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Folders: ROOT > ScienceBase Catalog > National and Regional Climate Adaptation Science Centers > Northwest CASC > FY 2014 Projects ( Show direct descendants )

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The rugged landscapes of northern Idaho and western Montana support biodiverse ecosystems, and provide a variety of natural resources and services for human communities. However, the benefits provided by these ecosystems may be at risk as changing climate magnifies existing stressors and allows new stressors to emerge. Preparation for and response to these potential changes can be most effectively addressed through multi-stakeholder partnerships, evaluating vulnerability of important resources to climate change, and developing response and preparation strategies for managing key natural resources in a changing world. This project supports climate-smart conservation and management across forests of northern Idaho...
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Climate change is one of the most pressing issues facing natural resource management. The disruptions it is causing require that we change the way we consider conservation and resource management in order to ensure the future of habitats, species, and human communities. Practitioners often struggle with how to identify and prioritize specific climate adaptation actions (CAAs). Management actions may have a higher probability of being successful if they are informed by available scientific knowledge and findings; a systematic review process provides a mechanism to scientifically assess management questions. By evaluating specific actions on scientific knowledge and findings, we may be able to increase management...
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Ecological systems are already responding to modern changes in climate. Many species are moving in directions and at rates that correspond with recent climatic change. Understanding how species distributions and abundances are likely to be altered can inform management and planning activities resulting in more robust management. We projected climate-driven changes in the abundances and distributions of 31 focal bird species in Oregon and Washington using the latest downscaled CMIP5 climate projections and corresponding vegetation model outputs. We mapped these future projections and integrated them into an existing web-based tool (http://data.pointblue.org/apps/nwcsc/) to allow managers and planners to access and...
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Climate change is projected to cause earlier and less snowmelt, potentially reducing water availability for terrestrial and aquatic ecosystems and for municipal and agricultural water supplies. However, if forested landscapes can be managed to retain snow longer, some of these environmental and financial impacts may be mitigated. Results from our research team demonstrate that in the Pacific Northwest (PNW), opening dense forest canopies through creating forest gaps will generally lead to more snow accumulation and later melt (i.e., up to 13 weeks later). However, under certain conditions, such as locations on ridges with high wind speeds and sunny south-facing slopes, the snow that accumulated in the forest is...
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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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The Schitsu'umsh people (Coeur d’Alene Tribe of Idaho) have an intimate relationship with their landscape and a rich knowledge of how to interact with the environment in a way that benefits human, plant, and animal communities alike. Such knowledge and practices can provide valuable insight as to how tribal and non-tribal resource managers, communities, and governments can best respond to the effects of a changing climate. This project was a pilot effort to collect and translate indigenous knowledge and practices into shareable formats. Researchers developed documents, images, lesson plans, and innovative, interactive 3-D virtual reality simulations that effectively convey Schitsu’umsh knowledge and practices and...
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The project aimed to use existing models and data to understand how wildfires (number, size, and location) and land-use change will affect watersheds, and therefore water supply, under current conditions and future climates (through 2050) in the western U.S. The projected changes in temperature and precipitation are expected to affect water supply in two major ways: 1) decreased water availability, and 2) increased risk to watersheds via loses from fire. As the western population is projected to grow by 310 million people by 2100, this will potentially increase demand for diminishing supplies if housing growth occurs in rangelands or forested lands. Understanding watershed vulnerabilities due to changing climate,...
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The Columbia River Basin and the plants and animals it supports have been central to tribal culture and economy in the Pacific Northwest (Washington, Oregon, Idaho, Nevada, Montana, and British Columbia) for thousands of years. Climate change is expected to significantly alter the ecology of the Columbia River Basin, and tribal communities will be especially sensitive to these changes, including possible loss of culturally and economically significant foods such as salmon, deer, root plants, and berries. The purpose of this project was to assess the capacity of tribal communities and organizations in the Columbia River Basin to prepare for and respond to climate change. Researchers surveyed 15 tribes and three...
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This project identified priority areas in the Columbia Plateau Ecoregion to focus on for riverine and riparian habitat conservation. The project’s products are tailored towards the Arid Lands Initiative (ALI) conservation goals and objectives and provide the foundation for adaptation to a changing climate. We adopted a “zoned” approach to identifying focal areas, connectivity management zones, and zones for riparian habitat and ecological representation. Through a series of workshops and webinars, the ALI identified freshwater species for targeted conservation, including Pacific lamprey, bull trout, redband trout, riparian birds and waterfowl, and beavers. The methods to spatially identify a conservation design...
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Enhancing ecological connectivity - the degree to which landscapes facilitate the movement of the organisms within them - is a frequently recommended strategy for conserving wildlife populations into the future. This is because a primary way in which species respond to climate change is by adjusting their geographic ranges to find more suitable temperatures and adequate food supplies. It is also because connectivity facilitates many other important ecological and evolutionary processes within species' ranges, further promoting resilience and healthy populations. However, widespread fragmentation of landscapes by human activities presents a serious obstacle to these processes, which may contribute to a decline in...
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Aspen is an environmentally, economically, and socially important species in the western U.S. It is typically the most abundant deciduous tree species in mountainous landscapes of the western U.S., providing food and habitat for a variety of wildlife, including black bear, deer, elk, moose, and numerous bird species. Aspen woodlands also provide high quality forage for livestock and draw tourists to the region to view the golden vistas that form in the fall. However, aspen is currently declining across large portions of the West and it’s estimated that approximately 40% of western aspen will be without suitable climate conditions within 50 years. In the northern and central Rocky Mountains, it’s thought that reduced...
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This project aimed to contribute to effective decision making in the region for the scientific community and general public. Resource managers in the Great Basin are dealing with significant questions regarding how best to make decisions in the natural and human systems in response to climate change. Vulnerability assessments and other tools are used for climate change adaptation, but their effectiveness is not widely understood or examined. Assessing these tools for their utility and for their ability to translate science into accessible and available information for users, including the general public, is critical for the future viability and sustainability of the Great Basin. This project applied social and policy...
    map background search result map search result map Disappearing Refugia: Identifying Trends and Resilience in Unburned Islands under Climate Change Creating Practitioner‐Driven, Science‐Based Plans for Connectivity Conservation in the Washington-British Columbia Transboundary Region Projecting the Effects of Climate Change on Aspen in the Central and Northern Rocky Mountains Changes to Watershed Vulnerability under Future Climates, Fire Regimes, and Population Pressures Moving from Awareness to Action: Informing Climate Change Vulnerability Assessments and Adaptation Planning for Idaho and Montana National Forests Visualizing the Future Abundance and Distribution of Birds in the Northwest Assessing the Usefulness of Vulnerability Assessments and Other Science-based Tools in Climate Adaptation Forest Management Tools to Maximize Snow Retention under Climate Change Collecting and Applying Schitsu’umsh Indigenous Knowledge and Practices to Climate Change Decision Making Assessing the Capacity of Columbia River Basin Tribes to Address Climate Change The Available Science Assessment Process (ASAP): Evaluating the Science behind Climate Adaptation Actions Spatial Conservation Priorities for Riverine and Riparian Systems in the Columbia Plateau Ecoregion Moving from Awareness to Action: Informing Climate Change Vulnerability Assessments and Adaptation Planning for Idaho and Montana National Forests Collecting and Applying Schitsu’umsh Indigenous Knowledge and Practices to Climate Change Decision Making Projecting the Effects of Climate Change on Aspen in the Central and Northern Rocky Mountains Visualizing the Future Abundance and Distribution of Birds in the Northwest Creating Practitioner‐Driven, Science‐Based Plans for Connectivity Conservation in the Washington-British Columbia Transboundary Region Forest Management Tools to Maximize Snow Retention under Climate Change The Available Science Assessment Process (ASAP): Evaluating the Science behind Climate Adaptation Actions Spatial Conservation Priorities for Riverine and Riparian Systems in the Columbia Plateau Ecoregion Disappearing Refugia: Identifying Trends and Resilience in Unburned Islands under Climate Change Assessing the Usefulness of Vulnerability Assessments and Other Science-based Tools in Climate Adaptation Assessing the Capacity of Columbia River Basin Tribes to Address Climate Change Changes to Watershed Vulnerability under Future Climates, Fire Regimes, and Population Pressures