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Forests are of tremendous ecological and economic importance. They provide natural places for recreation, clean drinking water, and important habitats for fish and wildlife. However, the warmer temperatures and harsher droughts in the west that are related to climate change are causing die-offs of many trees. Outbreaks of insects, like the mountain pine beetle, that kill trees are also more likely in warmer, drier conditions. To maintain healthy and functioning forest ecosystems, one action forest managers can take is to make management decisions that will help forests adapt to future climate change. However, adaptation is a process based on genetic change and few tools are currently available for managers to use...
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The sagebrush rangelands of the Great Basin provide crucial habitat for a diversity of wildlife, including the pronghorn and the greater sage-grouse. These water-limited, highly-managed ecosystems have already been degraded by wildfires, the expansion of invasive grasses, and livestock grazing, and are expected to experience additional stress as climate and land use conditions change. Effective management of sagebrush ecosystems in the future will require the ability to understand and predict these future changes. To address this need, researchers will identify historical rates and causes of vegetation change in shrubland ecosystems, then use this information to develop potential future climate and land use scenarios...
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Pinyon pine woodlands are among the most widespread and iconic vegetation types in the western United States and support recreation, resource extraction, grazing, and cultural enrichment. However, severe drought conditions have recently caused dramatic mortality of pinyon pines, creating concern about the long-term impact of increasing aridity on the viability of pinyon woodlands. Ecological transformations, or regime shifts, are rapid reorganizations of an ecosystem’s species composition, governing processes, and functions. The goal of this project is to investigate ecological transformation across the Western U.S, characterize the environmental drivers of these changes in vegetation, and apply those insights...
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Climate change impacts on water resources in the Pacific Northwest are predicted to have transformational effects on agriculture. Loss of winter snow pack, reduced summer stream flows, and increased summer temperatures are all phenomena that have already been observed, and are expected to worsen over this century. Research is ongoing in the Northwest to understand agriculture practices that might allow farmers to prepare for these climate change impacts. One potential technique is the use of biochars (charcoal made from decomposition of organic matter at high temperatures in the absence of oxygen), which can be used as a soil amendment that can increase soil moisture retention, improve agricultural yields, and hold...
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Wildfires are one of the greatest threats to human infrastructure and the ecosystem services humans value in the western US, but are also necessary in fire-adapted ecosystems. Wildfire activity is widely projected to increase in response to climate change in the Northwest, but we currently lack a comprehensive understanding of what this increase will look like or what its impacts will be on a variety of ecological and hydrologic systems. This project addressed one critical part of those impacts: the islands of unburned vegetation within wildfires. Unburned islands occur naturally as wildfires burn across landscapes, and are important habitat refuges for species -- places where plants and animals survive the fire...
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In the Northern Rockies, the annual area burned by wildfires has risen sharply in recent decades and is expected to continue growing. As a result, burned forests increasingly comprise a significant portion of the land base. However, burned areas represent a difficult paradox for land managers, especially in the context of other climate-linked disturbances (e.g., droughts, bark beetle outbreaks) that are also on the rise and may compound initial fire-induced stressors. While, burned areas have experienced major recent changes that may decrease their resilience to subsequent, compounding stressors, fire-induced changes can also lead to longer-term increases in resilience. The evolving landscape conditions triggered...
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Snow is extremely important to a wide range of natural processes in Alaska. Snow cover helps regulate the earth’s temperature and stores water on the landscape. As it melts, snow hydrates the soil and replenishes the freshwater supplies of streams and lakes, providing water for vegetation, wildlife, and human activities such as agriculture and electricity generation. Understanding present and future snow conditions under climate change is critical for managing Alaska’s natural resources, yet many scientists, land managers, and policymakers lack this information at useful scales. Hence, the goal of this project was to produce an advanced snow modeling system for part of the Arctic that predicts a variety of factors...
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Changes in temperature and precipitation due to climate change (and associated droughts, wildfires, extreme storms etc.) threaten important water sources, forests, wildlife habitat, and ecosystems across the Southwest and throughout the entire U.S. These threats cross political and man-made boundaries and therefore need to be addressed at larger landscape-level and regional scales. “Landscape conservation design” is one method that can be used by land and resource managers to support large scale conservation and ensure that small scale and local actions contribute to a landscape level vision. The Desert Landscape Conservation Cooperative (LCC) is working to develop a shared vision for conservation action in the...
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Areas along the Arctic coast are changing the fastest among all of Earth’s habitats due to climate change. The Arctic coast is a fragile ecosystem that provides habitat for migratory birds, endangered species, and species critical for local subsistence living. In this area, permafrost is thawing rapidly, changing how much and when water reaches rivers, ponds, lakes, wetlands and groundwater. In addition, there is also a growing interest in oil and gas resource exploration. With ongoing permafrost thaw, future warming, and interests in oil and gas extraction in the coastal plain (also known as the 1002 area) of the Arctic National Wildlife Refuge, it is urgent to improve the understanding of this area and its vulnerability...
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Pinyon-juniper woodlands are a major part of western landscapes and are valued for recreational use, cultural resources, watershed protection, and wildlife habitats. These woodlands have been identified by several stakeholders, including natural resource management entities, federal and state agencies, and numerous tribal nations, as important ecosystems that are currently threatened by land treatments, changes in disturbance regimes such as drought and fire, and widespread tree mortality. Currently there exist competing objectives for the management of these systems, including the desire to preserve pinyon-juniper viability as climate conditions continue to shift, as well as the need to track these systems to ensure...
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Climate change adaptation research has made major advances over the last decade. For example, much is known about the impacts of climate change, many novel adaptation planning approaches have been developed, decision tools have become ubiquitous, and many novel adaptation options have been proposed. However, additional research is needed to demonstrate how these adaptation planning schemes can translate to implementation on the ground. The area in and around the Yosemite and Sequoia National Parks in Southern Sierra Nevada serve as ideal natural laboratories to study the impacts of climate change and the effectiveness of various on-the-ground forest treatments and restoration designs. Southern Sierra Nevada faces...
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Warmer temperatures and less precipitation in the western U.S. related to climate change are harming many important natural resources, including forests, rivers, and many fish and wildlife species. Climate refugia provide a potential opportunity for conserving resources and biodiversity in the face of climate change. These refugia are places where the climate will likely change less than the surrounding landscape and/or places in a landscape where species may move to find more suitable climates. For example, because climate change may alter the frequency, duration, or severity of droughts, small habitats that naturally retain water (drought refugia) may become increasingly important to many natural wildlife communities....
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Healthy forests and woodlands in the western United States provide many important benefits, including providing habitat for wildlife, forage for livestock, and clean water for fish and human use. Yet climate change and other stressors, from wildfires and insect attacks to severe droughts, are causing unprecedented tree die offs across the region, threatening many of these ecosystem services. Following these mortality episodes, a key question becomes: how will these ecosystems recover? In some cases, forests eventually return to their pre-disturbance states, growing back the same species and creating the same kind of ecological communities as before. However, there are increasing observations of ecosystems that...
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Ponderosa pine forests are declining and their future persistence is uncertain. Most research on forest declines has focused on the effects of disturbances including wildfire, insect outbreaks, and severe drought on mortality of mature trees. Yet, recent research suggests that ponderosa pine declines may be even more severe as these ecosystems fail to regenerate naturally (i.e. grow from seed to adulthood) in a climate that is becoming increasingly less favorable for juvenile tree survival. For land managers to accurately assess and combat the risk of failed regeneration, it is critical to better understand the many factors supporting regeneration across the diverse habitats where these ecosystems are located. ...
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The Prairie Pothole Region is recognized as one of the most critical breeding habitats for waterfowl in North America and is used by an estimated 50–80 % of the continent’s breeding duck population. The ongoing acquisition program of the U.S. Fish and Wildlife Service National Wildlife Refuge System has conserved approximately 1.3 million hectares of critical breeding-waterfowl habitat. This current conservation approach assumes that past distributions of waterfowl habitat and populations are relatively representative of future distributions, however, due to changes in the area’s hydrology this may not be the case. Understanding how climate change may impact these wetland and grassland ecosystems is key for management...
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As the dominant force that sets the structure and function of most Pacific Northwest forests, fire is likely to be the major catalyst of forest change in a warming climate. Rising temperatures, decreased snowpack, and earlier snowmelt are expected to lead to longer fire seasons, drier fuel, and an increase in the area burned by wildfires in the future. Forest managers therefore need information on how wildfire patterns and forests will change as the climate warms, in order to guide management activities that can sustain the important ecosystem services that forests provide – including timber production, carbon storage, improved water quality, and recreational opportunities. To address this need, researchers developed...
    map background search result map search result map Modeling and Predicting Future Changes in Snowfall and Snow Cover in Alaska Disappearing Refugia: Identifying Trends and Resilience in Unburned Islands under Climate Change Assessing Southwest Resources, Future Climate Scenarios, and Possible Adaptation Actions to Support Conservation Planning Identifying and Evaluating Refugia from Drought and Climate Change in the Pacific Northwest Using Genetic Information to Understand Drought Tolerance and Bark Beetle Resistance in Whitebark Pine Forests Assessing the Use of Biochar for Drought Resilience and Crop Productivity Changing Fires, Changing Forests: The Effects of Climate Change on Wildfire Patterns and Forests in the Pacific Northwest Ecology and Management of Pinyon-Juniper Woodlands: State of the Science Mapping the Risk of Ecological Transformation Across Pinyon Woodlands and the U.S. West Identifying Historical Drivers of Vegetation Change to Inform Future Management of Federal Lands in the Northern Great Basin The Impact of Future Changes in Climate on Breeding Waterfowl Pairs in the US Prairie Pothole Region Tracking Forest and Hydrological Resilience to Compound Stressors in Burned Forests Under a Changing Climate Can Management Actions Support Forest Regeneration Across the Diverse Landscapes and Climate Change Futures of the Southwestern U.S.? Science to Help Move From Mortality to Recovery in Western Forests and Woodlands Designing Climate-Resilient Habitat for At-Risk Species in the Southern Sierra Nevada Forest Assessment of Critical Landscape Conditions and Potential Change in the Coastal Plain of the Arctic National Wildlife Refuge to Support Habitat Management Decision Making Science to Help Move From Mortality to Recovery in Western Forests and Woodlands Identifying Historical Drivers of Vegetation Change to Inform Future Management of Federal Lands in the Northern Great Basin Assessment of Critical Landscape Conditions and Potential Change in the Coastal Plain of the Arctic National Wildlife Refuge to Support Habitat Management Decision Making Changing Fires, Changing Forests: The Effects of Climate Change on Wildfire Patterns and Forests in the Pacific Northwest Tracking Forest and Hydrological Resilience to Compound Stressors in Burned Forests Under a Changing Climate Disappearing Refugia: Identifying Trends and Resilience in Unburned Islands under Climate Change Assessing the Use of Biochar for Drought Resilience and Crop Productivity Identifying and Evaluating Refugia from Drought and Climate Change in the Pacific Northwest Designing Climate-Resilient Habitat for At-Risk Species in the Southern Sierra Nevada Forest Modeling and Predicting Future Changes in Snowfall and Snow Cover in Alaska Can Management Actions Support Forest Regeneration Across the Diverse Landscapes and Climate Change Futures of the Southwestern U.S.? Ecology and Management of Pinyon-Juniper Woodlands: State of the Science Assessing Southwest Resources, Future Climate Scenarios, and Possible Adaptation Actions to Support Conservation Planning Mapping the Risk of Ecological Transformation Across Pinyon Woodlands and the U.S. West The Impact of Future Changes in Climate on Breeding Waterfowl Pairs in the US Prairie Pothole Region