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Seedling Establishment on a Forest Restoration Site - An Ecophysiological Perspective
This article explores the ecophysiological factors influencing seedling establishment in forest restoration efforts. It examines how a seedling's morphological and physiological characteristics interact with environmental conditions on restoration si...This article explores the ecophysiological factors influencing seedling establishment in forest restoration efforts. It examines how a seedling's morphological and physiological characteristics interact with environmental conditions on restoration sites, ultimately determining its success. The article explores how light, temperature, and water availability affect seedling performance, highlighting the challenges posed by extreme conditions like frost or drought and the benefits of optimal growing environments. The critical role of nutrient cycling and competitive vegetation is also discussed, emphasizing that a comprehensive understanding of these interactions is key to applying effective silvicultural practices that maximize seedling growth and ensure rapid forest stand establishment. -
Aleza Lake Research Forest Silvicultural Practices and Management for the Stand and Forest
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 t...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. -
Adapting Forest and Range Management to Climate Change in the Skeena Region - Considerations for Practitioners and Government Staff
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 ex...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. -
Successional Responses to Natural Disturbance, Forest Management, and Climate Change in British Columbia Forests
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...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. -
Operational Resilience in Western US Frequent-Fire Forests
This paper explores operational resilience in western U. S. frequent-fire forests, emphasizing how historical forest structures fostered health and adaptability. The authors argue that very low tree densities prior to widespread fire suppression mini...This paper explores operational resilience in western U. S. frequent-fire forests, emphasizing how historical forest structures fostered health and adaptability. The authors argue that very low tree densities prior to widespread fire suppression minimized competition, which in turn supported vigorous tree growth and greater resistance to stressors like drought and bark beetles. By comparing historical data with contemporary forest conditions using the Stand Density Index, the authors found a significant increase in tree density and competition today. This sugests that current management practices, which are focused primarily on fuel reduction, may not adequately restore the ecological resilience historically maintained by frequent, low-intensity fires. The paper advocates for a fundamental rethinking of forest management to prioritize significantly lower tree densities and minimal competition to enhance long-term forest health. -
Development of a Drought Risk Assessment Tool for British Columbia Forests Using a Stand-level Water-balance Approach
This technical report introduces a drought risk assessment tool designed to help forest managers in British Columbia navigate the challenges of a warming climate. By using a stand-level water-balance approach, the researchers calculated the ratio of ...This technical report introduces a drought risk assessment tool designed to help forest managers in British Columbia navigate the challenges of a warming climate. By using a stand-level water-balance approach, the researchers calculated the ratio of water availability to evaporative demand to establish drought tolerance thresholds for ten common tree species. The study concludes that many species face significant threats of stress and mortality on drier sites, whereas moist, water-receiving areas may serve as critical climate refugia for conservation. This document provides a practical framework for applying this data to silvicultural decisions, such as selecting resilient species for reforestation and identifying areas at higher risk for wildfires or invasive species. -
Suitability of Native Broadleaf Species for Reforestation in the Cariboo Area of the Southern Interior Forest Region
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 ...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. -
Early Height Growth of Douglas-fir on a Dispersed Retention Site in the Coast-Interior
This document investigates the effectiveness of different harvesting methods for establishing Douglas-fir regeneration in the dry climate of British Columbia's interior. By comparing clearcutting against shelterwood systems, which retain partial tree...This document investigates the effectiveness of different harvesting methods for establishing Douglas-fir regeneration in the dry climate of British Columbia's interior. By comparing clearcutting against shelterwood systems, which retain partial tree canopies, the authors examine how varying levels of shade and protection influence the survival and size of new trees. The study found that while individual tree growth and crown volume were most robust in clearcut areas, the shelterwood treatments significantly improved the density of natural regeneration. This document suggests that a heavy-removal shelterwood may offer the ideal balance, providing adequate growth rates while acting as an insurance policy for a fully stocked forest. -
Post Fire Vegetation Regeneration During Abnormally Dry Years Following Severe Montane Fire - Southern Alberta, Canada
This paper investigates the patterns of post-fire vegetation regeneration in two climatically distinct sites in Waterton Lakes National Park, Canada, following a severe montane fire and subsequent abnormally dry conditions. The study aimed to quantif...This paper investigates the patterns of post-fire vegetation regeneration in two climatically distinct sites in Waterton Lakes National Park, Canada, following a severe montane fire and subsequent abnormally dry conditions. The study aimed to quantify the recovery trajectories of herbaceous understory and conifer seedlings over five years, revealing that site environmental conditions were more influential than inter-annual drought in determining recovery. Notably, the moist site exhibited greater herbaceous biomass accumulation while the drier site demonstrated significantly higher lodgepole pine seedling recruitment, indicating a complex ecological resilience to drought in fire-prone montane ecosystems. This paper affirmed the utility of remotely piloted aircraft systems for spatially monitoring changes in vegetation height, cover, and biomass after a disturbance. -
Forest Health and Climate Change - A British Columbia Perspective
This paper examines the complex relationship between forest health and climate change from a British Columbia perspective, building on the impact of past events like the mountain pine beetle and Dothistroma needle blight epidemics. The authors presen...This paper examines the complex relationship between forest health and climate change from a British Columbia perspective, building on the impact of past events like the mountain pine beetle and Dothistroma needle blight epidemics. The authors present estimations of how various forest pests are expected to behave as climate continues to change, emphasizing that rapid environmental shifts are favoring fast-reproducing pests over long-lived trees. The research offers management recommendations aimed at increasing forest resilience, such as implementing assisted migration and genetic diversity, while stressing that the future of forest management requires flexibility and adaptation in the face of unprecedented uncertainty. The purpose of this paper is to equip managers with projections for the near future and emphasize the urgency of integrating proactive forest health measures into all aspects of land-use planning. -
Operationalizing Adaptive Silviculture for Climate Change
This webinar discusses operationalizing adaptive silviculture for climate change through a multi-site research network. The core purpose of the project is to provide forest managers with real-world, operational examples of integrating climate change ...This webinar discusses operationalizing adaptive silviculture for climate change through a multi-site research network. The core purpose of the project is to provide forest managers with real-world, operational examples of integrating climate change adaptation principles into practice, specifically by fostering ecosystem resilience to uncertain futures. The research employs a consistent framework across various forest types, testing three primary adaptation strategies including resistance, resilience, and transition. The webinar details the work at the Minnesota pine site, highlighting local climate vulnerability to drought and the application of these three treatments: simple thinning for resistance, mixed-species restoration for resilience, and aggressive transition management using both native and novel, future-adapted species like Ponderosa pine. -
Adaptive Silviculture for Climate Change - Lessons for Timber-Oriented Managers
This webinar focused on adapting timber management practices to environmental shifts. The webinar establishes the urgent need for adaptation by detailing regional climate projections, including rising temperatures and increased summer drought frequen...This webinar focused on adapting timber management practices to environmental shifts. The webinar establishes the urgent need for adaptation by detailing regional climate projections, including rising temperatures and increased summer drought frequency, which pose significant threats to traditionally managed commercial species like Red Pine. The framework consisting of Resistance, Resilience, and Transition strategies is introduced, demonstrating how varying levels of silvicultural intervention, from thinning to mitigate drought to planting novel species via assisted migration, can reduce climate vulnerability. The central purpose of the discussion is to convince land managers that they can implement these science-backed silvicultural actions to sustain forest productivity and commercial value despite increasing ecological risks. -
Stock Type Selection and Ordering Guidelines
This document assists silviculturists in British Columbia with the process of stock type selection for reforestation efforts. The document details the characteristics and definitions of both container-grown and field-grown stock, emphasizing that the...This document assists silviculturists in British Columbia with the process of stock type selection for reforestation efforts. The document details the characteristics and definitions of both container-grown and field-grown stock, emphasizing that the correct choice significantly impacts a plantation's survival and early growth. Key sections are dedicated to factors influencing selection, such as species, site limiting factors, and logistics related to ordering and tracking stock types, as well as proper receiving and handling stock upon delivery. This document serves as a comprehensive reference to match specific seedling characteristics with site-specific conditions and cost considerations. -
Understory Responses to Mechanical Restoration and Drought Within Montane Forests of British Columbia
This document investigates the effects of forest restoration thinning on the plant life beneath the tree canopy in two dry forest types. The initial findings consistently showed that the abundance of understorey shrubs and herbs was positively linked...This document investigates the effects of forest restoration thinning on the plant life beneath the tree canopy in two dry forest types. The initial findings consistently showed that the abundance of understorey shrubs and herbs was positively linked to light intensity and inversely related to the density of trees, emphasizing the negative impact of conifer ingrowth. However, immediately following mechanical thinning, the study observed an unexpected short-term reduction in understorey species richness, diversity, and cover, particularly when compounded by drought conditions. These results suggest that while thinning aims to mitigate the long-term negative impacts of increased tree density, the immediate mechanical disturbance requires careful management, especially concerning factors like the timing of treatment and post-treatment grazing. -
Recent Changes in Aboveground Live-Tree Carbon in Spruce and Fir-Dominated Sub-Boreal Forests in the BC Interior
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...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. -
Drought in a Changing BC Climate
This presentation outlines the critical issue of ecological drought in British Columbia, distinguishing it from lack of precipitation by emphasizing the role of water deficit relative to average conditions and evapotranspiration. The core concern hig...This presentation outlines the critical issue of ecological drought in British Columbia, distinguishing it from lack of precipitation by emphasizing the role of water deficit relative to average conditions and evapotranspiration. The core concern highlighted is how increasing temperatures due to climate change will intensify drought frequency and severity, despite potential precipitation increases, by reducing snowpacks and increasing water loss from the environment. The presentation explores recent drought occurrences, linking them to climate change and natural climate variability, and introduces a Forest Drought Risk Assessment Tool designed to evaluate and predict drought impacts on forests. The purpose of this presentation is to emphasize the urgent need to integrate climate change considerations into forestry practices to mitigate future ecological impacts. -
Alternative Silvicultural Systems and Harvesting Techniques for Caribou Habitat
This study investigates alternative forestry practices to mitigate the negative impacts of conventional clearcutting on caribou habitat. Recognizing that clearcutting leads to habitat loss and increased predation on caribou through apparent competiti...This study investigates alternative forestry practices to mitigate the negative impacts of conventional clearcutting on caribou habitat. Recognizing that clearcutting leads to habitat loss and increased predation on caribou through apparent competition, the report reviews various silvicultural systems and harvesting techniques, analyzing their potential to maintain old-growth characteristics, limit forage for other ungulates, and minimize access. Through a literature review and expert interviews, the study assesses the applicability of methods like partial harvesting, understory protection, and intensive silviculture in the Alberta context, considering ecological, economic, and practical challenges. The report aims to identify strategies that balance timber harvesting with caribou conservation, acknowledging that site-specific conditions and careful implementation are crucial for the success of any alternative approach. -
Aspen Distribution in North-Central British Columbia Abundance Trends and Implications for Shallow Water Wetlands
This study focuses on aspen, a vital broadleaf tree, examining its distribution and health in north-central BC and the various threats it faces, including climate change, forest management practices, and ungulate grazing. It explores the ecological i...This study focuses on aspen, a vital broadleaf tree, examining its distribution and health in north-central BC and the various threats it faces, including climate change, forest management practices, and ungulate grazing. It explores the ecological implications of potential aspen declines, specifically considering the relationship between aspen and beaver-created shallow water wetlands, offering recommendations for future research and management. -
Managing for Forest Resilience as a Method for Promoting Forest Sustainability and Value
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, eng...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. -
Disparate Groundwater Responses to Wildfire
This paper synthesizes the disparate groundwater responses to wildfire, noting that post-fire effects range from significant increases to decreases in water fluxes like recharge and baseflow. The authors evaluate this variability across five primary ...This paper synthesizes the disparate groundwater responses to wildfire, noting that post-fire effects range from significant increases to decreases in water fluxes like recharge and baseflow. The authors evaluate this variability across five primary categories: climate, vegetation, hydrogeology, fire characteristics, and the cryosphere, focusing on both short-term and intermediate recovery periods. A critical finding is that post-wildfire responses often align with hydroclimatic settings where water input and evaporative demand are out of sync, while the pre-wildfire groundwater regime significantly influences the expected outcome and recovery trajectory. This paper provides a collection of testable hypotheses and identifies key areas, particularly the influence of snow dynamics and cryospheric processes, for future monitoring and modeling efforts to improve the prediction of groundwater recovery after fires.
