6 resources found

This document is a part of a long-running Levels-of-Growing-Stock (LOGS) Cooperative Study in Douglas-fir stands, specifically detailing findings from installations at Sayward Forest and Shawnigan Lake in British Columbia. The core objective of the LOGS study is to understand how different thinning intensities impact cumulative wood production, individual tree size, and growth ratios in young Douglas-fir stands. This progress report summarizes data from these two Canadian sites, showing that volume growth is strongly tied to the amount of growing stock retained, and that thinning significantly influences tree size distribution and live crown development, suggesting potential for future productivity gains. The study also offers comparisons between various thinning regimes and unthhinned control plots, revealing the long-term implications of silvicultural practices on forest stands.

This paper presents a comprehensive analysis of various strategies to reduce greenhouse gas emissions within British Columbia's forestry sector. The study uses a systems perspective, evaluating the impact of different forest management and wood utilization practices not only on forest ecosystems but also on harvested wood products and the potential for wood to substitute for more emission-intensive materials. By quantifying GHG reductions alongside economic, socio-economic, and environmental consequences, the authors aim to provide an integrated framework for decision-makers to understand trade-offs and plan for long-term climate change mitigation in the land sector.

This paper investigates the interplay between future wildfire risk and the greenhouse gas mitigation potential of rehabilitating forests in British Columbia, Canada. Using modeling that simulates future fire scenarios and tracks carbon in forests and harvested wood products, the study assesses whether post-fire salvage logging and replanting can lead to a net reduction in GHG emissions compared to natural regeneration. The authors explore the conditions under which these rehabilitation efforts yield climate benefits and compare this potential mitigation against the substantial GHG emissions from the projected increase in wildfires, questioning if resources might be better directed towards preventing fires in the first place.

This paper investigates how to better integrate forest carbon management into overall forest resource planning. The authors developed a novel modeling system that combines forest disturbance, management activities, and carbon dynamics to estimate both the current carbon stocks and the natural carbon-holding capacity of a forest landscape in British Columbia, Canada. By comparing these estimates under different harvesting scenarios, the study provides a framework and essential information for implementing nature-based climate change mitigation strategies in forest ecosystems. This paper aims to bridge the gap between traditional forest management and informed carbon management.

This paper discusses long-term silviculture experiments in British Columbia aimed at informing science-based forest management on public lands. It highlights two key projects, MASS and Sicamous Creek, which compare different harvesting methods, including variations of clearcutting and retention forestry, and their impacts on ecological values like regeneration, nutrient cycling, and biodiversity. The authors explore how the findings from these experiments can contribute to decisions about balancing timber harvesting with environmental considerations, noting the varying degrees of influence these projects have had on actual forestry practices due to differing socio-economic contexts. The paper emphasizes the complexity of applying ecological research to forest management and the importance of considering both ecological understanding and societal pressures.

This paper details the establishment and early findings of the Montane Alternative Silvicultural Systems partnership, formed to investigate alternatives to clearcutting in the high-elevation old-growth forests of Vancouver Island. The study compares the operational costs and biological impacts of Uniform Shelterwood, Green Tree Retention, and Patch Cuttings to traditional clearcutting and an old-growth control. Initial results highlight differences in harvesting expenses, windthrow, site disturbance, nutrient cycling, understory vegetation response, and coniferous regeneration, emphasizing the complexity of balancing timber harvesting with ecological sustainability in these montane ecosystems.