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Invasive species have increasingly severe consequences for ecosystems and human communities alike. The ecological impacts of invasive species are often irreversible, and include the loss of native species and the spread of disease. Implications for human communities include damaged water transportation systems, reduced crop yields, reduced forage quality for livestock, and widespread tree death - which can lead to increases in wildfire and loss of biodiversity. Changing climate conditions may facilitate the spread of invasive species, making this a key management and conservation concern across the United States. This project will synthesize what we know about how climate change impacts the spread of invasive...
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Climate change, drought, habitat alterations, and increasing water demands are leaving less water available for streams of the Pacific Northwest and for fish like salmon. As water levels drop, some small streams become fragmented, transforming from a ribbon of continuous habitat into a series of isolated pools. Fragmented streams may pose a serious threat to salmon. For example, juveniles that become stranded in small pools are at increased risk to overheat, starve, or be consumed by predators. Healthy salmon populations can cope with fragmentation and recover from a bad drought-year. However, many salmon populations are endangered and face long-term drought. Land and resource managers are increasingly finding...
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The Midwest United States is facing wetter winters and springs and more variable precipitation in the summer and fall. Heavy floods and prolonged droughts are costly to agriculture, housing, transportation infrastructure, and recreational opportunities across the region. These extremes also stress the health of freshwater ecosystems that are important to the regional economy and quality of life. The number of freshwater invertebrates like mussels, crayfish, and aquatic insects are generally declining which strongly indicates declining freshwater health. Losing these animals limits benefits such as water purification, food for wildlife, and aesthetic values. This project seeks to understand and synthesize information...
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The Midwest region faces unique challenges from climate change that affect forests, grasslands, lakes, rivers, wetlands, and the services and cultural values these ecosystems provide. These changes also occur in a wide range of land types and cultural settings, such as on and off Tribal reservation and treaty-ceded land, within and around towns and cities, and in farms and managed forests. The goal of adaptation science is to identify, test, and demonstrate management strategies that reduce the impacts of climate change. This project will advance the creation and distribution of adaptation science that addresses the natural resource needs of the Midwest through: 1) a synthesis project and research symposium that...
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This project links climate, hydrological, and ecological changes over the next 30 years in a Great Basin watershed. In recent years, climate variability on annual and decadal time scales has been recognized as greater than commonly perceived with increasing impacts on ecosystems and available water resources. Changes in vegetation distribution, composition and productivity resulting from climate change affect plant water use, which in turn can alter stream flow, groundwater and eventually available water resources. To better understand these links, project researchers implemented two computer-based numeric models in the Cleve Creek watershed in the Schell Creek Range, east of Ely, Nevada. The application of the...
Categories: Project; Types: Map Service, OGC WFS Layer, OGC WMS Layer, OGC WMS Service; Tags: 2013, CASC, Cleve Creek, Climate, Completed, All tags...
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The desert grasslands of the southwestern United States support many wildlife species of management concern and economic value. The American pronghorn, for example, is a game species that contributes to local and state economies. Climate extremes, including severe droughts, heat waves, and atmospheric river events, are expected to occur more frequently in the Southwest. These extremes can affect the availability of food and water needed by wildlife. Wildlife management agencies and conservation organizations need information on resource availability for wildlife under future climate scenarios to design effective management strategies to sustain wildlife populations. Project scientists are working with the Arizona...
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To understand potential climate change impacts on ecosystems, water resources, and numerous other natural and managed resources, climate change data and projections must be downscaled from coarse global climate models to much finer resolutions and more applicable formats. This project conducted comparative analyses to better understand the accuracy and properties of these downscaled climate simulations and climate-change projections. Interpretation, guidance and evaluation, including measures of uncertainties, strengths and weaknesses of the different methodologies for each simulation, can enable potential users with the necessary information to select and apply the models.
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Ecological drought impacts ecosystems across the U.S. that support a wide array of economic activity and ecosystem services. Managing drought-vulnerable natural resources is a growing challenge for federal, state and Tribal land managers. Plant communities and animal populations are strongly linked to patterns of drought and soil moisture availability. As a result, ecosystems may be heavily altered by future changes in precipitation and soil moisture that are driven by climate change. Although this vulnerability is well recognized, developing accurate information about the potential consequences of climate change for ecological drought is difficult because the soil moisture conditions that plants experience are...
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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 headwaters of the Columbia River Basin in the Northern Rocky Mountains region is widely recognized as a stronghold for native fish, containing some of the last remaining connected cold-water habitats for species such as the threatened bull trout and native westslope cutthroat trout. However, as temperatures rise, non-native invasive fish species could be poised to prosper in the region as conditions start to favor warm-water species over those that require cooler waters to thrive. The spread of invasive fish species has the potential to devastate native fish populations, stream habitats, and the local cultures and economies that depend on healthy aquatic ecosystems – including the region’s multi-billion dollar...
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Climate in the southeastern U.S. is predicted to be changing at a slower rate than other parts of North America; however, land use change associated with urbanization is having a significant effect on wildlife populations and habitat availability. We sought to understand the effect of global warming on both beneficial and pest insects of trees. We used urban warming as a proxy for global warming in as much as many cities have already warmed as much, due to heat island effects, as they are expected to warm due to climate change by 2050 or even 2100. We were able to develop good predictive models of how warming influences beneficial and pest insects for cities in the Southeast and across the east coast more generally....
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Climate change is expected to alter stream temperature and flow regimes over the coming decades, and in turn influence distributions of aquatic species in those freshwater ecosystems. To better anticipate these changes, there is a need to compile both short- and long-term stream temperature data for managers to gain an understanding of baseline conditions, historic trends, and future projections. Unfortunately, many agencies lack sufficient resources to compile, conduct quality assurance and control, and make accessible stream temperature data collected through routine monitoring. Yet, pooled data from many sources, even if temporally and spatially inconsistent, can have great value both in the realm of stream temperature...
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There have been increasing concerns regarding the decline in moose numbers along the southern range of their North American distribution. This has prompted varied research efforts to determine the factors contributing to the reduced local populations. Although heat stress from increasing temperatures could be a potential factor for declining populations in Minnesota, temperature increases have also occurred in New York, Massachusetts, and Connecticut where populations have been expanding in recent years. Alternatively, indirect climate effects from warmer temperatures may be playing a role, such as increased prevalence of parasites (e.g., brainworm, winter tick) to levels lethal to moose. Additionally, factors such...
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As glaciers melt from climate change, their contents – namely, large quantities of freshwater, sediment, and nutrients – are slowly released into coastal ecosystems. This project addressed the impacts of melting glaciers on coastal ecosystems in the Copper River region of the Gulf of Alaska, which is home to several commercially important fisheries. Researchers examined how glacial melting is altering the amount and timing of freshwater that enters the Gulf of Alaska from the Copper River. They also investigated the source and amount of two nutrients, iron and nitrate, dissolved in the water. As a complementary piece of the study, researchers tested the relationship between nutrient levels, plankton populations,...
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Climate change doesn’t just threaten our natural resources—it threatens our cultural resources, too. Cultural resources represent evidence of past human activity, such as archeological sites, or are of significance to a group of people traditionally associated with the resource, such as Native American ceremonial sites. Climate change is challenging the long-term persistence of many cultural resources. For example, those located in coastal areas, such as historic lighthouses, are threatened by sea-level rise, shoreline erosion, and more frequent severe storm events. While climate change challenges managers of both natural and cultural resources to make decisions in the face of uncertainty, far less work has been...
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In the Southeast, where rapid human development is increasingly dividing natural areas, habitat fragmentation and loss threaten the health and even genetic viability of wildlife populations, and interrupt migration routes. Climate change is projected to exacerbate fragmentation by further disrupting landscapes. To make matters worse, it is also expected to shift the range of many species, forcing animals capable of adapting by moving to expand into new areas to find more suitable temperatures and adequate food supplies – a challenge made difficult, if not impossible, by disconnected landscapes. Maintaining connectivity between habitats is a key strategy for conserving wildlife populations into the future, and sound...
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The forests of the Northeastern United States are home to some of the greatest diversity of nesting songbirds in the country. Climate change, shifts in natural disturbance regimes, and invasive species pose threats to forest habitats and bird species in the northeastern United States and represent major challenges to natural resource managers. Although broad adaptation approaches have been suggested for sustaining forested habitats under global change, it is unclear how effective the implementation of these strategies at local and regional scales will be for maintaining habitat conditions for a broad suite of forest-dependent bird species over time. Moreover, given the diversity in forest stakeholders across the...
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Birds are appreciated and enjoyed by thousands of people and also play important roles in the ecosystem as predators, prey, and pollinators. Alaska provides important breeding ground for hundreds of migratory bird species that travel thousands of miles in their annual migrations between breeding and wintering spots. Understanding how climate and land use changes affect migratory bird populations is crucial; however this information is also very difficult to collect. Migration routes expose birds to a wide range of landscapes and habitats, which are often experiencing varying degrees of climate and land use change (e.g. warmer temperatures or increased housing developments). Moreover, climate change in the future...
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In California, the near-shore area where the ocean meets the land is a highly productive yet sensitive region that supports a wealth of wildlife, including several native bird species. These saltmarshes, mudflats, and shallow bays are not only critical for wildlife, but they also provide economic and recreational benefits to local communities. Today, sea-level rise, more frequent and stronger storms, saltwater intrusion, and warming water temperatures are among the threats that are altering these important habitats. To support future planning and conservation of California’s near-shore habitats, researchers examined current weather patterns, elevations, tides, and sediments at these sites to see how they affect...
Categories: Project; Types: Map Service, OGC WFS Layer, OGC WMS Layer, OGC WMS Service; Tags: 2012, Bolinas Lagoon, CA, CASC, California, All tags...


map background search result map search result map Impacts of Climate Change and Melting Glaciers on Coastal Ecosystems in the Gulf of Alaska Understanding How Warming Temperatures Will Impact Trees and Insects Using Cities as a Proxy Analysis of Downscaled Climate Simulations and Projections and Their Use in Decision Making for the Southwest NorEaST: A Tool to Understand the Responses of Fish to Changes in Stream Temperature Understanding Habitat Connectivity to Inform Conservation Decisions Effects of Sea-Level Rise and Extreme Storms on California Coastal Habitats: Part 1 Understanding and Projecting Changes in Climate, Hydrology, and Ecology in the Great Basin for the Next 30 Years Disappearing Refugia: Identifying Trends and Resilience in Unburned Islands under Climate Change Collecting and Applying Schitsu’umsh Indigenous Knowledge and Practices to Climate Change Decision Making Developing a Coordinated, Multi-Region Effort to Understand the Effects of Climate Change on Migratory Birds Protecting Cultural Resources in the Face of Climate Change Evaluating the Effectiveness of Assisted Migration and Fish Rescue Programs Forecasting Resource Availability for Wildlife Populations in Desert Grasslands under Future Climate Extremes Climate Change Impacts on Invasive Species in the Northwest: A Synthesis and Path Forward Moose Health in a Changing Environment Identifying and Evaluating Adaptation Science for Forest Habitats and Bird Communities in the Northeast Predicting Climate-Induced Expansions of Invasive Fish in the Pacific Northwest: Implications for Climate Adaptation of Native Salmon and Trout Synthesizing the Responses and Vulnerabilities of Freshwater Invertebrates to Droughts and Heavy Precipitation in the Midwest Assessing and Advancing Different Ways of Knowing in Climate Adaptation in the Midwest Developing High-Resolution Soil Moisture Projections for the Contiguous U.S. Protecting Cultural Resources in the Face of Climate Change Understanding and Projecting Changes in Climate, Hydrology, and Ecology in the Great Basin for the Next 30 Years Evaluating the Effectiveness of Assisted Migration and Fish Rescue Programs Collecting and Applying Schitsu’umsh Indigenous Knowledge and Practices to Climate Change Decision Making Impacts of Climate Change and Melting Glaciers on Coastal Ecosystems in the Gulf of Alaska Understanding How Warming Temperatures Will Impact Trees and Insects Using Cities as a Proxy Effects of Sea-Level Rise and Extreme Storms on California Coastal Habitats: Part 1 Disappearing Refugia: Identifying Trends and Resilience in Unburned Islands under Climate Change Climate Change Impacts on Invasive Species in the Northwest: A Synthesis and Path Forward Analysis of Downscaled Climate Simulations and Projections and Their Use in Decision Making for the Southwest Forecasting Resource Availability for Wildlife Populations in Desert Grasslands under Future Climate Extremes Synthesizing the Responses and Vulnerabilities of Freshwater Invertebrates to Droughts and Heavy Precipitation in the Midwest Assessing and Advancing Different Ways of Knowing in Climate Adaptation in the Midwest Identifying and Evaluating Adaptation Science for Forest Habitats and Bird Communities in the Northeast NorEaST: A Tool to Understand the Responses of Fish to Changes in Stream Temperature Understanding Habitat Connectivity to Inform Conservation Decisions Moose Health in a Changing Environment Predicting Climate-Induced Expansions of Invasive Fish in the Pacific Northwest: Implications for Climate Adaptation of Native Salmon and Trout Developing a Coordinated, Multi-Region Effort to Understand the Effects of Climate Change on Migratory Birds Developing High-Resolution Soil Moisture Projections for the Contiguous U.S.