Role of Mixed-Species Stands in Attenuating the Vulnerability of Boreal Forests to Climate Change and Insect Epidemics

Chavardès, Raphaël D.; Gennaretti, Fabio; Grondin, Pierre; Cavard, Xavier; Morin, Hubert; Bergeron, Yves

doi:10.3389/fpls.2021.658880

Cited by 8 publications

(16 citation statements)

References 51 publications

(60 reference statements)

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“…Species mixture can enhance litter decomposition and nutrient cycling (Cavard et al, 2010;Prescott et al, 2000), increase soil nutrient availability (Houle et al, 2014;Oboite & Comeau, 2019), but also increase competition if there is a strong niche overlap between species (Oboite & Comeau, 2019, 2021. Species mixture can also influence the impact of climate on growth (Chavardès et al, 2021;Oboite & Comeau, 2019). The D'Orangeville et al, 2018).…”

Section: Discussionmentioning

confidence: 99%

Site index as a predictor of the effect of climate warming on boreal tree growth

Pau

Gauthier

Chavardès

et al. 2021

Global Change Biology

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With a predicted rise in global temperatures and a predicted increase in the frequency and intensity of droughts by many climate scenarios (IPCC, 2013), the boreal forest would be the biome most strongly affected by global warming (Price et al., 2013). An increase of mean annual temperature between 4° and 11°C was projected across the boreal forest by the end of this century, adding to an already observed increase of 1.5°C during the past century (Gauthier

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Section: Discussionmentioning

confidence: 99%

Site index as a predictor of the effect of climate warming on boreal tree growth

Pau

Gauthier

Chavardès

et al. 2021

Global Change Biology

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“…Higher densities of host species and warmer climates can increase the intensity of tree defoliation, and promote growth reduction and mortality in the host trees. The resulting canopy openings will increase the availability of light and water to promote the growth of the hon‐hosts (Chavardès et al, 2021; Steckel et al, 2020).…”

Section: Discussionmentioning

confidence: 99%

Insect defoliation modulates influence of climate on the growth of tree species in the boreal mixed forests of eastern Canada

Boakye

Houle

Bergeron

et al. 2022

Ecology and Evolution

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Increasing air temperatures and changing precipitation patterns due to climate change can affect tree growth in boreal forests. Periodic insect outbreaks affect the growth trajectory of trees, making it difficult to quantify the climate signal in growth dynamics at scales longer than a year. We studied climate‐driven growth trends and the influence of spruce budworm (Choristoneura fumiferana Clem.) outbreaks on these trends by analyzing the basal area increment (BAI) of 2058 trees of Abies balsamea (L.) Mill., Picea glauca (Moench) Voss, Thuja occidentalis L., Populus tremuloides Michx., and Betula papyrifera Marsh, which co‐occurs in the boreal mixedwood forests of western Quebec. We used a generalized additive mixed model (GAMM) to analyze species‐specific trends in BAI dynamics from 1967 to 1991. The model relied on tree size, cambial age, degree of spruce budworm defoliation, and seasonal climatic variables. Overall, we observed a decreasing growth rate of the spruce budworm host species, A. balsamea and P. glauca between 1967 and 1991, and an increasing growth rate for the non‐host, P. tremuloides, B. papyrifera, and T. occidentalis. Our results suggest that insect outbreaks may offset growth increases resulting from a warmer climate. The observation warrants the inclusion of the spruce budworm defoliation into models predicting future forest productivity.

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“…Specifically, we focused temperaturegrowth relations on two surrogates of the growing season length and summer heat stress. These surrogates are two important temperature variables for tree growth in the study area (Chavardès et al 2021) and were obtained by calculating the mean of average temperatures for April and September and June-August, respectively, between 1955 We measured growth characteristics of focal trees (orange boxes) and environmental variables (blue boxes; only variables that were not excluded due to high multicollinearity according to Pearson's correlation coefficients are shown). Growth characteristics were represented by diameter at breast height (DBH), average growth rates over 1955-2018 (GR), tree response to growing season length (RespGSL) or summer heat stress (RespSHS), and growth response during spruce budworm epidemics (GSBW) or forest tent caterpillar epidemics (GFTC).…”

Section: Growth Characteristics Measured On Focal Treesmentioning

confidence: 99%

“…Testing relations between monthly to seasonal temperature and tree growth (i.e., temperature-growth relations) and estimating the impact of insect epidemics on tree growth are approaches that can be used independently or in combination (Drobyshev et al 2013;Chavardès et al 2021). Such approaches offer information on how temperature benefits or limits growth of different tree species, and whether these species have positive or negative growth responses associated with insect epidemics.…”

Section: Introductionmentioning

confidence: 99%

“…Diversity within stands can benefit growth of trees in several ways, for example through niche partitioning over space, including via rooting systems (Houle et al 2014;Mekontchou et al 2020) and canopy layers (Jucker et al 2020), or over time such as via distinct start and end dates for vegetative growth across tree species (Huang et al 2010). Diverse tree species in forest stands can also exhibit differing growth responses to disturbances such as insect epidemics (Chavardès et al 2021), thereby stabilizing tree biomass (Aussenac et al 2016). Conversely, dominance by tree species with given traits can affect ecosystem processes (i.e., selection effects), and functional identity of some species rather than species richness per se can be the most important promoting factor of ecosystem multifunctionality (i.e., species identify effect) (Mouillot et al 2011;Jochum et al 2020).…”

Section: Introductionmentioning

confidence: 99%

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Greater tree species diversity and lower intraspecific competition attenuate impacts from temperature increases and insect epidemics in boreal forests of western Quebec, Canada

et al. 2023

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We investigated how the surrounding environment influences the growth of dominant trees and their responses to temperature and insect epidemics in boreal forests of eastern Canada. We focused on 82 black spruce and jack pine focal trees in stands spanning a double gradient of species diversity and soil texture within a 36 km2 area of western Québec. For these trees, we compared their diameter at breast height, growth rates, temperature-growth relations, and growth during insect defoliator epidemics. We used linear models to study how surrounding tree attributes and soil properties affected the growth of focal trees. Models showed that tree growth responses and responses to temperature and insect epidemics were generally negative with higher intraspecific competition and positive with greater tree species diversity. Growth of both species benefitted from lower soil sand content. Our research offers novel insights on the potential role of the surrounding environment, notably tree competition and species diversity, in mitigating the vulnerability of eastern Canada’s boreal trees to anthropogenic climate change and insect epidemics.

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Role of Mixed-Species Stands in Attenuating the Vulnerability of Boreal Forests to Climate Change and Insect Epidemics

Cited by 8 publications

References 51 publications

Site index as a predictor of the effect of climate warming on boreal tree growth

Site index as a predictor of the effect of climate warming on boreal tree growth

Insect defoliation modulates influence of climate on the growth of tree species in the boreal mixed forests of eastern Canada

Greater tree species diversity and lower intraspecific competition attenuate impacts from temperature increases and insect epidemics in boreal forests of western Quebec, Canada

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