Coefficients de distribution de la régénération, cinq ans après des coupes avec protection des petites tiges marchandes appliquées dans des sapinières et des pessières noires du Québec

RiopelMartin,; BéginJean,; Ruel, Jean‐Claude

doi:10.5558/tfc2011-073

Cited by 8 publications

(2 citation statements)

References 33 publications

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“…Partial harvesting promotes the maintenance of structural attributes of uneven-aged stand forests [39,46,47]. Although some studies have compared the effects of partial harvesting practices on stand dynamics and soil proprieties with those of natural disturbances in the black spruce boreal forest of eastern Canada [25,48], still relatively little is known about the silvicultural potential of partial harvesting in North American conifer-dominated stands [33,34,49,50], particularly in forest stands prone to organic matter accumulation (paludification), which present structures (uneven-aged and irregular) more conducive to partial harvest [51,52]. Understanding how partial harvesting treatments affect stand development in black spruce forests is essential to improve silvicultural planning and the selection of stands suitable for partial harvesting, reduce timber losses, and ultimately ensure the sustainable management of North American boreal forests [15,23,32,[53][54][55][56].…”

Section: Introductionmentioning

confidence: 99%

Success Factors for Experimental Partial Harvesting in Unmanaged Boreal Forest: 10-Year Stand Yield Results

Moussaoui

Leduc

Girona

et al. 2020

Forests

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Over the past two decades, partial harvesting has been increasingly used in boreal forests as an alternative to clearcutting to promote irregular stand structures and maintain a balance between biodiversity preservation and continued timber production. However, relatively little is still known about the silvicultural potential of partial harvesting in Canada’s boreal forest, especially in areas prone to organic matter accumulation (paludification), and most prior research has focused on biodiversity responses. In this study, we assess the effects of partial harvesting on stand development (recruitment, growth, and mortality) ten years after harvesting in previously unmanaged black spruce stands and quantify its effectiveness in reducing the impacts on ecosystem structures. Our analyses revealed that pre-harvest stand structure and site characteristics, especially initial basal area, sapling density, tree diameter, and organic layer thickness (OLT) were major factors involved in stand development ten years following these partial harvesting treatments. Depending on pre-harvest structure and site characteristics, partial harvesting can result in either an increase in post-harvest tree recruitment and growth or a loss of stand volume because of standing tree mortality. To increase the chances of partial harvesting success in ensuring an increase in decennial stand yield after harvest in black spruce forest stands, sites prone to paludification (i.e., where OLT >17 cm) should be left unharvested. This study illustrates the importance of taking into account pre-existing structure and site characteristics in the selection of management strategies to maximize the potential of partial harvesting to achieve sustainable forest management in black spruce stands.

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Section: Introductionmentioning

confidence: 99%

Success Factors for Experimental Partial Harvesting in Unmanaged Boreal Forest: 10-Year Stand Yield Results

Moussaoui

Leduc

Girona

et al. 2020

Forests

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“…Four uneven-aged black spruce-balsam fir stands were sampled in the Saguenay-Lac-Saint-Jean and Côte-Nord regions of Quebec, Canada, in the balsam-fir-white birch and spruce moss bioclimatic zones ( Figure 1). These stands were part of a project for which permanent plots were established between 1997 and 2002 in 27 experimental blocks in Quebec [1,22]. CLASS was applied to one part of each stand (8-12 years prior to sampling, the specific amount of time depending on the site), and another part of the stand was left untreated to be used as a control.…”

Section: Experimental Design and Tree Samplingmentioning

confidence: 99%

Primary and Secondary Branch Growth in Black Spruce and Balsam Fir after Careful Logging around Small Merchantable Stems (CLASS)

Lemay

Krause

Achim

2019

Forests

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Careful logging around small merchantable stems (CLASS) is a partial cutting treatment that consists of the harvest of 70%–90% of the merchantable volume of an irregular coniferous stand. In this treatment, regeneration, saplings and small merchantable stems (DBH < 15 cm) are preserved and can continue to grow and develop into the dominant layer of the new stand. The aim of this project was to examine the effects of CLASS on the primary and secondary growth of branches, as well as on branch diameter in black spruce and balsam fir trees in the boreal forest of Quebec, Canada. Primary and secondary growth were measured on five branches per tree while branch diameter was analysed from 15 whorls distributed within the crown of the 48 black spruce and 48 balsam fir trees sampled. Branch primary and secondary growth significantly increased after CLASS in the lower part of the crown in both species, and both types of growth increased proportionally. These findings suggest that CLASS may delay crown recession as the lower branches tend to survive and grow for a longer period. However, although radial growth increased in the years post-CLASS, this did not significantly influence the final branch diameter and should not lead to lumber downgrade.

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Innovative Silviculture to Achieve Sustainable Forest Management in Boreal Forests: Lessons from Two Large-Scale Experiments

Girona

Moussaoui

Morin

et al. 2023

Advances in Global Change Research

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Clear-cutting has been the dominant harvesting method used in boreal forest silviculture. Reducing the potential negative effects of intensive forestry activities on ecosystems, e.g., the simplification and homogenization of stand structure, requires diversifying silvicultural practices to promote forest resilience in the face of climate change. Priority therefore lies in developing, evaluating, and adapting partial cutting as a potential silvicultural option for ensuring the sustainable management of boreal forests. In this chapter, we summarize the findings of two large-scale experiments conducted in Canadian boreal forests that tested new silvicultural approaches and explore their implications for forest management. We discuss the effects of these treatments on tree growth, tree mortality, regeneration, and biodiversity, and we examine the challenges of existing silvicultural approaches in the context of climate change.

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Coefficients de distribution de la régénération, cinq ans après des coupes avec protection des petites tiges marchandes appliquées dans des sapinières et des pessières noires du Québec

Cited by 8 publications

References 33 publications

Success Factors for Experimental Partial Harvesting in Unmanaged Boreal Forest: 10-Year Stand Yield Results

Success Factors for Experimental Partial Harvesting in Unmanaged Boreal Forest: 10-Year Stand Yield Results

Primary and Secondary Branch Growth in Black Spruce and Balsam Fir after Careful Logging around Small Merchantable Stems (CLASS)

Innovative Silviculture to Achieve Sustainable Forest Management in Boreal Forests: Lessons from Two Large-Scale Experiments

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