6 resources found

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 document evaluates the early success of the Northern Wetbelt Silvicultural Systems Project, a long-term study comparing how different logging methods affect forest health in east-central British Columbia. Researchers analyzed initial survival rates of planted spruce and cedar alongside the frequency of wind damage to residual trees across various harvest intensities, ranging from clearcuts to partial-retention systems. Their preliminary findings indicate that seedling survival is exceptionally high across all sites, while the risk of trees snapping or uprooting increases moderately as more of the surrounding forest canopy is removed. By providing baseline climate data and specific monitoring recommendations, the document serves as a foundational assessment to guide sustainable forest management and ecological restoration in the interior cedar-hemlock subzones.

This extension note investigates recent changes in aboveground live-tree carbon within spruce and fir-dominated sub-boreal forests in the interior of British Columbia. The study specifically re-evaluated carbon stocks between 20032004 and 2018 at the Aleza Lake Research Forest to understand how carbon storage is impacted by tree species and size. The authors found that while younger forest stands generally accumulated carbon, older stands with larger trees showed a decline in aboveground live-tree carbon, largely due to increased mortality of these large trees. This highlights a critical concern regarding the role of mature forests in carbon sequestration amidst accelerating climate change and increasing tree mortality rates.

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 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.

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.