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Currently, maintaining appropriate flows to support biological integrity is difficult for larger riverine ecosystems. Climate change, through increased temperature, reduced rainfall, and increased rainfall intensity, is expected to reduce water availability and exacerbate the maintenance of ecological flows in the Arkansas-Red River basin. Understanding the nexus among climate change effects on streamflow, water quality, and stream ecology for watersheds in the Arkansas-Red River Basin can be achieved using currently existing science and technology. This nexus approach will strengthen adaptive-management strategies that focus on shared ecosystem conservation watershed targets. This approach will provide natural-resource...
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Within the Yurok Tribe’s territory in northwest California, tribal, public, and private land managers share the overlapping goal of promoting forests that are more resilient to climate-related disturbances through the implementation of forest treatments that are based on traditional tribal knowledge. Managers seek to understand how restoration strategies such as prescribed burning, tree harvesting, and fuel reduction can promote more resilient forests and increase the capacity of forests and human communities to adapt to extreme weather events, drought, fire, and pests and diseases. Very few existing studies of forest vulnerability and resilience have incorporated indigenous or tribal knowledge. In order to promote...
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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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A large portion of the U.S. population lives in coastal areas along the Atlantic and Gulf coasts and the Caribbean; however, our coasts are also home to many fish, wildlife, and plant species that are important for recreation, tourism, local economies, biodiversity, and healthy coastal ecosystems. Coastal habitats also provide protective ecosystem services to human communities, which are increasingly at risk to storms and sea level rise under future climate change. Understanding how climate change will impact natural and human communities is a crucial part of decision making and management related to the protection of our coasts. In a collaborative project between the North Atlantic Landscape Conservation Cooperative...
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Climate change will have sweeping impacts across the Northeast, yet there are key gaps in our understanding about whether species will be able to adapt to this changing environment. Results from this project will illuminate local and region-wide changes in forest ecosystems by studying the red-backed salamander, a species that is a strong indicator of forest conditions. This study identified habitat and forest characteristics that improve the resiliency of forest dwelling amphibians and other wildlife to climate change. Further, by studying a foundational species in forest floor ecosystems, the scientists can use the information to make inferences about rare and declining species. The researchers studied multiple...
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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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In the Pacific Northwest, land and resource managers strive to make decisions that benefit both natural and human communities, balancing ecological and economic demands including wildlife habitat, forest products, forage for grazing, clean water, and wildfire control. Climate change adds a layer of complexity to the planning process because of its uncertain effects on the environment. In order to make sound decisions, managers need information about how climate change will affect wildlife habitat, both on its own and in conjunction with management actions. The goal of this project was to explore how future climate may interact with management alternatives to shape wildlife habitat across large landscapes. Scientists...
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In the dry southwestern United States, snowmelt plays a crucial role as a water source for people, vegetation, and wildlife. However, snow droughts significantly lower snow accumulations, disrupting these critical water supplies for local communities and ecosystems. Despite its large influence on land- and water-resource management, snow drought has only recently been properly defined and its historical distribution and effects on key natural resources are essentially unknown. To remedy this serious knowledge gap, project researchers are examining the causes, effects, and forecastability of snow drought to provide needed scientific information and guidance to planners and decision makers. The central goals of...
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California - one of the nation's most populous states - hosts extensive public lands, crown-jewel national parks, and diverse natural resources. Resource managers in federal, state, tribal, and local agencies face challenges due to environmental changes and extreme events such as severe droughts, heat waves, flood events, massive wildfires, and forest dieback. However, state-of-the-art research that could aid in the management of natural resources facing these challenges is typically slow to be applied, owing to limited time and capacity on the part of both researchers and managers. This project aims to accelerate the application of science to resource management by facilitating the translation and synthesis of...
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The goals of this project were to: (1) produce a state-of-the-art assessment and synthesis of climate change projections, impacts, vulnerabilities, adaptive capacity, and prospects for mitigation and adaptation actions in the Southwest in support of the regional contribution to the National Climate Assessment; (2) develop an inventory of federal partners and stakeholders involved with climate adaptation programs, and (3) forge stronger bonds between the DOI-SW CSC, the three NOAA-RISAs in the Southwest, and the Landscape Conservation Cooperatives.
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There is increasing and broad recognition of the importance of Indigenous and local knowledge in leading climate change adaptation. Indigenous peoples and nations are on the front lines of climate change impacts, yet they are also leading the way in many innovative adaptation actions, such as traditional or cultural burning practices - a form of low-intensity understory-burning that promotes ecosystem health and builds cultural resilience. The overarching goal of this project is to better understand and establish traditional burning as a robust adaptation strategy, based on the practice’s own merits and/or as a complementary approach to other conventional ecosystem restoration practices. Focusing on central California,...
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Resource managers must balance the impacts of competing management decisions on multiple, interacting natural systems. Hydrologic and ecological processes, such as groundwater fluctuations and riparian evapotranspiration, can be tightly coupled. Ideally, managers would have tools and models that include all processes to better understand how each management action would propagate through the environment. Because resources are limited, management tools that include only the most important processes may be more realistic. However, in some cases, omitting some interactions can lead to significant errors in predictions of hydrologic outcomes and ecological function, severely limiting a manager’s ability to identify...
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A major goal of the Climate Science Center network is to conduct science and develop timely science products and tools that are directly relevant and useful to decision-makers and natural resource managers. A crucial first step in producing this actionable science is understanding the highest priority science and information needs of natural resource managers and planners. Through this project, the Southwest Climate Science Center will conduct a structured rapid assessment to identify and understand manager needs and priorities in the Southwest region. The project team will also work directly with managers and stakeholders to assess their perceptions regarding the co-production of science and preferences on...
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This project was designed to use climate models to produce projections of changes in sea temperatures and ocean chemistry for coastal marine areas in Micronesia as well as reports that describe the outlook of culturally important marine sites in Guam and CNMI. The projections and maps were expected show what the current state of climate science suggests the future holds for marine areas in Micronesia if we continue to use fossil fuels aggressively. These projections of sea conditions will become the foundation of outlook reports for Tumon Bay in Guam, Lao Lao Bay and Saipan Lagoon in Saipan, and northern Tinian Island. The selected areas are among the most important sites for recreation in Guam and CNMI and, as...
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Small Pacific islands are especially vulnerable to climate change. Challenges these coastal communities face include sea level rise, erosion, saltwater intrusion, flooding, droughts, and coral bleaching which in turn affect food and water security, infrastructure, and the health of humans and ecosystems. These small islands also have limited resources; therefore, managing them effectively is important to ensure sustainable communities and healthy environments. To support natural resource management, accurate, detailed, up-to-date geospatial data and products are vital to help monitor these resources, identify potential threats, and reveal potential solutions. Through this project, the University of Guam (UoG)...
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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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One of the biggest challenges facing resource managers today is not knowing exactly when, where, or how climate change effects will unfold. In order to plan for this uncertain future, managers have begun to use a tool known as scenario planning, in which climate models are used to identify different plausible climate conditions, known as “scenarios”, for a particular area. In a previous project, researchers with the North Central Climate Science Center worked with natural resource managers at Badlands National Park and on surrounding federal lands to model how different climate scenarios and management activities would impact the area’s resources. The model that was developed answers critical “what if” questions...
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The goal of this project was to identify climate-related scientific information needs in the North Central region that will support the management of key species and help avoid species declines. Researchers worked closely with state fish and wildlife agencies, the U.S. Fish and Wildlife Service, tribes, and other relevant natural resource management and conservation agencies to identify priority information needs and to design and implement studies that will address these needs. Researchers identified stakeholders, including those engaged by the North Central Climate Science Center USGS Liaisons project. Researchers worked with stakeholders to identify priority conservation targets. Selected targets were those...
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Surrounded by saltwater, Hawaiian communities depend on freshwater streams for consumption, irrigation, traditional Hawaiian practices, and habitat for native fish and other stream life. It is important to be able to predict how Hawaiʻi’s streams will be affected by changing rainfall patterns to enable sustainable management of critical freshwater resources. However, to date, limited data and the uncertain effects of climate change have hindered predictions of future streamflow. Through this project, scientists developed a model that provides a way to estimate future stream low flow (streamflow during a period of prolonged dryness) by categorizing streams based on their physical characteristics. While the model...
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The Republic of the Marshall Islands (RMI) spreads over 29 atolls and has a population of over 50,000 people; over 27,000 of those people live on the Majuro Atoll, RMI’s capital. Sea level rise threatens the very existence of RMI as high-end projections of sea level rise by the end of the century exceed the average elevation of these low atoll reef islands. Already, waves wash over Majuro during “king tides” when strong winds blow from the west across the broad lagoon, or when there are high open ocean waves. Flooding waves breach island shores in multiple locations and wash into homes, cemeteries, across roads, and into commercial districts. Over the past decade, there has been a widespread exodus of residents...
map background search result map search result map Climate, Land Management and Future Wildlife Habitat in the Pacific Northwest Synthesis of Current Science and Assessment of Science Needs for Adaptation in the Southwest Understanding the Nexus between Climate, Streamflow, Water Quality, and Ecology in the Arkansas-Red River Basin Forest Management Tools to Maximize Snow Retention under Climate Change Modeling the Response of Hawaiʻi’s Streams to Future Rainfall Conditions Understanding the Future of Red-Backed Salamanders as an Indicator of Future Forest Health Assessing the Sustainability of Culturally Important Marine Sites in Guam and CNMI Assessing the Impacts of Restoration Efforts on Water and Natural Systems in a Changing World Identifying Critical Thresholds and Tipping Points for Priority Coastal Species in a Changing Future Building Capacity for Coordination of Strategic Science Research in the US-Affiliated Pacific Islands Simulating and Projecting Future Impacts of Sea Level Rise on Majuro Atoll Learning From Recent Snow Droughts to Improve Forecasting of Water Availability for People and Forests Enabling Climate-Informed Planning and Decisions about Species of Conservation Concern in the North Central Region: Phase 1 Informing Climate Change Adaptation Planning in National Parks Assessing Stakeholder Needs for Effective Actionable 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 Improving and Accelerating the Application of Science to Natural Resource Management in California Promoting Resilience and Adaptive Capacity of Forests and Tribal Communities in Northern California Cultural Burning as a Climate Adaptation Strategy Simulating and Projecting Future Impacts of Sea Level Rise on Majuro Atoll Identifying Historical Drivers of Vegetation Change to Inform Future Management of Federal Lands in the Northern Great Basin Promoting Resilience and Adaptive Capacity of Forests and Tribal Communities in Northern California Informing Climate Change Adaptation Planning in National Parks Assessing the Sustainability of Culturally Important Marine Sites in Guam and CNMI Modeling the Response of Hawaiʻi’s Streams to Future Rainfall Conditions Climate, Land Management and Future Wildlife Habitat in the Pacific Northwest Understanding the Nexus between Climate, Streamflow, Water Quality, and Ecology in the Arkansas-Red River Basin Forest Management Tools to Maximize Snow Retention under Climate Change Improving and Accelerating the Application of Science to Natural Resource Management in California Cultural Burning as a Climate Adaptation Strategy Assessing Stakeholder Needs for Effective Actionable Science Learning From Recent Snow Droughts to Improve Forecasting of Water Availability for People and Forests Synthesis of Current Science and Assessment of Science Needs for Adaptation in the Southwest Enabling Climate-Informed Planning and Decisions about Species of Conservation Concern in the North Central Region: Phase 1 Understanding the Future of Red-Backed Salamanders as an Indicator of Future Forest Health Mapping the Risk of Ecological Transformation Across Pinyon Woodlands and the U.S. West Identifying Critical Thresholds and Tipping Points for Priority Coastal Species in a Changing Future Building Capacity for Coordination of Strategic Science Research in the US-Affiliated Pacific Islands