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Filters: Tags: {"scheme":"https://www.sciencebase.gov/vocab/category/WRET/CMS_Themes/CASC_CMS_Themes","name":"science tools for managers"} (X) > Categories: Project (X) > partyWithName: NCCWSC (X)

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This project brought together a team of researchers from the U.S. Geological Survey (USGS) and universities to develop a comprehensive web-based dataset of high-resolution (or ‘downscaled’) climate change projections, to enable scientists and decision-makers to better assess climate related ecosystem impacts. Currently, scientists and resource managers often find it difficult to use downscaled climate projections because of the multiple methodologies used to produce them and the time-consuming process required to obtain model output. In response, the research team implemented a three-part plan to provide high resolution climate data for the impact modeling community. First, a database was developed of up-to-date...
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We are seeking to better understand networks among resource managers with respect to developing plans for climate change adaptation. We are pursuing this through a network analysis based on a survey of federal resource management staff and scientists in the southwestern and Midwestern U.S. Originally planned, this study was conceived to cover the Southwest and North Central Climate Science Centers, as defined by the USGS. In practice, surveys are most easily distributed within regions as defined by the federal resource agencies. Unfortunately, there is no uniform set of regions. We have tried to be comprehensive in our survey and cover at least the North Central and Southwestern Region.
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The San Francisco Bay estuary contains the largest remaining expanse of tidal salt marshes in the western U.S. These marshes are home to a variety of federal and state protected species, such as the California clapper rail, California black rail, and the salt marsh harvest mouse. The estuary is also located on the Pacific Flyway, and is an important site for migrating and wintering birds. As climate conditions change, these salt marshes face a number of threats, including accelerated rates of sea-level rise, shifting precipitation, erosion, and more frequent and intense storms. Seas in the San Francisco Bay estuary have been rising 2.2 centimeters per decade, and could rise by as much as 1.24 meters by 2100, according...
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Conservation and natural resource managers require information about potential future climate changes for the areas they manage, in terms that are relevant for the specific biotic and environmental resources likely to be affected by climate change. We produced a suite of data sets that provide managers with climate and climate-derived data and a visualization approach that allows managers to map where 1) a managed area's potential future climate is located on today's landscape (i.e., the locations of the modern analogues of future climate) and 2) the areas to which the present climate (and habitat) of managed areas are projected to move. We produced downscaled climate data from historical (1901-2000) data sets and...
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This project produced long simulations (multi-decadal to multi-century in scale) of past, present, and future regional climate at a grid spacing of 50 kilometers (km) over North America and at a grid spacing of 15 km over western and eastern North America. These model runs were the first attempt to achieve coordinated, high-resolution downscaling with such wide geographic and temporal coverage. The objectives of this project were to (1) understand the nature of climate change and variability, (2) quantify the climate-driven responses and feedbacks of terrestrial and aquatic ecosystems, wildfire, the hydrologic cycle, and alpine glaciers, and (3) provide climate information in a form that is useful to a wide range...
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To develop effective adaptive management plans, conservation and natural resource managers need to know how climate change will affect the species and ecosystems they manage. This project provides managers with information about potential climate change effects on species and managed areas in the Pacific Northwest. We evaluated projected changes in climate, vegetation, and species distributions through the year 2099 and assessed the potential impacts of these changes on key species and managed lands. We worked with conservation and natural resource managers to incorporate the results of this study into state, federal, and non-governmental organization (NGO) management plans. The projected changes in climate, vegetation,...
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In semi-arid regions, riparian and wetland ecosystems function as important migratory and breeding habitats and add significantly to local and regional biodiversity; however, these ecosystems are increasingly threatened by climate change and the potential synergistic effects of increasing demand for water and invasion by exotic species. As a continuation of our inaugural USGS National Climate Change and Wildlife Science Center (NCCWSC) project, this study examined the effects of climate and land use change on bird populations and their riparian and wetland habitats in the western US. Scientists at the USGS, academic institutions, and nongovernmental organizations (NGOs) examined the linkages between climate, hydrology,...
    map background search result map search result map Fate of Endangered Species in San Francisco Bay Tidal Marshes with Sea-Level Rise Development of the Geo Data Portal to Make Climate Projections and Scientific Data More Accessible to Users Understanding the Links Between Climate, Ecosystem Processes, Wetland Management, and Bird Communities in the Prairie Pothole Region of the Northern Great Plains A Visualization Approach for Projecting Future Climate Distributions in North America Assessing the Vulnerability of Species and Ecosystems to Projected Future Climate Change in the Pacific Northwest Downscaled Climate Change Modeling for the Conterminous United States (National Assessment) Climate Change and Federal Land Management: Assessing Priorities Using a Social Network Approach Understanding the Links Between Climate, Ecosystem Processes, Wetland Management, and Bird Communities in the Prairie Pothole Region of the Northern Great Plains Climate Change and Federal Land Management: Assessing Priorities Using a Social Network Approach Assessing the Vulnerability of Species and Ecosystems to Projected Future Climate Change in the Pacific Northwest Development of the Geo Data Portal to Make Climate Projections and Scientific Data More Accessible to Users Downscaled Climate Change Modeling for the Conterminous United States (National Assessment) A Visualization Approach for Projecting Future Climate Distributions in North America