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Assessing the Effects of Climate Change and Fuel Treatments on Forest Dynamics and Wildfire in Dry Mixed-Conifer Forests of the Inland West

2018 Climatic changes
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Release : 2018
Genre : Climatic changes
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Book Synopsis Assessing the Effects of Climate Change and Fuel Treatments on Forest Dynamics and Wildfire in Dry Mixed-Conifer Forests of the Inland West by :

Download or read book Assessing the Effects of Climate Change and Fuel Treatments on Forest Dynamics and Wildfire in Dry Mixed-Conifer Forests of the Inland West written by . This book was released on 2018. Available in PDF, EPUB and Kindle. Book excerpt: Over the past century in the western United States, warming has produced larger and more severe wildfires than previously recorded. General circulation models and their ensembles project continued increases in temperature and the proportion of precipitation falling as rain. Warmer and wetter conditions may change forest successional trajectories by modifying rates of vegetation establishment, competition, growth, reproduction, and mortality. Many questions remain regarding how these changes will occur across landscapes and how disturbances, such as wildfire, may interact with changes to climate and vegetation. Forest management is used to proactively modify forest structure and composition to improve fire resilience. Yet, research is needed to assess how to best utilize mechanical fuel reduction and prescribed fire at the landscape scale. Human communities also exist within these landscapes, and decisions regarding how to manage forests must carefully consider how management will affect such communities. In this work, three aspects of forest management are analyzed: (1) climate effects on forest composition and wildfire activity; (2) efficacy of fuel management strategies toward reducing wildfire spread and severity; and, (3) local resident perspectives on forest management. Using a forest landscape model, simulations of forest dynamics were used to investigate relationships among climate, wildfire, and topography with long-term changes in biomass for a fire-prone dry-conifer landscape in eastern Oregon. Under climate change, wildfire was more frequent, more expansive, and more severe, and ponderosa pine expanded its range into existing shrublands and high-elevation zones. There was a near-complete loss of native high-elevation tree species, such as Engelmann spruce and whitebark pine. Loss of these species were most strongly linked to burn frequency; this effect was greatest at high elevations and on steep slopes. Fuel reduction was effective at reducing wildfire spread and severity compared to unmanaged landscapes. Spatially optimizing mechanical removal of trees in areas at risk for high-severity wildfire was equally effective as distributing tree removal across the landscape. Tripling the annual area of prescribed burns was needed to affect landscape-level wildfire spread and severity, and distributing prescribed burns across the study area was more effective than concentrating fires in high-risk areas. I conclude that forest management can be used to reduce wildfire activity in dry-mixed conifer forests and that spatially optimizing mechanical treatments in high-risk areas can be a useful tool for reducing the cost and ecological impact associated with harvest operations. While reducing the severity and spread of wildfire may slow some long-term species shifts, high sub-alpine tree mortality occurred under all climate and fuel treatment scenarios. Thus, while forest management may prolong the existence of sub-alpine forests, shifts in temperature, precipitation, and wildfire may overtake management within this century. The use of PPGIS was useful for delineating the range of forest management preferences within the local community, for identifying areas of agreement among residents who have otherwise polarized views, and for generating modeling inputs that reflect views that may not be obtained through extant official channels for public participation. Because the local community has concerns about the use of prescribed fire, more education and outreach is needed. This may increase public acceptance of the amounts of prescribed fire needed to modify wildfire trajectories under future climate conditions.

Guide to Fuel Treatments in Dry Forests of the Western United States

2007 Fire and Fuels Extension, Forest Vegetation Simulator (Computer program)
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Release : 2007
Genre : Fire and Fuels Extension, Forest Vegetation Simulator (Computer program)
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Book Synopsis Guide to Fuel Treatments in Dry Forests of the Western United States by : Morris C. Johnson

Download or read book Guide to Fuel Treatments in Dry Forests of the Western United States written by Morris C. Johnson. This book was released on 2007. Available in PDF, EPUB and Kindle. Book excerpt: The Fire and Fuels Extension of the Forest Vegetation Simulator (FFE-FVS) was used to calulate the immediate effects of treatments on surface fuels, fire hazard, potential fire behavior, and forest structure for respresentative dry forest stands in the Western United States. Treatments considered included pile and burn and prescribed fire.

Wildland Fire, Forest Dynamics, and Their Interactions

2018-08-15 Electronic books
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Release : 2018-08-15
Genre : Electronic books
Kind : eBook
Book Rating : 999/5 ( reviews)

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Book Synopsis Wildland Fire, Forest Dynamics, and Their Interactions by : Marc-André Parisien

Download or read book Wildland Fire, Forest Dynamics, and Their Interactions written by Marc-André Parisien. This book was released on 2018-08-15. Available in PDF, EPUB and Kindle. Book excerpt: This book is a printed edition of the Special Issue "Wildland Fire, Forest Dynamics, and Their Interactions" that was published in Forests

A Comparison of Fuel Reduction Methods for Wildfire Risk Management and Climate Change Resiliency in Mixed Conifer Forests in the Sierra Nevada

2020
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Release : 2020
Genre :
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Book Synopsis A Comparison of Fuel Reduction Methods for Wildfire Risk Management and Climate Change Resiliency in Mixed Conifer Forests in the Sierra Nevada by : Heather Navle

Download or read book A Comparison of Fuel Reduction Methods for Wildfire Risk Management and Climate Change Resiliency in Mixed Conifer Forests in the Sierra Nevada written by Heather Navle. This book was released on 2020. Available in PDF, EPUB and Kindle. Book excerpt: Wildfires in the mixed conifer forests of California's Sierra Nevada have been a common and natural disturbance for thousands of years, historically occurring every 3 to 30 years. The flora and fauna of the mixed conifer forest have evolved to depend on low to moderate severity wildfires for reproduction, foraging, and habitat. However, the Sierra Nevada has experienced dramatic environmental changes over the past ~150 years as a result of three main factors: wildfire suppression, climate change, and habitat loss. Because of the threat wildfires pose to human lives, property and timber harvest, they have been suppressed to an extent that has completely altered mixed conifer ecosystems. One of the changes to these ecosystems is increased vegetative fuel density, which can result in stand-replacing mega fires. To mitigate these high-severity mega wildfires, forest managers incorporate various fuel reduction methods into forest management plans. These impacts can have negative effects on forest ecosystems, degrading ecosystem characteristics that are critical for adapting to climate change. Thus, the two main objectives of this paper are to compare and contrast four different fuel reduction methods based on their effectiveness to (I) reduce wildfire risk and (II) promote climate change resiliency. The four fuel reduction methods are: low thinning, canopy thinning, selective thinning, and prescribed fire. These four fuel reduction methods have been compared in syntheses tables for the two main objectives. Qualitative and quantitative metric data, based on a literature review, were used to compare the optimal effects of each fuel reduction method. It was found that prescribed fire or thinning with prescribed fire resulted in the most optimal effects when considering both reduced wildfire risk and climate change resilience. However, tree mortality and the risk of fire escaping controlled boundaries are increased during prescribed fire operations. Additionally, results showed that all four fuel reduction methods displayed both positive and negative effects, depending on the metric used to evaluate the objective, which suggests that appropriate application of fuel reduction methods is highly variable depending on the goals and the environment. For example, canopy thinning alone may have desirable effects when prescribed fire is financially unfeasible or unsafe due to proximity to buildings. Applying prescribed fire is the most optimal fuel reduction method in most forest conditions; however, it is recommended that forest managers evaluate forest structure, density, and tree species prior to selecting the most appropriate fuel reduction method for their situation.

Wildfire and Climate Change in Mixed-conifer Ecosystems of the Northern Rockies

2015 Conifers
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Release : 2015
Genre : Conifers
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Book Rating : 660/5 ( reviews)

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Book Synopsis Wildfire and Climate Change in Mixed-conifer Ecosystems of the Northern Rockies by : Kerry B. Kemp

Download or read book Wildfire and Climate Change in Mixed-conifer Ecosystems of the Northern Rockies written by Kerry B. Kemp. This book was released on 2015. Available in PDF, EPUB and Kindle. Book excerpt: As disturbances continue to become more frequent and extensive with climate change, increasing concern is mounting about the ability of dry-mixed conifer forests to recover after wildfire. This concern stems in part from past management strategies, which have impacted the resilience of these forests. As such, future actions that managers propose to deal with climate change impacts will inevitably affect future resilience of these forests. My dissertation examined how climate, disturbance, and landscape variables influenced tree regeneration in dry mixed-conifer forests of the northern Rocky Mountains, using field data combined with downscaled climate data and satellite-derived burn severity data to characterize post-fire seedling regeneration across environmental gradients. Additionally, I examined how forest managers are thinking about climate change impacts and the adaptation measures they are considering to deal with these changes using a combination of breakout group discussions during workshops, interviews and surveys. Distance to a live seed source was one of the most important variables influencing the potential of post-fire regeneration after recent fires. The heterogeneity of the burned mosaic insures that most (> 80%) of the burned landscape is within a distance to live trees for successful regeneration, suggesting high resilience of these forests to recent fire. As climate continue to warm, however, temperature may outweigh the influence of seed source availability on seedling regeneration and the post-fire environment may no longer be favorable for regeneration in much (80%) of the existing dry mixed-conifer zone. Managers desire local climate change predictions that will help them identify thresholds for species resistance or resilience to propose effective management actions. These types of data will help managers move from using current management strategies to using more novel and appropriate techniques to help forests remain resilient to a variety of uncertain future changes. Understanding the diverse and interacting ecological and social factors that influence the recovery or decline of dry mixed-conifer forests will increasingly improve predictions about the future impacts of disturbance, climate change, and management.

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