The importance of large-diameter trees to the creation of snag and deadwood biomass

Lutz, James A.; Struckman, Soren; Germain, Sara J.; Furniss, Tucker J.

doi:10.1186/s13717-021-00299-0

Cited by 23 publications

(21 citation statements)

References 83 publications

(114 reference statements)

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“…By creating advantageous local neighborhoods around specific trees, targeted density reduction could provide a way to minimize mortality risk for trees that are of particular socioecological importance (Larson & Churchill, 2012). Large‐diameter trees, for example, are a key component of fire‐tolerant old‐growth forests (Larson et al, 2013; Lutz et al, 2018, 2020; Lutz, Struckman, Furniss, et al, 2021; Lutz, Struckman, Germain, et al, 2021), yet they are in decline at regional and global scales (Lindenmayer et al, 2014; Lutz et al, 2009) and are particularly vulnerable to compound disturbance events (Furniss, Larson, et al, 2020; Stephenson et al, 2019). These results provide further evidence that targeted silvicultural management (e.g., density reduction around large trees) could be an effective strategy to mitigate the susceptibility of these long‐lived individuals to rapid ecological changes.…”

Section: Discussionmentioning

confidence: 99%

Crowding, climate, and the case for social distancing among trees

Furniss

Das

Mantgem

et al. 2022

Ecological Applications

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In an emerging era of megadisturbance, bolstering forest resilience to wildfire, insects, and drought has become a central objective in many western forests. Climate has received considerable attention as a driver of these disturbances, but few studies have examined the complexities of climate–vegetation–disturbance interactions. Current strategies for creating resilient forests often rely on retrospective approaches, seeking to impart resilience by restoring historical conditions to contemporary landscapes, but historical conditions are becoming increasingly unattainable amidst modern bioclimatic conditions. What becomes an appropriate benchmark for resilience when we have novel forests, rapidly changing climate, and unprecedented disturbance regimes? We combined two longitudinal datasets—each representing some of the most comprehensive spatially explicit, annual tree mortality data in existence—in a post‐hoc factorial design to examine the nonlinear relationships between fire, climate, forest spatial structure, and bark beetles. We found that while prefire drought elevated mortality risk, advantageous local neighborhoods could offset these effects. Surprisingly, mortality risk (Pm) was higher in crowded local neighborhoods that burned in wet years (Pm = 42%) compared with sparse neighborhoods that burned during drought (Pm = 30%). Risk of beetle attack was also increased by drought, but lower conspecific crowding impeded the otherwise positive interaction between fire and beetle attack. Antecedent fire increased drought‐related mortality over short timespans (<7 years) but reduced mortality over longer intervals. These results clarify interacting disturbance dynamics and provide a mechanistic underpinning for forest restoration strategies. Importantly, they demonstrate the potential for managed fire and silvicultural strategies to offset climate effects and bolster resilience to fire, beetles, and drought.

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Section: Discussionmentioning

confidence: 99%

Crowding, climate, and the case for social distancing among trees

Furniss

Das

Mantgem

et al. 2022

Ecological Applications

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“…Scholars have carried out a large number of studies on the ecological functions of forest litter in China and other countries, mainly focusing on the litter reserves [8,9], hydrological function [10], decomposition process and rate [11][12][13], nutrient release characteristics [14,15], ecological stoichiometry [16,17], characteristics of the microbial community in the litter layer [18,19], the response of litter decomposition to the environment [20,21], and decomposition law model [22]. Litter is abundant in Pacific Northwest forests that have been without fire and timber harvest long enough for trees to grow, die, and fall [23]. In a study of changes in the physical properties and water repellency of litter in central Poland, litter was found to increase water storage in forest ecosystems [24].…”

Section: Introductionmentioning

confidence: 99%

Litter eco-hydrological function characteristics of three typical plant communities in the area of Karst peak-cluster depressions from Guizhou, China

Zhang

et al. 2022

PLoS ONE

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Litter is an important component of forest ecosystems and plays an important eco-hydrological function. Many studies have been carried out on litter at present, but less research has been carried out on the eco-hydrological service functions of litter in different plant communities in Karst, especially in the area of Karst peak-cluster depressions in southwest China. To reveal the characteristics of the hydrological function of the litter layer of the plant community in the area of Karst peak-cluster depressions around FAST (Five-hundred-meter Aperture Spherical Radio Telescope), three typical plant community litter layers of the broad-leaved forest, coniferous forest, and shrub were selected as research objects, and the hydrological function of the litter layer of different plant community types was studied using the immersion method. The results indicated: 1) The litter layer of the broad-leaved forest plant community has the strongest function of intercepting and regulating precipitation (Mlmax = 24.17±0.33 t/ha, Msv = 19.93±0.21 t/ha), and its hydrological service function is the best. 2) The higher the decomposition degree of litter, the stronger the interception function. 3) The fitted equations for both the litter water-absorption capacity (Qct) and time (t) for plant communities were Qct = b + alnt, and the fitted equations for both the litter water-release capacity (Qst) and time (t) were Qst = a t b. 4) The fitted equations for both the water absorption and release rates (vc and vs) and time (t) of the litter were v = a t -b. The water absorption rates of litter were the fastest within 5 min (15529.01~22634.43 g/kg·h), with the greatest interception and storage function for short-term rainfall.

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“…Relatively little is known about the global distribution of trees with a large circumference (Lutz et al, 2018). Our list of the 20 trees with the largest circumference suggests that, in Australia, these trees are primarily found in the southeast and southwest of the continent (Table 2, Figure 3).…”

Section: Discussionmentioning

confidence: 99%

The largest trees in Australia

2023

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Large old trees have many critical ecological functions. We collated information about Australia's tallest and largest (by circumference) trees from several databases. The 20 tallest trees in Australia are currently all Mountain Ash (Eucalyptus regnans) found primarily in Tasmania. There are also some Mountain Ash trees in Victoria which are over 90 m tall and still increasing in height. The 20 largest (by circumference) trees are distributed throughout four states (NSW, TAS, WA and VIC) with Mountain Ash accounting for more than half of the trees on this list. Making this information available in one location increases its accessibility and allows for priority species and areas for conservation to be more easily identified. Documenting the size and condition of trees, together with their location, will enable them to be revisited and monitored in the future. This practice will allow changes in tree condition, occurring through growth and/or deterioration, to be documented. We trust that by increasing the accessibility of this information, we encourage more people to take an interest in the ecology and conservation of large old trees. This is important given the past and present cultural significance of trees to Australia's First Nations People and the need to preserve this information and appreciation for nature.

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The importance of large-diameter trees to the creation of snag and deadwood biomass

Cited by 23 publications

References 83 publications

Crowding, climate, and the case for social distancing among trees

Crowding, climate, and the case for social distancing among trees

Litter eco-hydrological function characteristics of three typical plant communities in the area of Karst peak-cluster depressions from Guizhou, China

The largest trees in Australia

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