144 resources found

This report details the 26-year results of the Montane Alternative Silvicultural Systems Project, an integrated, long-term study designed to evaluate the biological consequences of different harvesting approaches in montane coastal forests of British Columbia. Researchers quantified changes in understory vegetation cover, diversity, and conifer regeneration across four systems, including clearcutting and various forms of tree retention, compared to an old-growth benchmark. The study found that while all harvesting methods led to an eventual increase in overall species richness, the uniform shelterwood retained more stand structure and pre-harvest plant species initially. The findings suggest that the retention of relatively intact mature forest patches is the most effective approach for conserving plant and non-vascular species associated with older forests.

This research documents a six-year monitoring study at the Montane Alternative Silvicultural Systems site, examining how different harvesting methods influence the likelihood of windthrow damage in coastal montane forests. The study quantified stem loss across four treatments, including clearcut, shelterwood, green tree retention, and patch cut, finding that windthrow losses were substantial across the site, which was not initially considered high risk. Although low-density green tree retention experienced the highest proportion of damaged trees, the overall greatest number of wind-damaged stems occurred in the shelterwood treatment. The data indicates that small, concentrated patch cuts resulted in the lowest amount of windthrow, suggesting that grouped retention is a more effective strategy than dispersed retention for minimizing wind damage. The authors conclude that adopting group retention strategies can better conserve structural forest elements while addressing challenges related to windthrow risk.

This document on the 26-year assessment of the Montane Alternative Silvicultural Systems evaluates the success of planted Amabilis fir and Western Hemlock seedlings established in 1994. The core purpose of the MASS study is to measure the impact of four distinct establishment treatments, including control, fertilization, herbicide, or a combination, on tree growth over time. These treated plots are systematically mapped within the context of various silvicultural harvesting systems, including clearcut, green tree, patch cut, and shelterwood. The images act as an inventory, identifying the specific plot numbers selected for the 2019 photographic evaluation of the long-term experimental outcomes within each system.

This document on the 26-year assessment of the Montane Alternative Silvicultural Systems study focuses on natural regeneration and understory species within various managed forest environments. The MASS study is highly structured, comparing distinct silvicultural systems such as clearcut, shelterwood, and old growth by utilizing three separate replicates for each treatment type. Data collection relies on establishing Permanent Vegetation Plots, which incorporate smaller, precisely defined nested sub-plots to monitor detailed plant life, including herbs, bryophytes, and tagged conifer species like Amabilis fir and Western Hemlock. These images function as a structured index, associating specific plot and photo numbers with each experimental manipulation across the research site.

This comprehensive 15-year report details the Montane Alternative Silvicultural Systems Project, which tested the efficacy of different harvesting treatments, including clearcutting, patch cutting, and various forms of retention, on forest health and regeneration in coastal British Columbia. Key findings reveal that while conifer survival remained consistent across treatments, tree height and volume growth was generally slower in the shelterwood environment due to reduced light, and the single most effective way to boost planted tree growth was through intensive vegetation control. Conversely, the shelterwood system successfully maintained the greatest understory species diversity and composition most similar to the uncut old-growth forest, minimizing the loss of shade-loving plants. The long-term data emphasizes a crucial trade-off: maximizing early conifer growth favors more open treatments, but retaining pre-harvest biodiversity values is best achieved with substantial canopy protection.

The Montane Alternative Silvicultural Systems project is a 25-year study designed to evaluate how different harvesting methods impact regeneration, wildlife habitat, and aesthetics at high elevations on Vancouver Island. This research compared standard clearcutting with three alternative silvicultural systems including patch cut, green tree, and shelterwood, while tracking the growth and survival of five conifer species. The findings revealed that planted Douglas-fir was the fastest growing species across all treatments, despite experiencing the highest rate of mortality. The research also confirmed that post-planting efforts such as vegetation control significantly improved the volume and growth of species like western hemlock and amabilis fir over the long term.

This study, conducted at the Montane Alternative Silvicultural Systems site, investigated the phenomenon of growth check in young amabilis fir trees, characterized by a sharp decline in annual height increment approximately ten years after planting. Researchers hypothesized that this severe growth limitation was linked to aggressive competition from ericaceous shrubs, such as Vaccinium species, resulting in limited nutrient availability, particularly nitrogen deficiency. By comparing different harvest treatments and the use of early herbicide treatment, the study concluded that vegetation control was the most significant factor in maintaining growth - trees without herbicide were often severely stunted and exhibited greater Vaccinium cover. The findings establish that high shrub competition coupled with low foliar nitrogen are reliable indicators for diagnosing and predicting this critical growth failure on coastal montane sites.

This report outlines the Montane Alternative Silvicultural Systems study, a large-scale project designed to test the ecological and operational feasibility of harvest methods beyond conventional clearcutting in coastal British Columbia montane forests. The research examined the biological and silvicultural impacts of four systems, including clearcut, patch cuts, green tree retention, and shelterwood, to address concerns regarding regeneration, aesthetics, and biodiversity in challenging high-elevation environments. Key findings indicated that while clearcutting was often the most cost-effective, alternative systems faced specific issues, such as increased operational costs and shade limitations that suppressed seedling growth in the shelterwood treatments. The results offer actionable implications, suggesting that small patch cuts and low retention levels can be successfully implemented without significantly reducing early plantation performance.

This study aimed to identify viable silvicultural alternatives to conventional clearcutting for promoting successful forest renewal in black spruce stands across the eastern Canadian boreal zone. Researchers evaluated whether partial harvesting techniques, specifically variations of shelterwood and seed-tree cutting, could achieve adequate conifer density over a ten-year period. The results confirmed that these partial harvest methods, when implemented alongside mechanical site preparation such as spot scarification, successfully facilitated sufficient density of black spruce regeneration. The research supports the use of shelterwood and seed-tree systems combined with soil disturbance as effective management strategies for meeting sustainable forest productivity objectives.

This document summarizes the findings of the Montane Alternative Silvicultural Systems study, detailing a long-term comparison of how different harvesting techniques affect the survival and growth of western redcedar and yellow cedar. The study contrasted methods such as clearcut, shelterwood, and various retention systems over a 28-year period to assess key metrics like height and volume at the 25-year mark. The conclusions revealed that the silvicultural system profoundly impacts growth rates, showing that western redcedar grew fastest in clearcuts while yellow cedar achieved greater volume and height in the shaded shelterwood environments. This indicates distinct species preferences regarding light exposure following logging.

This document outlines best management practices developed by the Chief Forester to reduce the harmful effects of slash pile burning in British Columbia forest management. The core purpose is to minimize waste, lower greenhouse gas emissions, and maximize fibre utilization through integrated planning, silviculture, and harvesting techniques. Rather than offering prescriptive solutions, the document presents a range of options, such as promoting partial cutting and scattering woody debris, which must be evaluated based on site-specific factors like fire risk, biodiversity, and economics. This document seeks to treat forest management as a versatile tool to achieve diverse environmental and resource values.

This paper provides an ecological and management overview of the old-growth forests in Canada's Montane Cordillera, a region spanning British Columbia and Alberta known for having the nation's most diverse range of old-growth coniferous forests due to its varied climates and natural disturbance regimes. The author emphasizes that a forest's history of climate and disturbance profoundly influences the abundance and structure of old-growth stands, noting that wetter climates support more abundant old forests and old-growth-dependent organisms, such as epiphytic lichens. The text critiques the challenges of defining old-growth, which is often arbitrary and dependent on an ecologist's viewpoint, and highlights the urgent need for a better ecological understanding to make informed land-use decisions for both the wet-belt rainforests and the drier forests, which are heavily impacted by human activities.

This paper examines ecosystem management strategies for the paludified boreal forests of Canada, emphasizing how to simultaneously enhance wood production, biodiversity, and carbon sequestration. The authors delve into how natural disturbances, particularly fire severity, influence forest dynamics, soil properties, and the diversity of plant and invertebrate communities. They then contrast these natural processes with the impacts of different logging methods on soil, productivity, and understory vegetation, highlighting how traditional clearcutting and careful logging compare to natural fire regimes. Finally, the paper discusses the critical role of these forests in carbon sequestration and proposes management approaches that emulate natural disturbances to maintain old-growth forest characteristics and mitigate climate change.

This document is a literature review for British Columbia focusing on the relationship between tree wounding and partial-cut harvesting practices. The primary purpose is to provide a consolidated reference on tree damage, wood-decaying fungi, and the resulting losses. The document details the physical response of trees to injury, introducing concepts like compartmentalization of decay in trees, which explains how trees attempt to wall off damage. The document explores how harvesting activities, particularly logging injuries to residual trees, create entry points for various wound parasites and true heartrots, with the severity of decay being strongly influenced by factors like wound size and age, and the location of the injury.

This technical report presents an analysis of a skyline partial cutting operation conducted in British Columbia's Interior Cedar-Hemlock zone. The primary goal was to evaluate the economic and operational feasibility of using a specific cable yarding system to meet modern silvicultural goals in this ecosystem. This report confirmed the importance of careful logging planning and developed productivity functions to help forest engineers predict and optimize the use of single- and multi-span skyline configurations in future partial cuts.

This paper introduces the retention system, a silvicultural system to align forest management with the principles of ecosystem management, moving beyond a singular focus on sustained production of timber. This system is specifically designed to implement the variable retention approach to harvesting, which prioritizes retaining trees and structures for ecological objectives, such as maintaining structural heterogeneity and protecting biological legacies. The paper argues for the necessity of this new terminology to clearly convey the intent of management where the maintenance of ecological complexity is as crucial as traditional yield expectations, acknowledging that these goals may reduce timber productivity. The retention system is defined by its requirement to maintain long-term structural diversity and ensure forest influence over the majority of the harvested area.

These guidelines serve as a critical framework for managing and conserving the Interior Douglas-fir resource for the Prince George forest region until formal Landscape Unit objectives are implemented. The document outlines guiding principles that emphasize the tree's importance for biodiversity and structural diversity, particularly recognizing its role in a wildfire-dominated natural disturbance regime. A key objective is ensuring No Net Loss of Douglas-fir Forest Types by requiring that harvested Douglas-fir stands are regenerated with the same or greater composition of the species. The guidelines demand the retention of a post-harvest range of Douglas-fir stand structure and age classes, including large old trees, and include a detailed rating system to assess sites for their regeneration and retention potential.

This core purpose of this document is to present ideas and case studies demonstrating how to integrate ecological restoration into routine forest management practices to enhance biodiversity, reduce risks, and achieve sustainable certification. This document outlines key ecological issues, such as landscape fragmentation and the loss of natural stand structural elements, and details corresponding restoration approaches across eleven distinct case studies, from restoring open forest and open range through commercial thinning to mitigating road impacts and restoring riparian habitat integrity. Finally, the document prioritizes specific forested ecosystems with high priority restoration needs in BC, offering tailored solutions for zones like the Interior Douglas-fir and Coastal Western Hemlock.

This study investigates the factors influencing natural regeneration in uniform shelterwood systems, specifically focusing on Douglas-fir in the Sub-Boreal Spruce Zone. The study details methods for assessing seedfall density, seed predation, seedbed distribution, and the germination and survival rates of seedlings under various harvesting treatments. The core purpose is to understand how these elements interact to determine successful conifer regeneration, particularly noting that rotting wood and mineral soil are superior seedbeds compared to forest floor and moss, and that while harvesting can increase mineral soil exposure, it is often insufficient to maximize regeneration without additional scarification. The findings suggest that while all tested shelterwood methods promote adequate regeneration and frost protection, lower residual basal areas combined with significant forest floor disturbance are most favorable for Douglas-fir seedling growth and survival.

This paper investigates innovative harvesting and silvicultural systems designed to sustainably manage western Canada's boreal mixedwood forests, specifically focusing on the protection of immature white spruce while simultaneously enhancing deciduous regeneration. The studies were conducted in central and northern Alberta with the aim to develop cost-effective and operational methods for balancing the needs of conifer and deciduous users to maintain biodiversity and ecosystem sustainability. Key findings include the demonstration that specific equipment and techniques can significantly reduce damage to spruce during harvest, with particular emphasis on feller-buncher operations, carefully planned machine corridors, and wind buffers to mitigate blowdown.