41 resources found

This extension note focuses on the hydrological equivalent clearcut area as a tool for managing forests in British Columbia that have been affected by natural disturbances like mountain pine beetle infestations. It explores how different stand-level treatments, such as salvaging timber and replanting, can influence ECA over time compared to leaving stands unsalvaged. The author examines the contributions of various stand components-including surviving trees, dead snags, and regeneration-to ECA and compares the cumulative hydrological effects of different management strategies using ECA years. The document provides a decision framework to help forest managers consider hydrological values, especially when detailed assessments aren't possible, while also acknowledging other important ecological and economic factors in rehabilitation decisions.

This extension note serves as a guide for practitioners involved in reforestation efforts following large-scale natural disturbances, particularly those caused by the mountain pine beetle in British Columbia's interior. The document emphasizes the importance of considering watershed hydrology when planning these rehabilitation activities, highlighting potential negative impacts on water resources such as increased runoff, stream sedimentation, and reduced riparian function. It advocates for a cautious approach that includes clear objectives, risk analysis, and coordination with stakeholders to minimize these negative effects and ensure the long-term health of both timber and water-related values.

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 guide serves as a practical manual for foresters looking to implement the shelterwood cutting method in British Columbia. As the third part of a three-part series, this guide builds upon previous parts by focusing on the specific harvesting operations involved in this silvicultural system. The guide emphasizes that each harvest entry is a deliberate silvicultural treatment designed to manipulate the forest environment to achieve regeneration and stand-tending objectives, highlighting key considerations like protecting the soil, existing trees, and new growth while promoting a favorable environment for the next forest generation.

This guide delves into the fundamental ecological principles underpinning the successful application of the shelterwood silvicultural system in British Columbia. As the second part of a three-part series, this guide emphasizes that effectively using partial cutting methods like shelterwoods requires a strong understanding of stand dynamics, which involves how forest structure changes over time due to factors such as tree regeneration, growth, competition, and disturbance. The guide highlights the crucial role of regeneration ecology, exploring the necessary conditions for new trees to establish and thrive after silvicultural interventions. This resource aims to equip forest managers with the knowledge to manipulate forest stands predictably to achieve specific management objectives by considering the interplay of these ecological processes.

This guide focuses on the shelterwood silvicultural system in British Columbia and specifically addresses implementation considerations. As the first part of a three-part series, it outlines the advantages and risks associated with this partial cutting method compared to clearcutting. The guide also delves into crucial aspects like forest health factors and administrative hurdles within the BC forestry context, emphasizing the need for careful planning to manage risks and achieve both timber and non-timber objectives.

This extension note offers practical guidance on managing paper birch and fireweed in British Columbia's coastal forests, specifically the Coastal Western Hemlock submaritime biogeoclimatic subzones. Recognizing a lack of specific research on these competing vegetation species, the authors synthesize existing knowledge, much of it adapted from interior regions, to provide Stand Establishment Decision Aids. The note details the site characteristics, harvesting and silvicultural considerations, and autecological characteristics of both species, aiming to help forest managers make informed decisions regarding their management to ensure successful conifer regeneration while considering biodiversity and long-term site productivity.

This extension note serves as a practical guide for forest managers in coastal British Columbia. It introduces the variable retention silvicultural system, a method focused on retaining important ecological features like old trees and snags during harvesting to support biodiversity and habitat connectivity. The aid outlines key considerations for planning and implementing VR, including identifying biological anchors, setting retention targets based on landscape context and management objectives, and managing potential risks such as windthrow and dwarf mistletoe, ultimately aiming for sustainable forest management that balances timber harvesting with ecological values.

This extension note serves as a decision aid for forest managers in northeastern British Columbia regarding aspen stands. It is structured to provide guidance on managing aspen either as a primary timber species or as a component within mixedwood forests with conifers. The note details various aspects of aspen ecology, including its regeneration, growth, interactions with other species, and its susceptibility to health issues. Furthermore, it outlines different silvicultural systems and management practices tailored to specific objectives, such as maximizing aspen production, promoting conifer growth, or achieving mixed stands, while also considering non-timber values like wildlife habitat and First Nations uses. The extension note aims to equip managers with the knowledge to make informed decisions about establishing and tending aspen-dominated or mixed forests in the region.

This extension note serves as a practical guide for silvicultural practitioners. It addresses critical operational concerns identified by the forestry community, specifically focusing on competing vegetation and forest health. The core of the document presents Stand Establishment Decision Aids for nine distinct forest health issues prevalent in the Southern Interior Forest Region of British Columbia, such as the black army cutworm, various root diseases, and blister rusts. Each SEDA provides essential information on identifying susceptible stands, understanding the biology of the damaging agent, and outlining relevant harvest and silviculture considerations, including regeneration and plantation maintenance strategies, ultimately aiming to support informed decision-making for healthy forest establishment.

This extension note explores managing British Columbia's forests to act as ongoing carbon sinks in the face of a warming climate. It emphasizes that forest management for carbon sequestration needs to consider the likely changes in natural disturbances and offers various silvicultural tools and landscape-level strategies that managers can employ. The extension note highlights the importance of balancing carbon objectives with other forest values like biodiversity and timber production, acknowledging the complexities and uncertainties of long-term climate impacts.

This extension note examines how partial cutting prescriptions in British Columbia's Kootenay region successfully balance timber harvesting with heightened public demand for visual quality and biodiversity conservation. It details two specific case studies, Hope Creek and Loki Creek, demonstrating how complex land-use plans and legislation like the KootenayBoundary Land Use Plan Implementation Strategy and the Higher Level Plan Order translate into on-the-ground forestry practices. The document highlights the necessity for flexibility and ingenuity from foresters and loggers to achieve multiple, sometimes conflicting, objectives, such as maintaining caribou and grizzly bear habitat while ensuring the harvested areas remain visually appealing. This document showcases the feasibility of meeting diverse resource objectives at the stand level through carefully designed harvesting techniques in constrained areas.

This extension note details a case study on partial cutting timber harvesting methods within a sensitive watershed in southeastern British Columbia. The study evaluates a multi-resource objective approach to logging, aiming to balance timber production with the conservation of water quality, wildlife habitats, and visual landscapes. It highlights the company's shift from conventional clear-cutting to silvicultural systems that maintain forest health and biodiversity, while also addressing the economic and environmental concerns of the region. The report assesses the effectiveness and challenges of these partial cutting methods in achieving sustainable forest management within a sensitive ecological area.

This extension note explores alternatives to conventional clearcutting for timber harvesting in visually sensitive areas of British Columbia, specifically within the Columbia Forest District. The central purpose is to identify silvicultural systems and harvesting methods that reduce visual impact while maintaining timber supply and ecological health. The document details various standard units of harvesting, such as shelterwood and commercial thinning, explaining their application and effects on the landscape, often contrasting them with traditional clearcutting. This document emphasizes the importance of balancing economic viability with aesthetic and environmental considerations when managing forest viewscapes.

This document details Selkirk College's experimental shift from traditional clearcutting to variable retention silvicultural systems in their hemlock-dominated demonstration forest. The primary purpose of these experiments was to explore alternative harvesting methods that could maintain water quality, enhance biodiversity and habitat structures, produce quality timber, and provide educational opportunities for students. The document highlights Selkirk College's experiences with various approaches including natural shelterwood with overstory retention, group selection, and a mix of group and dispersed retention to assess their effectiveness in minimizing environmental impacts such as windthrow, and achieving diverse management objectives. A key theme emphasized is the critical role of clear communication between the woodlot manager and harvesting crews for successful implementation of these complex variable retention strategies.

This document details a case study on commercial thinning of older forests in British Columbia's Interior Hemlock Subzone, a forestry practice aiming to improve the growth and quality of remaining trees. The study, conducted by the Revelstoke Community Forest Corporation, investigates the operational feasibility and economic viability of this approach on an 85-year-old stand. Key findings highlight that commercial thinning can yield a significant volume of timber, increase the value of future crop trees, and potentially enhance wildlife habitat, though careful planning is needed to manage associated costs and operational challenges. The report concludes by summarizing recommendations for future commercial thinning operations, emphasizing the importance of clearly defined crop tree selection criteria and methods to reduce costs.

This extension note presents a case study on using partial cutting to reduce the susceptibility of mature Lodgepole Pine stands to Mountain Pine Beetle attacks, a process termed Beetle Proofing. The document details the objectives and criteria for this forestry practice, emphasizing proper layout, experienced logging contractors, and a commitment to overall parties. It outlines the harvesting and silviculture systems involved, explaining how selective removal of trees aims to create a stand structure that is less vulnerable to beetle infestations, rather than a clear-cut approach. This document serves as a guide for forest management, outlining management objectives and planning for sustainable timber production and biodiversity while mitigating the impact of MPB in the British Columbia interior.

This extension note details a case study on patch cutting in old-growth forests in British Columbia. The primary purpose of this research was to investigate alternative silviculture systems, specifically patch cutting, as a method to maintain caribou habitat. The study aimed to assess the impact of this harvesting technique on the abundance and dispersal of arboreal lichen, a critical food source for caribou, while also considering its effects on windthrow and other forest health factors.

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 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.