58 resources found

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 document presents a synoptic assessment of stream and riparian conditions in the Bowron River watershed, conducted 20-30 years after extensive salvage logging. The study investigates the long-term impacts of harvesting, prompted by a spruce beetle outbreak in the 1970s and 80s, on stream health and surrounding riparian areas, which are crucial for ecological balance. Using the Routine Riparian Effectiveness Evaluation, the assessment compares current conditions to historical watershed assessment procedure rankings, revealing that while some recovery has occurred, the lack of mature vegetation in riparian zones continues to significantly impact stream characteristics, particularly the supply of large woody debris whcih is vital for stream morphology and fish habitat. The authors conclude by offering guidance statements to improve forest management practices, emphasizing the importance of riparian buffers, proper road deactivation, and minimizing soil compaction to mitigate ongoing adverse effects.

This document details a research project in British Columbia testing various silvicultural systems beyond traditional clearcutting to manage forests for multiple values, not just timber. The study evaluated the costs, productivity, tree damage, and soil disturbance associated with different harvesting methods used in the first phase of the project. The findings highlight the trade-offs between different approaches, noting that methods like clearcutting were most cost-effective for harvesting, while alternative systems resulted in varying levels of tree damage and soil disturbance.

This extension note investigates the effects of different site preparation methods on a high-elevation wet, cold forest in British Columbia. The study examines the initial responses of planted and natural tree regeneration, soil properties, vegetation, and biodiversity to these treatments within various harvesting systems. The report aims to provide guidance for operational decisions regarding site preparation in these challenging environments, considering both silvicultural success and broader ecological impacts.

This document details an analysis using the PrognosisBC model to evaluate various partial-cutting silvicultural options for long-term forest management compared to clearcutting. The authors explore how different harvesting methods in a specific forest type could meet sustainability targets, encompassing biodiversity, visual quality, old-growth recruitment, and timber production over a 100-year rotation. By modeling several scenarios and comparing their outputs, the study aims to familiarize readers with the PrognosisBC tool and demonstrate its utility in assessing trade-offs and informing complex forest management decisions, while also acknowledging the model's limitations and the crucial role of professional judgment.

This extension note serves as a guide for adapting forest and range management practices in the Skeena Region of British Columbia to the realities of climate change. Recognizing the significant impact of a warming and wetter climate with increased extreme weather on local ecosystems, it synthesizes current climate change research to project future conditions and their ecological consequences. The document outlines potential adaptation strategies for resource professionals and government staff involved in operational planning, effectiveness monitoring, and climate action plans. Ultimately, the goal is to foster resilient ecosystems that can continue to provide essential services and products in the face of ongoing climatic shifts.

This extension note outlines the successional pathways of various forest ecosystems in British Columbia and how these natural trajectories are influenced by natural disturbances, forest management practices, and projected climate change. The document describes typical post-disturbance development, the impacts of human interventions like harvesting, and potential future shifts due to altered temperature and precipitation regimes. The primary aim is to provide natural resource managers with a concise overview to inform strategies for building resistant and resilient forests in the face of ongoing environmental change.

This extension note examines the evolving management of boreal and sub-boreal mixedwood forests in British Columbia, specifically focusing on the integration of broadleaf trees like aspen and birch into traditionally conifer-dominant landscapes. While historical policies treated broadleaves as an impediment to timber production, this document highlights their essential contributions to ecological resilience, biodiversity, and soil health, alongside their potential for industrial diversification. Through a comprehensive literature review, the authors identify a critical trade-off in growth and yield, noting that while broadleaf competition can reduce individual conifer size, mixed stands often achieve a higher total wood volume than pure stands. This document serves as a call for enhanced research and policy reform to bridge significant knowledge gaps, seeking to balance economic timber supply with the diverse long-term benefits of a natural forest mixture.

This document examines the growth and yield dynamics of a 14 year-old mixed-species plantation featuring Western redcedar and red alder in British Columbia. By comparing various planting ratios, the authors explore how complementary resource use affects tree development compared to single-species monocultures. The study reveals that while individual cedar growth improved in a balanced 50:50 mixture, the total stand productivity did not exceed that of pure stands, suggesting that mixtures offer benefits in biodiversity and wood quality rather than overall biomass volume. This document serves as a guide for forest managers to consider the ecological advantages of mixedwoods and provides a density threshold for maintaining conifer health when growing alongside alder.

This document examines a twenty-year study in British Columbia regarding the complex relationship between red alder and two conifer species, Douglas-fir and western redcedar. While alder is often removed by foresters because it competes for light and space, it also provides essential benefits by naturally fertilizing the soil with nitrogen. The findings suggest that maintaining a specific density of 100 to 200 alder trees per hectare can actually support conifer growth, particularly on nutrient-poor sites. The authors conclude that traditional forestry assessment methods may be inadequate, recommending a larger plot radius to more accurately measure how these different tree species interact and compete over time.

This document introduces a field study in British Columbia designed to move away from creating forest monocultures and toward sustainable mixedwood management. The text contrasts traditional unmixing practices with a new experimental project that tests alternative brushing treatments, such as manual cutting and localized chemical applications. By comparing six different methods across established plots, the authors aim to determine how to best promote white spruce growth while maintaining the ecological and economic benefits provided by trembling aspen. This document serves as an early record of the site's characteristics and the long-term research objectives required to balance timber yields with biodiversity and ecosystem stability in the boreal forest.

This document evaluates the long-term viability of planting native broadleaf trees as a reforestation strategy in British Columbia's Cariboo region. By tracking species like aspen, birch, and cottonwood alongside traditional conifers over a ten-year study period, the authors discovered that planted broadleaves suffered from poor survival rates due to wildlife browsing, frost, and competition from grass. While these deciduous trees naturally excel at enhancing soil nutrients and providing frost protection for understory seedlings, the study concluded that they are currently less reliable than conifers when manually planted. This document suggests that while broadleaves remain vital for forest biodiversity and health, their successful management in this region relies more on robust natural regeneration than on artificial cultivation.

This document examines the ecological role and management of bigleaf maple within coastal mixedwood forests. While the species promotes nutrient cycling and biodiversity, its rapid regrowth after harvesting creates dense canopies that can suppress understorey conifers by blocking nearly all sunlight and causing physical damage. To address this, researchers established two experiments near Port Alberni to determine how different coppice densities and thinning intensities affect available light levels and tree performance. The study seeks to provide a scientific framework for balancing the commercial and environmental value of bigleaf maple with the successful growth of evergreen species like Douglas-fir.

This extension note documents a long-term research project in British Columbia designed to test the operational feasibility of single tree selection within mixed conifer forests. By comparing different levels of basal area retention, researchers are investigating how various thinning intensities influence timber growth, natural regeneration, and understorey light levels. Beyond wood production, the study evaluates how these harvesting methods impact ungulate winter range by measuring snow interception and forage availability for local wildlife. Thsi document serves as a practical model for managing complex, uneven-aged stands, particularly in areas where foresters must balance timber salvage with long-term ecological health.

This extension note outlines long-term research at the Opax Mountain and Isobel sites in British Columbia, focusing on sustainable management for Interior Douglas-fir ecosystems. By evaluating various harvesting intensities and patterns, researchers are investigating how different silvicultural methods impact timber yields, biodiversity, and forage productivity. The studies emphasize that a diverse mosaic of treatments is necessary to satisfy competing ecological and social values, as uniform practices fail to support all forest functions. This document provides forest managers with technical guidance and modeling tools to maintain healthy, open-canopy forests while balancing the needs of the timber industry and the environment.

This document summarizes a decade of experimentation aimed at balancing timber extraction with the preservation of northern caribou habitat in British Columbia. The document outlines various alternative silvicultural systems, such as irregular shelterwood and group selection, to protect the terrestrial and arboreal lichens essential for caribou winter survival. Beyond wildlife management, the text evaluates how these harvesting methods influence forest regeneration, microclimate stability, and windthrow risk compared to traditional clearcutting. This document serves as a scientific foundation for regional recovery plans and sustainable land-use strategies for threatened species in the Southern Interior Forest Region.

This document explores a group shelterwood silviculture system designed to maintain the biological and economic diversity of boreal mixedwood forests in British Columbia. The study investigates how creating strategic gaps in the forest canopy can balance the competing needs of trembling aspen, which thrives in full sunlight, and white spruce, which benefits from partial shade and protection during its early stages. By evaluating initial outcomes related to regeneration density, soil conditions, and the presence of snags and woody debris, this project seeks an alternative to clear-cutting that mimics natural disturbances. This document aims to establish a long-term management framework that sustains timber yields while preserving the complex vertical and horizontal stand structures essential for wildlife habitat and ecosystem health.

This FREP Extension Note #44 focuses on best management practices for riparian areas following salvage logging after wildfires, aiming to minimize negative impacts on aquatic habitats. It acknowledges that while current regulations permit harvesting fire-damaged timber in riparian zones, this can harm both water and land ecosystems by increasing erosion and reducing crucial large woody debris. The document proposes specific guidelines for managing these sensitive areas based on factors like burn severity and the connection of slopes to streams, striving to balance timber recovery with the protection of vital ecological functions and downstream resources.

This document details methods for integrating grizzly bear habitat conservation with commercial logging objectives in the Coastal Western Hemlock zone of British Columbia, where rich timberland overlaps with crucial bear foraging areas. The primary goal is to provide silviculture guidelines that allow managers to maintain commercially viable stands while enhancing the abundance of bear forage throughout the forest rotation. Key strategies involve manipulating stand density and canopy closure through techniques like cluster planting and spacing, creating light gaps sufficient for understory food plants to thrive. The implementation of these standards requires application at multiple planning levels and relies heavily on a continuous adaptive management approach for monitoring effectiveness and refining prescriptions over time.

This document details the Montane Alternative Silvicultural Systems study, which investigated various forest harvesting methods to find ecologically sound alternatives to traditional clearcutting practices in high-elevation coastal forests. The seven-year results demonstrated that the fastest volume growth for regenerating western hemlock and amabilis fir occurred in the treatments with the least retained overstory, such as the clearcut and patch cut systems. The study also emphasized that effective control of competing vegetation is vital for successful seedling performance, noting that herbicide use yielded significantly better growth than manual clearing. The data suggested that silvicultural systems retaining a significant canopy might reduce long-term tree growth due to increased competition and lower light levels.