77 resources found

This document details a case study on varaible retention as a method to restore old-growth forest conditions in British Columbia's East Kootenay region. It explains how historical land management, including fire suppression, drastically altered forest structures, leading to a decline in biodiversity and an increase in fire risk. The study outlines a silvicultural prescription designed to mimic natural disturbances by strategically removing timber, aiming to re-establish the characteristics of pre-settlement old-growth stands, such as varied tree sizes and increased light penetration. The purpose of this study is to demonstrate a sustainable management approach that not only mitigates fire hazards but also enhances wildlife habitat and supports the long-term health of the forest ecosystem.

This presentation focuses on the establishment and growth of aspen stands within the Sub-Boreal Spruce zone of British Columbia. It draws upon existing research to discuss key factors influencing aspen regeneration, including the importance of removing apical dominance through disturbances like logging or fire to promote suckering. The presentation also details harvest considerations, such as the benefits of winter harvesting and the negative impacts of excessive canopy retention and soil compaction. The presentation explores the effects of various silvicultural practices and the interactions between aspen and coniferous species like spruce and pine, providing guidance on site selection and stockingregeneration surveys for successful aspen management.

This extension note investigates two site preparation techniques, Rough and Loose mounding and furrowing with a RipPlow, for improving plant re-establishment on forested sites that have been wood mulched during winter industrial activities. The study evaluated the effectiveness of these methods in displacing the mulch and exposing soil to create favorable conditions for revegetation. While both techniques enhanced surface soil heterogeneity and facilitated the regeneration of deciduous species, Rough and Loose mounding proved more consistently effective at moving the mulch. Despite this, the more cost-effective RipPlow method showed promise, particularly in areas with thinner mulch layers, suggesting that supplemental planting might be beneficial in heavily mulched areas treated with this approach.

This technical report investigates the potential of variable retention silvicultural systems to manage forests in British Columbia's Nelson Forest Region, aiming to mitigate anticipated reductions in wood supply due to new environmental regulations. The study specifically evaluates how different variable retention methods impact stand productivity and overall wood flow despite the widespread presence of Armillaria root disease. Using the PROGNOSIS growth model, the authors identify low-risk timber types and develop management guidelines to balance timber harvesting with objectives like biodiversity and visual quality and reccomend a more balanced mixture of clearcutting and variable retention approaches to ensure sustainable forest management.

This technical report details a study on how understory vegetation responds to different burn treatments and soil moisture conditions in the Interior Cedar-Hemlock dry warm subzone. The core purpose was to monitor and compare vegetation changes in areas that experienced no burn, moderate burns, or severe burns following a fall slashburn. The research highlights the dominant plant species that emerged in each environment over four years, noting differences in species composition and competition dynamics, particularly concerning the impact of a fall slashburn and soil seepage on vegetation development.

This technical report presents a retrospective investigation of partial cuts within the Golden Forest District. The primary purpose of the study was to explore the relationship between regeneration density and various site factors following partial harvesting. Researchers found that while abundant natural regeneration occurred, its success was not strongly correlated with specific harvest treatments, but rather more significantly influenced by factors like brush potential and site preparation. The report recommends guidelines for residual basal area levels to optimize seed supply and moisture protection in these forest ecosystems.

This document outlines the strategic approach to silvicultural systems in the Great Bear Rainforest, focusing on Ecosystem-Based Management. A central theme is the retention silvicultural system, which involves deliberately leaving trees and vegetation within harvested areas to maintain forest structure and biodiversity. The application of this system is context-dependent, influenced by the proportion of mature and old forest at both the broader landscape unit and immediate cutblock scales, with increased retention mandated where older forests are scarce. Additionally, the document addresses windthrow considerations at both landscape and stand levels, providing guidelines to mitigate damage while prioritizing the retention system in areas of lower wind hazard.

The Sustainable Forest Management certificate is a flexible, career-focused program designed for forestry professionals aiming to advance their skills or pursue Registered Professional Forester designation. Delivered through three stackable micro-credentials, the program covers forest ecology, silviculture systems, harvesting practices, and forest health management. Learners gain practical, applied knowledge to assess forest disturbances and implement sustainable management strategies.

The Forest Management Planning micro-certificate will equip participants with foundational knowledge and tools to develop and evaluate forest management plans. Participants will learn to assess forest ecosystem services, balance competing objectives, and apply planning concepts across multiple scales. The program integrates case studies from British Columbia and emphasizes sustainable forest management practices. By the end, participants will be able to critically analyze management options and create effective, goal-oriented forest plans.

The Communication Strategies for Resource Practitioners micro-certificate is designed to help professionals in natural resource sectors develop impactful communication skills. Through four focused courses, participants will learn written, oral, multimedia, and social change strategies tailored to environmental contexts. The program emphasizes audience engagement, stakeholder collaboration, and reputation-building for the forestry industry. Learners will gain hands-on experience through case studies and campaign development, preparing them to communicate complex ideas effectively and persuasively.

The Forest Health Management micro-certificate will teach professionals how to detect, diagnose, and manage forest health issues caused by insects and diseases. Through four sequential courses, learners will explore insect and disease biology, ecology, identification, and mitigation strategies. The program emphasizes early detection and response to forest health threats, which are increasingly influenced by climate change and globalization.

FPBC's professional development courses are designed to enhance the competence of forest professionals in British Columbia. These e-courses and micro-courses cover topics such as climate change, ethical conduct, forest stewardship, conflict management, and working with Indigenous communities. Learners gain practical skills in areas like visual resource management, fieldwork quality, and professional forestry practice rights. Each course supports ongoing learning and includes a certificate of completion to recognize achievement.

The Malcolm Knapp Research Forest mission is to provide a world class environment for research and education in forestry and allied sciences. It is located near Maple Ridge and is close enough to UBC campus for students to visit for field trips or project work. The UBC Malcolm Knapp Research Forest has a thriving research community which includes professional researchers and students from several UBC faculties, from Simon Fraser University, from BC's provincial government, and from the Canadian federal government. Since the establishment of the Research Forest, over 900 research projects have been initiated on the land-base, and more than 100 of these are still active. Many of these active projects are long-term in nature, spanning close to 50 years and including some of the most extensive datasets in western North America. While the majority of the projects focus on different aspects of forestry and forest management, several of the more recent projects touch on other, unrelated fields, such as astronomy and forensic entomology. The last 10 years has seen a shift in the focus of forestry research, from projects looking predominantly at maximizing growth and yield in managed forests, to projects which are more concerned with measuring impacts of different forest practices on the ecology of our forests. Studies of growth and yield continue, however, and these projects include some of the longest datasets the research forest has. For a full list of research projects being pursued at the Research Forest, please check the Research Projects Database found at https://rpd.forestry.ubc.ca/auth

The Alex Fraser Research Forest is located near Williams Lake and showcases sustainable forest management practices in a range of forest ecosystems of the B. C. Interior. It provides long-term site security for research projects, inexpensive researcher accommodation, and an outdoor classroom for both education and demonstration.

This paper explores how wildfires and beetle communities interact to influence Douglas-fir beetle outbreaks in British Columbia's forests. Traditionally, DFB populations are expected to surge after fires due to an abundance of weakened trees, but this study reveals a more complex dynamic. The presence of woodboring beetles, which also colonize fire-injured trees, can significantly constrain DFB population growth through interspecific competition. Specifically, when woodborers infest over 50% of trees in a stand, DFB reproduction falls below replacement levels, suggesting that these competitors can suppress potential DFB irruptions and ultimately influence forest resilience after disturbances.

This document investigates how partial harvesting strategies, designed to enhance mule deer habitat and allow timber extraction in British Columbia's dry Douglas-fir forests, impact complex interactions with natural disturbances like insect outbreaks and wildfires. The study, spanning 30 years, found that while short-term harvesting altered forest structure and reduced the immediate risk of crown fires and Douglas-fir beetle infestations, many of these structural and susceptibility changes reverted over the long term. The removal of harvesting residuals proved more significant in mitigating long-term disturbance risks, particularly for Douglas-fir beetles and intense surface fires, than the time elapsed since the treatment itself. The authors conclude that sustainable forest management integrating timber extraction and mule deer habitat conservation is achievable if partial harvesting occurs at intervals of 30 years or less and residuals are promptly cleared.

John Prince Research Forest (JPRF) is a unique institution, envisioned, initiated and managed cooperatively between Tl'azt'en First Nation and the University of Northern British Columbia. Developing innovative approaches to natural resource conservation and management that combines First Nations' traditional and western scientific approaches to understanding the natural world, is what makes John Prince Research Forest special. Located in the dry sub-boreal spruce biogeoclimatic zone of the Nechako Plateau, the northernmost subdivision of BC' s Central Interior Plateau. The JPRF falls within the moist interior natural disturbance unit, characterized by large wild fire stand replacement events typically on a 100-200 year cycle. The natural forest types are an uneven-aged mix of Douglas-fir, spruce, pine, subalpine and deciduous types. These highly productive northern forests have distinctive understories of rose, spirea, soopallie, cranberry, thimbleberry, red osier dogwood, black twinberry, devil's club and huckleberry varieties. Explore John Prince Research Forest publications at: https://www.jprf.ca/research

This presentation focuses on managing forests for resilience as a crucial method for achieving both forest sustainability and value. It begins by establishing the importance of resilience in the context of forestry, defining it across ecological, engineering, and social-ecological perspectives, and distinguishing between general and disturbance-specific resilience. The presentation then explores how to promote resilient forests, emphasizing the role of diversity, complexity, and understanding ecological systems. Through case studies and management principles, it demonstrates practical ways to enhance forest resilience at various spatial scales, acknowledging the inherent trade-offs in managing for future uncertainties like fire, insects, drought, and climate change.

The BCCFA mission is to promote and support the practice and expansion of sustainable community forest management in British Columbia. The BC Community Forest Association represents over 100 rural and Indigenous communities across our province. The BCCFA shares a vision of a network of diverse community forest initiatives, where local people practice ecologically responsible forest management in perpetuity, fostering and supporting healthy and vibrant rural communities and economies.

The Coastal Douglas-fir Conservation Partnership is a collaboration of agencies, organizations and land managers who are interested in promoting and protecting healthy Coastal Douglas-fir and associated ecosystems into the future. The mission of the CDFCP is to promote the conservation and stewardship of the Coastal Douglas-fir and associated ecosystems in south-western British Columbia through sound science, Indigenous knowledge, shared information, supportive policies, and community education.