76 resources found

This extension note explores the critical role of fire in the dry interior forests of British Columbia, which historically experienced frequent, low-intensity surface fires that maintained ecosystem health and biodiversity. The authors explain how human fire exclusion over the past 60 years has dramatically altered these forests, leading to increased fuel loads, higher tree density, altered species composition, and a greater risk of intense, large-scale crown fires. The documen then outlines four management options for these sites: continued fire suppression, controlled prescribed burns, mechanical fuel reduction, or a combination of these strategies, emphasizing the need to balance ecological, social, and economic considerations. Finally, the document highlights various ongoing research initiatives aimed at understanding fire regimes and developing integrated management solutions for these fire-adapted ecosystems.

This document from the BC Wildfire Service provides comprehensive guidance for developing Fuel Management Prescriptions, specifically for projects aimed at wildfire risk reduction funded by various government programs. It outlines the purpose and core principles of effective fuel management, emphasizing the need for specific and measurable targets for fire behavior reduction and site-specific considerations tied to WRR objectives. The document details the required sections and content for a FMP template, covering everything from project identification and descriptions of fuel treatment units to intricate details about soil characteristics, legal and non-statutory considerations, and precise fuel loading and treatment specifications. This document aims to equip qualified professionals with the necessary framework to design treatments that reduce fire intensity, support suppression efforts, and balance wildfire mitigation with other ecological and social values.

This document presents results from a long-term experiment examining the impact of spacing and thinning on coastal Douglas-fir plantations. The study, conducted over 28 years near Lake Cowichan, British Columbia, aimed to understand how different tree densities and thinning strategies affect various growth parameters like diameter, height, basal area, and total and merchantable volume. While acknowledging limitations due to site variation and a lack of replication, the report provides initial insights into managing Douglas-fir stands, emphasizing that higher density generally leads to smaller individual tree growth but greater overall stand volume, whereas thinning, especially heavy or early thinning, can positively influence tree size and merchantable volume.

This document details a long-term forestry study on the growth and yield of 56-year-old Western Hemlock stands in British Columbia, specifically examining the effects of commercial thinning over a 32-year period. The study found that while thinning did not significantly increase the overall cumulative yield, it did result in a larger average diameter for the remaining trees and an up to 8% greater usable total volume yield at the final harvest compared to unthinned stands. The decision to commercially thin these stands depends on whether a forester prioritizes a moderate increase in total volume or an improvement in the size and quality of the final harvested material.

This document details a 35-year study on the effects of commercial thinning on 50-year-old Douglas-fir stands on Vancouver Island. The study compared thinned and unthinned plots to analyze growth and yield metrics such as total volume, diameter, and mortality. While thinning led to a 12% increase in potentially usable total volume yield over the study period and produced larger diameter trees overall, it also resulted in an 18% reduction in total volume at final harvest compared to unthinned stands. The study suggests that commercial thinning provides earlier wood availability and larger trees, but does not significantly alter total gross annual growth or crop-tree size, offering valuable data for forest management models and strategies.

This manual outlines the comprehensive process for implementing commercial thinning operations in British Columbia, driven by the need to address fiber shortages caused by natural disturbances. The document is structured to guide various users, from forest planners selecting appropriate stands and assessing economic viability, to field supervisors and machine operators executing the thinning process. It details crucial stages including identifying suitable stands based on specific criteria like species and age, meticulous planning at the block level encompassing pre-harvest assessment and selecting optimal harvesting systems, and the practical implementation with an emphasis on coaching operators and diligent monitoring. The manual also highlights the importance of post-harvest assessment and considers broader implications, such as the long-term impact on timber supply and the integration of non-timber values like wildlife habitat and wildfire risk reduction.

This document serves as a comprehensive manual for forest professionals, outlining best practices for thinning operations effective April 2025. Its primary purpose is to support sustainable forest management by providing science-based guidelines for developing and implementing thinning prescriptions, particularly for enhancing timber production and quality. The guidance emphasizes maintaining ecological and social objectives while focusing on operational efficiency, minimizing environmental impacts, and promoting innovative approaches. It also details the required data collection and monitoring processes to ensure the effectiveness and compliance of thinning activities, thereby fostering healthy, resilient forest ecosystems across British Columbia.

This technical report explores cost-effective thinning methods for densely regenerated lodgepole pine stands in British Columbia resulting from wildfires. The study evaluates semi-mechanized treatments, which combine machine-based strip mulching with manual thinning, against traditional manual-only thinning. The findings suggest that both fully and semi-mechanized methods were less expensive than solely manual approaches and preserved enough trees to meet basic provincial stocking standards, though meeting long-term density targets might require further investigation.

This report outlines a management strategy for mule deer winter ranges in the Cariboo-Chilcotin region of British Columbia, specifically focusing on transition and deep snowpack zones. Developed through years of research and aligned with existing land use plans, the document provides management objectives and strategies for forest harvesting to maintain and restore suitable habitat. Key areas addressed include access planning, stand age structure, tree species composition, opening sizes for harvests, and the spatial layout of openings. It also includes appendices detailing snowpack zones, biodiversity considerations, forest health management, and a history of related research and planning efforts, aiming to guide forest managers and monitor habitat preservation.

This document details a study using the TASS II growth model to assess how different forest management techniques impact the timber production of lodgepole pine in mixed stands with aspen. Prepared for the Interior Broadleaf Working Group, the report simulates various scenarios involving different densities of aspen and several treatments like brushing at different ages and herbicide application. The core purpose is to provide guidance on choosing the most effective brushing strategies to maximize conifer timber objectives in the Prince George Timber Supply Area, by analyzing the projected growth and yield of lodgepole pine under these varying conditions. The study meticulously examines factors such as site index, height growth, tree survival, and ultimately, the merchantable volume of pine achieved with and without intervention.

This document details the SADO management system, a conservation-focused approach specifically designed for sustaining old-growth characteristics in aspen, birch, and cottonwood forests within British Columbia's SBS zone. Recognizing the relatively short lifespan and successional vulnerability of these deciduous stands, the system provides a step-by-step guide for forest managers. Its core principles revolve around monitoring regeneration, selectively removing conifers, managing herbivore browsing, ensuring adequate light, and addressing regeneration capacity to promote the development of self-sustaining, all-aged stand structures that continuously exhibit old-growth attributes, with a particular emphasis on maintaining ecological values and biodiversity.

This document outlines how participating forestry companies and BC Timber Sales intend to manage forests sustainably, aiming to balance ecological, economic, and social values. The plan incorporates a Canadian Standards Association certification process and emphasizes a landscape-level approach to forest management, considering natural disturbance patterns. Key components include establishing values, objectives, indicators, and targets developed with public and Indigenous input, along with specific strategies for timber harvesting, reforestation, road access, wildlife habitat, and engagement with First Nations and the public. The SFMP serves as a guiding document for operational planning and continuous improvement in forest management practices within the defined area.

This document presents a study investigating how different methods of controlling aspen growth impact the future yield of white spruce and lodgepole pine. The research utilizes the Mixedwood Growth Model for British Columbia to simulate various scenarios, including different initial aspen densities and brushing treatments. By comparing the resulting timber volumes and mean annual increment at a rotation age of 75 years across different subzone site series, the study aims to identify the most effective brushing approaches for maximizing the productivity of the coniferous species in mixedwood stands.

This document outlines guidelines for managing mixedwood forests within the Fort St. John Pilot Project in British Columbia, aiming to meet the objectives of their Sustainable Forest Management Plan. A central theme is the classification and tracking of different forest types across the landscape using a ledger system to ensure long-term balance. The guidelines also describe various proposed reforestation methods, ranging from creating mosaics of single-species stands to fostering intimate mixtures of conifer and deciduous trees, with the overall purpose of achieving desired future forest conditions at a landscape level while incorporating new scientific understanding.

This document provides operational management guidance for forest managers on how to integrate wildlife habitat considerations into forestry practices. It identifies ten key, broad habitat objectives relevant to many forested regions, focusing on maintaining or encouraging features like coarse woody debris, wildlife tree patches, and specific habitat needs for various species, including cavity-nesting birds and ungulates. For each objective, the report offers management guidelines and silvicultural practices, suggesting how activities like harvesting, regeneration, and stand tending can be adapted to support wildlife. The document emphasizes using these guidelines in areas with high habitat suitability, as defined within associated forest stewardship plans, and intends to complement existing provincial and regional forest management guidelines.

This document outlines the principles and specific strategies guiding forest management within the Aleza Lake Research Forest. It's structured into key sections covering silvicultural practices, goals, and standards, emphasizing a balanced approach to timber production, ecological values, research, and education. The document details aspects like reforestation methods, species selection, rotation lengths, and management of competing vegetation, all while considering climate change adaptation and forest health. This document serves as a comprehensive guide for ensuring sustainable and diverse forest management on the ALRF landbase, aligning with both provincial regulations and the unique objectives of a research and demonstration forest.

This paper explores the opportunities and limitations of forest thinning as a strategy to enhance the resistance and resilience of trees and forests to global change. The authors reviewed existing literature to assess how thinning impacts forest vulnerability to key stressors like drought, fire, insects and pathogens, and wind. While the study identifies several instances where thinning can be beneficial, particularly in mitigating drought and fire risks, it emphasizes that thinning is not a universal solution and its effectiveness varies depending on the specific stressor, forest type, and management practices. The paper highlights the need for more research, especially in underrepresented regions, to better understand the long-term effects of thinning and to develop effective adaptive forest management strategies in the face of increasing global environmental challenges.

This extension note details a study on how adding nutrients affects the growth of young red alder trees on Vancouver Island. Recognizing the increasing importance of red alder for various products and ecological restoration, the research investigates whether fertilization, particularly with phosphorus and other elements, can enhance their early development. The document describes field trials conducted at multiple locations, outlining the experimental setup, fertilization treatments, and the resulting stem growth responses observed in the first year after application. The document aims to provide initial insights into optimizing the growth and quality of red alder through nutrient management in this region.

This document synthesizes existing research on forest fuel treatments and their effectiveness in modifying wildfire behavior. Recognizing that the local, currently wetter forests are projected to become similar to drier, fire-prone forests of the Western US due to climate change, the report explores how fuel treatments can reduce wildfire intensity and spread. It defines fuel treatments and outlines their objectives, such as ecosystem restoration and protecting communities, emphasizing that these actions aim to change fire behavior, not prevent fire ignition. Furthermore, the report delves into empirical evidence from past wildfires encountering treated areas, highlighting key principles for effective treatments in mature stands, including surface fuel reduction, increasing height to live crown, decreasing crown density, and retaining large fire-resistant trees. The ultimate purpose is to provide guidance for implementing appropriate and effective fuel management strategies in the Southern West Kootenays.

This document serves as a foundational guide for adapting forest management practices in the West Kootenay region of British Columbia in the face of climate change. Recognizing the confirmed reality of climate change and its projected impacts on the region, the report outlines a starting point for forest practitioners to consider and implement adaptation strategies. It structures these strategies across different scales - landscape, ecosystemstand, and operational - offering specific actions relevant to the unique vulnerabilities identified in the northern, mid, and southern subregions of the West Kootenays. Ultimately, the report emphasizes the need for a deliberate and informed decision-making process to select and implement effective adaptation measures, advocating for ongoing monitoring and collaboration among stakeholders.