12 resources found

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 document delves into the critical aspects of aspen silviculture, addressing the increasing complexity of managing aspen forests due to greater utilization and evolving approaches to mixedwood management. The authors review the mechanisms of aspen regeneration, both through root suckering and seeds, and offer preliminary guidelines for managing the density of aspen stands in their early development. The paper aims to synthesize existing knowledge and identify knowledge gaps to better inform management decisions aimed at achieving various forest composition objectives.

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 study documents the Montane Alternative Silvicultural Systems project, a long-term cooperative study on Vancouver Island, British Columbia, established to find forest management practices that could replace conventional clearcutting in high-elevation coastal environments. This research initiative evaluated the operational, economic, and biological consequences of alternatives like patch cuts, green tree retention, and shelterwood logging. The findings cover crucial metrics such as operational costs and feasibility, as well as detailed ecological and silvicultural impacts on forest regeneration, soil health, and local biodiversity. The purpose of the MASS research was to provide the scientific foundation needed for implementing environmentally sustainable harvesting systems, such as variable retention, in the region's complex montane forests.

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.

This report outlines the Montane Alternative Silvicultural Systems study, a large-scale project designed to test the ecological and operational feasibility of harvest methods beyond conventional clearcutting in coastal British Columbia montane forests. The research examined the biological and silvicultural impacts of four systems, including clearcut, patch cuts, green tree retention, and shelterwood, to address concerns regarding regeneration, aesthetics, and biodiversity in challenging high-elevation environments. Key findings indicated that while clearcutting was often the most cost-effective, alternative systems faced specific issues, such as increased operational costs and shade limitations that suppressed seedling growth in the shelterwood treatments. The results offer actionable implications, suggesting that small patch cuts and low retention levels can be successfully implemented without significantly reducing early plantation performance.

This document introduces specialized Stand Density Management Diagrams to assist forest managers in British Columbia with planning the optimal growth and yield of even-aged stands of lodgepole pine, white spruce, and interior Douglas-fir. These graphical tools function by depicting the temporal relationships among forest metrics, including stand density, top height, and mean tree volume, derived from the TASS growth simulation model. Silviculturists can use the SDMDs to visualize various growth paths, determine the optimal timing and intensity of thinnings, and make preliminary yield estimations for different management objectives. The diagrams map out the Zone of Imminent Competition Mortality and the density range for maximizing Current Annual Increment, providing essential information for maximizing timber production while minimizing losses.

This paper investigates how the post-fire regeneration of trembling aspen is affected by the unique conditions of a high-severity boreal wildfire, specifically the Chuckegg Creek Fire in Alberta, Canada. The study's primary finding is that the success of aspen recruitment, either through vegetative suckering or seedlings, is strongly determined by surface fire severity and the timing of the burn relative to spring green-up. High surface fire severity, especially after green-up, decreased suckering by damaging root systems but simultaneously promoted the establishment of seedlings, effectively filling the regeneration gap and highlighting an alternative path for the foresta?Ts ecological resilience against intense disturbances. The paper concludes that a landscape mosaic of fire severities is crucial for maintaining both the long-lived clonal persistence and the necessary genetic diversity provided by sexual reproduction.

This paper investigates innovative harvesting and silvicultural systems designed to sustainably manage western Canada's boreal mixedwood forests, specifically focusing on the protection of immature white spruce while simultaneously enhancing deciduous regeneration. The studies were conducted in central and northern Alberta with the aim to develop cost-effective and operational methods for balancing the needs of conifer and deciduous users to maintain biodiversity and ecosystem sustainability. Key findings include the demonstration that specific equipment and techniques can significantly reduce damage to spruce during harvest, with particular emphasis on feller-buncher operations, carefully planned machine corridors, and wind buffers to mitigate blowdown.

This technical report explores silvicultural systems for managing deciduous and mixedwood stands that contain a white spruce understory in southwestern Alberta. The primary purpose of the document is to explain different management options and harvesting techniques that protect this understory, particularly focusing on a two-stage harvesting model for sustainable production of both conifer and hardwood. It emphasizes evaluating stand suitability, site conditions, and wind damage risk to ensure successful regeneration and growth of spruce and aspen and addresses the complexities of balancing timber yield with ecosystem health and biodiversity.

This document reports on a government initiative, the Silvicultural Systems Program, established in response to public criticism of widespread clearcutting in British Columbia's forests starting in 1990. The paper describes the program's goal of exploring and demonstrating diverse forest harvesting practices through numerous large-scale, long-term experiments across the province. It outlines the program's history, funding, and key accomplishments, including the operational feasibility and varied environmental impacts of alternatives to clearcutting, and concludes by offering lessons learned for future large-scale forestry research endeavors and reflecting on the challenges of translating research into widespread changes in forestry practices.

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.