐intensity fire, deer exclusion and canopy gaps. Thirteen years after disturbance initiation, we sampled the seed bank from each disturbance treatment. We found that low‐intensity fire led to increased seed bank density, with additional canopy gaps and deer exclusion each creating unique seed bank communities. Combined fire, canopy gaps and deer presence led to high seed bank diversity and the most unique seed communities, while canopy gaps and deer had no effect on seed banks unless the area was previously burned. In contrast, combined fire, canopy gaps and deer exclusion led to the lowest seed bank diversity of all treatments, reflecting the continued legacy of extant plants that grew immediately after disturbance. Seed communities were also distinct from extant understory species over 13 years, regardless of disturbance treatment. Each reintroduced disturbance combination left a unique legacy in the seed bank that will likely influence future forest reorganization following disturbances, adding to our understanding of how multiple disturbances influence forest succession and organization. Synthesis. Forest disturbance regimes have changed around the world and are being restored or manipulated to support biodiversity. Reintroduction of disturbance leads to unique plant communities, but we do not understand how combined disturbances change the soil seed bank. Using an experiment that manipulates low‐intensity fire, canopy gaps and deer exclusion, we find that combinations of these experimental treatments leads to substantially different seed communities. These disturbance‐altered seed banks will likely influence future biodiversity and successional patterns, highlighting how the restoration of disturbance can strongly and indirectly influence temperate forest community dynamics.

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How Does Fire Suppression Alter the Wildfire Regime? A Systematic Review

Cited by 2 publications

References 127 publications

Contemporary Wildfires Not More Severe Than Historically: More Fire of All Severities Needed to Sustain and Adapt Western US Dry Forests as Climate Changes

Contemporary Wildfires Not More Severe Than Historically: More Fire of All Severities Needed to Sustain and Adapt Western US Dry Forests as Climate Changes

Multiple disturbances, multiple legacies: Fire, canopy gaps and deer jointly change the forest seed bank

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