104 resources found

The Aleza Lake Research Forest is a 9000 ha university-based outdoor research facility and working forest 60 km east of Prince George, BC. The mandate of the Research Forest is to provide research and education facilities and opportunities to the University of Northern BC and other institutes, universities, government agencies, private sector research, schools and other educational groups with regards to ecosystem and resource management studies within the wet sub-boreal spruce biogeoclimatic zone. The research and education programs are multidisciplinary with an emphasis on: Partial cut harvest systems, Biological Diversity, Climate Change and Environmental Monitoring in Small Forest Tenures. The Aleza Lake Research Forest provides a location for field research and education, and also facilitates the development, implementation and evaluation of research and education programs with the user groups.

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 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.

This paper explores the complexities and challenges associated with using gap-based silviculture in the mesic northern forests of North America. The authors begin by outlining the theoretical basis of gap management, which assumes that creating canopy openings enhances tree species diversity. However, the paper emphasizes that relying solely on varying gap size often falls short of achieving diversity goals due to a multitude of interacting factors beyond light availability. These crucial factors include site history, seed dispersal, competition from other vegetation, and the impact of herbivores. The authors propose a revised, more integrated concept of gap-based silviculture that incorporates a broader range of ecological considerations and active management of understory conditions to promote structural complexity and enhance tree species diversity in these valuable forest ecosystems.

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 paper examines how community forests in British Columbia, Canada, are transforming wildfire governance by shifting away from traditional, centralized, and reactive approaches toward proactive, locally-driven management. The authors highlight that CFs, which are long-term forest tenures managed by Indigenous and/or local communities, act as local leaders in mitigating wildfire risk. Their success hinges on crucial factors such as financial and social capacity, particularly the ability to build trust and strong relationships with both community members and government agencies. Despite persistent challenges, the study concludes that CFs are a critical form of local wildfire governance, effectively implementing diverse strategies and fostering a fire lens in forest management to enhance wildfire resilience across various scales.

This report compiles over 80 years of fire research to explain how human interventions have altered natural fire regimes, particularly in dry Western U. S. forests. The document emphasizes that accumulated fuels and dense forest structures, a departure from historical conditions, lead to more intense and severe wildfires, posing risks to both ecosystems and human communities. It details various fuel treatments, such as thinning and prescribed fire, as crucial strategies for restoring fire-resilient forests by reducing surface, ladder, and crown fuels. The report advocates for a landscape-level approach to fuel management, acknowledging that while models and observations inform these efforts, uncertainties remain in predicting exact fire behavior.

This document addresses the challenge of balancing timber harvesting with the conservation of at-risk plant communities that depend on mature and old forest conditions in British Columbia's Coastal Douglas Fir biogeoclimatic zone. Recognizing the scarcity of these older forests, the document outlines silvicultural practices aimed at maintaining existing structural diversity in high-conservation areas and accelerating the development of old-growth characteristics in younger, more homogenous stands. Ultimately, it seeks to equip forest professionals with strategies to enhance the ecological functions of older forests within provincial forest lands.

The SIP vision is that there is an accelerated growth of innovative silviculture by improving knowledge of these systems in British Columbia using research and extension. The SIP integrates both extension and knowledge creation to create impactful resources for forest practitioners. Using collaborative partnerships with communities and practitioners, we support diverse perspectives to fill critical knowledge gaps, enhance access to knowledge, and facilitate knowledge exchange.

This handbook outlines the principles and best practices for silvicultural systems in British Columbia, emphasizing a shift toward complex, multi-value forest management in the 21st century. Its primary purpose is to serve as a central reference and conceptual framework for forest professionals to design and implement silvicultural plans that move a stand from its current state to a desired future condition through planned interventions, known as stand development pathways. A crucial and recurring theme is the growing role of First Nations, including their traditional knowledge, values, and stewardship goals, which are integrated alongside ecological, social, and economic objectives. The document provides detailed guidance on technical aspects, such as managing for biodiversity, mitigating risks like windthrow and pests, and utilizing adaptive management for continuous improvement in forestry practices.

This webinar examines how legal objectives for mule deer winter range and old growth management affect the Stswecem'c Xget'tem First Nation's ability to reduce wildfire risk, adapt to climate change, and restore ecocultural values in their south-central BC forests. Despite the impacts of settler-colonial policies, SXFN has long stewarded their territory using fire. In partnership with the University of British Columbia, they assessed crown fire risk, fuel loads, and potential treatments, highlighting both current stewardship efforts and the importance of Indigenous sovereignty in land management.

This document outlines best management practices for fuel treatment within British Columbia's coastal fire weather zone, encompassing the Coastal Western Hemlock and Coastal Douglas Fir biogeoclimatic zones. It details the ecology of this temperate rainforest, noting that while mature stands typically resist widespread fires due to high moisture and closed canopies, disturbed areas and specific drier zones are more prone to fire, especially with the presence of invasive species. The core purpose is to guide fire management through specific interventions, focusing on surface, ladder, and crown fuel reduction to prevent canopy fires, alongside recommendations for forest health mitigation to prevent pest outbreaks after treatment. The document also references established Canadian Forest Fire Behaviour Prediction System fuel types to characterize fire risk and includes practical examples of post-treatment characteristics from various locations.

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 technical report introduces Landscape Fire Management as a crucial, integrated approach to addressing escalating wildfire risks while restoring ecosystem health. LFM is presented as a paradigm shift, moving beyond localized efforts to encompass broader landscapes by coordinating various land management activities and setting complementary wildland fire objectives across different land-use zones. The document outlines six core principles for effective LFM practice: defining the landscape, understanding current and future conditions, assessing risks to values, setting cohesive objectives, coordinating interventions, and continuously learning through adaptive management. This report aims to guide diverse land managers in British Columbia towards a more resilient coexistence with fire by detailing strategies like fuel breaks, fire-tolerant stands, and managing fuel loads.

This paper investigates the effectiveness of various fire management treatments on western U. S. coniferous forests, which have become more susceptible to severe wildfires due to a century of fire exclusion and altered land use. Researchers analyzed the impacts of mechanical thinning, prescribed burning, and a combination of both across six diverse sites. The study found that mechanical thinning combined with prescribed fire was the most effective strategy for significantly reducing surface fuel loads, decreasing the likelihood of severe crown fires, and lowering predicted tree mortality. While mechanical-only treatments were less consistent, they were effective when whole-tree harvesting systems were used, minimizing residual surface fuels.

This article explores the ecophysiological factors influencing seedling establishment in forest restoration efforts. It examines how a seedling's morphological and physiological characteristics interact with environmental conditions on restoration sites, ultimately determining its success. The article explores how light, temperature, and water availability affect seedling performance, highlighting the challenges posed by extreme conditions like frost or drought and the benefits of optimal growing environments. The critical role of nutrient cycling and competitive vegetation is also discussed, emphasizing that a comprehensive understanding of these interactions is key to applying effective silvicultural practices that maximize seedling growth and ensure rapid forest stand establishment.

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 extension note details the Prince George Small Streams Project, an initiative launched to evaluate the effectiveness of policies aimed at protecting the riparian functions and fish habitat values of small streams. The study assessed how a minimum riparian retention prescription impacted various stream characteristics. While the policy successfully met four of its five management objectives, it ultimately failed to maintain overall fish habitat values, particularly concerning the long-term supply of large woody debris, a significant decrease in litter fall, and an increase in stream temperatures due to reduced shade. Therefore, the authors recommend retaining all trees within 10 meters of the stream bank to better achieve desired environmental outcomes.

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.