Recent Douglas-fir Mortality in the Klamath Mountains Ecoregion of Oregon: Evidence for a Decline Spiral

Bennett, Max; Shaw, David C.; Lowrey, Laura

doi:10.1093/jofore/fvad007

Cited by 2 publications

(2 citation statements)

References 25 publications

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“…Such conditions were associated with recent WRC tree dieback in lower elevation habitats in interior and coastal population (Figure 5). WRC tree dieback may be a ‘canary in the forest’ as dieback of three common associates (western hemlock, Douglas‐fir, grand fir, and bigleaf maple) in the last decade and over a smaller area than WRC dieback may also be related to unfavourable climate conditions (WA DNR, 2020, Betzen et al, 2021; but see Bennett et al, 2023). For WRC trees, our results imply that more frequent warmer/drier summer climate conditions would further reduce tree growth and elevate the risk of canopy dieback.…”

Section: Discussionmentioning

confidence: 99%

Canary in the forest?—Tree mortality and canopy dieback of western redcedar linked to drier and warmer summers

Andrus,

Peach,

Cinquini

et al. 2023

Journal of Biogeography

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AimForest dieback is increasing from unfavourable climate conditions. Western redcedar (WRC)—a culturally, ecologically and economically important species—has recently experienced anomalously high mortality rates and partial canopy dieback. We investigated how WRC tree growth and dieback responded to climate variability and drought using tree‐ring methods.LocationPacific Northwest, USA.TaxonWestern redcedar (Thuja plicata).MethodsWe collected tree cores from three tree health status groups (no canopy dieback, partial canopy dieback, and dead trees) at 11 sites in coastal (maritime climate) and interior (continental climate) WRC populations. From growth rates, we computed four growth indices that assessed the resilience to drought and estimated the year of death.ResultsWarmer and drier climate conditions in May/June that extended the annual July‐to‐September dry season reduced radial growth in 9 of 11 sites (1975–2020). WRC trees recovered growth to pre‐drought rates within 3 years when post‐drought climate conditions were cooler/wetter than average. However, recovery from drought was slower or absent when warmer/drier conditions occurred during the post‐drought recovery period, possibly leading to the recent and widespread mortality across the coastal population. WRC mortality was portended by 4–5 years of declining growth. Annually‐resolved mortality in coastal populations predominately occurred in 2017–2018 (80% of sampled dead trees), a period that coincided with exceedingly hot temperatures and the longest regionally dry period from May to September (1970–2020). In interior populations, mortality was dispersed among years but associated with warmer and drier conditions from August to September.Main conclusionsOur findings forewarn that a warming climate and more frequent and severe summer droughts, especially in consecutive years, will likely increase the vulnerability of WRC to canopy dieback and mortality and possibly other drought‐sensitive trees in one of the world's largest forest carbon sinks.

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Section: Discussionmentioning

confidence: 99%

Canary in the forest?—Tree mortality and canopy dieback of western redcedar linked to drier and warmer summers

Andrus,

Peach,

Cinquini

et al. 2023

Journal of Biogeography

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“…Fish and Wildlife Service, 2002;Johnson et al, 2023;Phalan et al, 2019;Swanson et al, 2014), highlighting major conservation challenges for regional forests. Meanwhile, events such as the 2020 Labor Day fires (Reilly et al, 2022) and record-breaking 2021 "heat dome" (Still et al, 2023), projected climate change (Fleishman, 2023;Halofsky et al, 2022aHalofsky et al, , 2022b, and its contribution to decline spirals in major tree species in the region (Bennett et al, 2023), suggest that mitigating, adapting, and responding to disturbance and environmental change are likely to become increasingly important dimensions of management.…”

Section: Trade-offs Between Late-successional Forest Birds and Early-...mentioning

confidence: 99%

Trade‐offs among management objectives in mature Douglas‐fir forests of the Pacific Northwest

Williams,

Powers

2024

Ecosphere

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Mature conifer‐dominated forests are an important component of the Pacific Northwest landscape, and the conservation of species associated with late‐successional forests has been a primary management focus in these forests for decades. Increasingly, these forests are also valued as carbon stores, with considerable climate change mitigation potential. However, there are also increasing concerns about the effects of climate change, particularly drought, on late‐successional forests. Despite the complexity of balancing these diverse management concerns, few studies have examined the compatibility of biodiversity conservation, carbon storage, and drought adaptation. We used a spatially and temporally synchronous empirical dataset from mature Douglas‐fir (Pseudotsuga menziesii) stands representing three alternative management strategies, passive management (“unmanaged”), thinning, and retention harvest, to examine trade‐offs among management objectives related to drought adaptation, carbon storage, and the conservation of early‐successional and late‐successional forest songbirds. Although previous studies have evaluated drought adaptation in Douglas‐fir, none have focused on mature stands. Therefore, we also examined tree resistance and resilience to the 2001 drought. Trees in retention harvest stands displayed significantly higher drought resistance and resilience than trees in thinned or unmanaged stands, but no differences were observed between trees in the latter two management conditions, potentially due to the long (average of 22 years) period between treatment and drought in our thinned stands. Despite this, thinned stands provided a better multiobjective compromise than unmanaged or retention harvest stands in our trade‐off analysis. Across all mature stands, trade‐offs were largest for objective combinations that involved early‐ or late‐successional forest birds. While our analysis supports the consistency of managing late‐successional forest birds and carbon storage, trade‐offs between early‐successional birds and carbon storage were much larger. Given projected changes in climate, the substantial trade‐offs that we observed between drought adaptation and late‐successional forest birds are notable and imply that achieving these two objectives will be challenging at the stand scale. Our results suggest that a diversity of management approaches, incorporating both active management and reserve‐based strategies, may be necessary to foster a combination of drought adaptation, carbon storage, and biodiversity conservation goals in these forests.

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Recent Douglas-fir Mortality in the Klamath Mountains Ecoregion of Oregon: Evidence for a Decline Spiral

Cited by 2 publications

References 25 publications

Canary in the forest?—Tree mortality and canopy dieback of western redcedar linked to drier and warmer summers

Canary in the forest?—Tree mortality and canopy dieback of western redcedar linked to drier and warmer summers

Trade‐offs among management objectives in mature Douglas‐fir forests of the Pacific Northwest

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