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Cascadia Burning: The historic, but not historically unprecedented, 2020 wildfires in the Pacific Northwest, USA

Reilly, Matthew J. ; Zuspan, Aaron ; Halofsky, Joshua S. ; [et al.]

Wiley ; 2022

In: Ecosphere Vol. 13, No. 6 ( 2022-06)

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In: Ecosphere, Wiley, Vol. 13, No. 6 ( 2022-06)

Abstract: Wildfires devastated communities in Oregon and Washington in September 2020, burning almost as much forest west of the Cascade Mountain crest (“the westside”) in 2 weeks (~340,000 ha) as in the previous five decades (~406,00 ha). Unlike dry forests of the interior western United States, temperate rain forests of the Pacific Northwest have experienced limited recent fire activity, and debates surrounding what drove the 2020 fires, and management strategies to adapt to similar future events, necessitate a scientific evaluation of the fires. We evaluate five questions regarding the 2020 Labor Day fires: (1) How do the 2020 fires compare with historical fires? (2) How did the roles of weather and antecedent climate differ geographically and from the recent past (1979–2019)? (3) How do fire size and severity compare to other recent fires (1985–2019), and how did forest management and prefire forest structure influence burn severity? (4) What impact will these fires have on westside landscapes? and (5) How can we adapt to similar fires in the future? Although 5 of the 2020 fires were much larger than any others in the recent past and burned ~10 times the area in high‐severity patches 〉 10,000 ha, the 2020 fires were remarkably consistent with historical fires. Reports from the early 1900s, along with paleo‐ and dendro‐ecological records, indicate similar and potentially even larger wildfires over the past millennium, many of which shared similar seasonality (late August/early September), weather conditions, and even geographic locations. Consistent with the largest historical fires, strong east winds and anomalously dry conditions drove the rapid spread of high‐severity wildfire in 2020. We found minimal difference in burn severity among stand structural types related to previous management in the 2020 fires. Adaptation strategies for similar fires in the future could benefit by focusing on ignition prevention, fire suppression, and community preparedness, as opposed to fuel treatments that are unlikely to mitigate fire severity during extreme weather. While scientific uncertainties remain regarding the nature of infrequent, high‐severity fires in westside forests, particularly under climate change, adapting to their future occurrence will require different strategies than those in interior, dry forests.

Type of Medium: Online Resource

ISSN: 2150-8925 , 2150-8925

URL: Issue

URL: Article

DOI: 10.1002/ecs2.v13.6

DOI: 10.1002/ecs2.4070

Language: English

Publisher: Wiley

Publication Date: 2022

detail.hit.zdb_id: 2572257-8

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Reduced fire severity offers near-term buffer to climate-driven declines in conifer resilience across the western United States

Davis, Kimberley T. ; Robles, Marcos D. ; Kemp, Kerry B. ; [et al.]

Proceedings of the National Academy of Sciences ; 2023

In: Proceedings of the National Academy of Sciences Vol. 120, No. 11 ( 2023-03-14)

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In: Proceedings of the National Academy of Sciences, Proceedings of the National Academy of Sciences, Vol. 120, No. 11 ( 2023-03-14)

Abstract: Increasing fire severity and warmer, drier postfire conditions are making forests in the western United States (West) vulnerable to ecological transformation. Yet, the relative importance of and interactions between these drivers of forest change remain unresolved, particularly over upcoming decades. Here, we assess how the interactive impacts of changing climate and wildfire activity influenced conifer regeneration after 334 wildfires, using a dataset of postfire conifer regeneration from 10,230 field plots. Our findings highlight declining regeneration capacity across the West over the past four decades for the eight dominant conifer species studied. Postfire regeneration is sensitive to high-severity fire, which limits seed availability, and postfire climate, which influences seedling establishment. In the near-term, projected differences in recruitment probability between low- and high-severity fire scenarios were larger than projected climate change impacts for most species, suggesting that reductions in fire severity, and resultant impacts on seed availability, could partially offset expected climate-driven declines in postfire regeneration. Across 40 to 42% of the study area, we project postfire conifer regeneration to be likely following low-severity but not high-severity fire under future climate scenarios (2031 to 2050). However, increasingly warm, dry climate conditions are projected to eventually outweigh the influence of fire severity and seed availability. The percent of the study area considered unlikely to experience conifer regeneration, regardless of fire severity, increased from 5% in 1981 to 2000 to 26 to 31% by mid-century, highlighting a limited time window over which management actions that reduce fire severity may effectively support postfire conifer regeneration.

Type of Medium: Online Resource

ISSN: 0027-8424 , 1091-6490

URL: Article

DOI: 10.1073/pnas.2208120120

RVK:

TA 1000

RVK:

WA 15000

Language: English

Publisher: Proceedings of the National Academy of Sciences

Publication Date: 2023

detail.hit.zdb_id: 209104-5

detail.hit.zdb_id: 1461794-8

SSG: 11

SSG: 12

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Consistent spatial scaling of high‐severity wildfire can inform expected future patterns of burn severity

Buonanduci, Michele S. ; Donato, Daniel C. ; Halofsky, Joshua S. ; [et al.]

Wiley ; 2023

In: Ecology Letters

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In: Ecology Letters, Wiley

Abstract: Increasing wildfire activity in forests worldwide has driven urgency in understanding current and future fire regimes. Spatial patterns of area burned at high severity strongly shape forest resilience and constitute a key dimension of fire regimes, yet remain difficult to predict. To characterize the range of burn severity patterns expected within contemporary fire regimes, we quantified scaling relationships relating fire size to patterns of burn severity. Using 1615 fires occurring across the Northwest United States between 1985 and 2020, we evaluated scaling relationships within fire regimes and tested whether relationships vary across space and time. Patterns of high‐severity fire demonstrate consistent scaling behaviour; as fire size increases, high‐severity patches consistently increase in size and homogeneity. Scaling relationships did not differ substantially across space or time at the scales considered here, suggesting that as fire‐size distributions potentially shift, stationarity in patch‐size scaling can be used to infer future patterns of burn severity.

Type of Medium: Online Resource

ISSN: 1461-023X , 1461-0248

URL: Article

DOI: 10.1111/ele.14282

Language: English

Publisher: Wiley

Publication Date: 2023

detail.hit.zdb_id: 2020195-3

SSG: 12

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Does large area burned mean a bad fire year? Comparing contemporary wildfire years to historical fire regimes informs the restoration task in fire-dependent forests

Donato, Daniel C. ; Halofsky, Joshua S. ; Churchill, Derek J. ; [et al.]

Elsevier BV ; 2023

In: Forest Ecology and Management Vol. 546 ( 2023-10), p. 121372-

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In: Forest Ecology and Management, Elsevier BV, Vol. 546 ( 2023-10), p. 121372-

Type of Medium: Online Resource

ISSN: 0378-1127

URL: Article

DOI: 10.1016/j.foreco.2023.121372

Language: English

Publisher: Elsevier BV

Publication Date: 2023

detail.hit.zdb_id: 2016648-5

detail.hit.zdb_id: 751138-3

SSG: 23

SSG: 12

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Corralling a black swan: natural range of variation in a forest landscape driven by rare, extreme events

Donato, Daniel C. ; Halofsky, Joshua S. ; Reilly, Matthew J.

Wiley ; 2020

In: Ecological Applications Vol. 30, No. 1 ( 2020-01)

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In: Ecological Applications, Wiley, Vol. 30, No. 1 ( 2020-01)

Abstract: The natural range of variation (NRV) is an important reference for ecosystem management, but has been scarcely quantified for forest landscapes driven by infrequent, severe disturbances. Extreme events such as large, stand‐replacing wildfires at multi‐century intervals are typical for these regimes; however, data on their characteristics are inherently scarce, and, for land management, these events are commonly considered too large and unpredictable to integrate into planning efforts (the proverbial “Black Swan”). Here, we estimate the NRV of late‐seral (mature/old‐growth) and early‐seral (post‐disturbance, pre‐canopy‐closure) conditions in a forest landscape driven by episodic, large, stand‐replacing wildfires: the Western Cascade Range of Washington, USA (2.7 million ha). These two seral stages are focal points for conservation and restoration objectives in many regions. Using a state‐and‐transition simulation approach incorporating uncertainty, we assess the degree to which NRV estimates differ under a broad range of literature‐derived inputs regarding (1) overall fire rotations and (2) how fire area is distributed through time, as relatively frequent smaller events (less episodic), or fewer but larger events (more episodic). All combinations of literature‐derived fire rotations and temporal distributions (i.e., “scenarios”) indicate that the largest wildfire events (or episodes) burned up to 10 5 –10 6 ha. Under most scenarios, wildfire dynamics produced 5th–95th percentile ranges for late‐seral forests of ~47–90% of the region (median 70%), with structurally complex early‐seral conditions composing ~1–30% (median 6%). Fire rotation was the main determinant of NRV, but temporal distribution was also important, with more episodic (temporally clustered) fire yielding wider NRV. In smaller landscapes (20,000 ha; typical of conservation reserves and management districts), ranges were 0–100% because fires commonly exceeded the landscape size. Current conditions are outside the estimated NRV, with the majority of the region instead covered by dense mid‐seral forests (i.e., a regional landscape with no historical analog). Broad consistency in NRV estimates among widely varied fire regime parameters suggests these ranges are likely relevant even under changing climatic conditions, both historical and future. These results indicate management‐relevant NRV estimates can be derived for seral stages of interest in extreme‐event landscapes, even when incorporating inherent uncertainties in disturbance regimes.

Type of Medium: Online Resource

ISSN: 1051-0761 , 1939-5582

URL: Issue

URL: Article

DOI: 10.1002/eap.v30.1

DOI: 10.1002/eap.2013

Language: English

Publisher: Wiley

Publication Date: 2020

detail.hit.zdb_id: 2010123-5

SSG: 12

SSG: 23

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Linking instream wood recruitment to adjacent forest development in landscapes driven by stand-replacing disturbances: a conceptual model to inform riparian and stream management

Martens, Kyle D. ; Donato, Daniel C. ; Halofsky, Joshua S. ; [et al.]

Canadian Science Publishing ; 2020

In: Environmental Reviews Vol. 28, No. 4 ( 2020-12), p. 517-527

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In: Environmental Reviews, Canadian Science Publishing, Vol. 28, No. 4 ( 2020-12), p. 517-527

Abstract: Instream wood plays an important role in stream morphology and creation of fish habitat in conifer forests throughout the temperate zone. In some regions, such as the US Pacific Northwest, many streams currently have reduced amounts of instream wood due to past management activities (timber harvest, wood removal, etc.). These reductions exist against a backdrop of naturally dynamic amounts and distributions of instream wood, which likely fluctuate over time based in part on the stage of development (disturbance and succession) in adjacent riparian forests. Despite many studies on both forest development and instream wood accumulation, the linkages between these processes have not been fully described, particularly as they relate to stream restoration needs. In this paper, we combine literature on forest development, disturbance, and processes that drive instream wood recruitment to more explicitly connect the temporal dynamics of stream wood inputs with the dynamics of adjacent riparian forests. We use moist forests of the Pacific Northwest as an exemplary system, from which to draw broadly applicable patterns for landscapes influenced by stand-replacing disturbance regimes. This conceptual model highlights a U-shaped pattern of instream wood recruitment, in which instream wood is highest after a stand-replacing disturbance and during the old-growth stage, and lowest through the middle stages of forest development (currently the most abundant stages in many landscapes as a result of past forest management practices). This mid-successional period of scarce wood is likely exacerbated in streams with a history of wood removal. The U-shaped pattern suggests that, without higher-than-average levels of disturbance, many streams in landscapes dominated by mid-successional second-growth forests (∼30–80 yr old) will be deficient of instream wood until forest stands are over 200 years old. As such, the balance between the predominant riparian conservation strategy of passive restoration (e.g., unharvested riparian reserves) and the alternative of active restoration (e.g., wood additions and (or) riparian stand treatments) should be carefully considered, depending on management objectives, site context, and potential tradeoffs over time.

Type of Medium: Online Resource

ISSN: 1181-8700 , 1208-6053

URL: Article

DOI: 10.1139/er-2020-0035

Language: English

Publisher: Canadian Science Publishing

Publication Date: 2020

detail.hit.zdb_id: 2027518-3

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