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Haleakalā National Park (HNP) and the surrounding landscape spans many different land cover types, some of which are undergoing vegetation changes that can reduce the amount of water that infiltrates into soil. Decreased soil infiltration can lead to the erosion of terrestrial habitats, increases in the amount of sediment entering aquatic habitats, and flooding of downstream areas as runoff increases after storms. Currently, HNP managers are attempting to control runoff and erosion to avoid loss and damage within park boundaries and parks located downstream. Managers in HNP have expressed a need for information on current and future runoff and erosion risk to help prioritize management within the park and other...
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The Intergovernmental Panel on Climate Change reports that low-lying atolls (ring-shaped islands or island chains made of coral) in the Pacific Ocean are extremely vulnerable to high tide events (“king tides”), storm surge, tsunamis, and sea-level rise. The Republic of the Marshall Islands (RMI) spreads over 29 atolls and has a population of over 50,000 people with homes and communities that may be threatened by these climate change-related events. Policy makers, planners, and others within RMI are faced with decisions about how to prepare for the future and need scientific data and information about the vulnerability of Pacific Islands to potential climate change impacts like sea-level rise. Topographic and bathymetric...
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Freshwater is a critical driver for island ecosystems. In Hawaiʻi, though rainfall intensity has increased, total rainfall has been on the decline for the last two decades and, as a result, streamflow has also been reduced. The changes in dynamic patterns of streamflow could result in impacts to river, estuarine, and coastal habitats. In turn, these changes also affect the nine native Hawaiian aquatic species found in these habitats at different stages of their amphidromous life cycle (in which they migrate from fresh to salt water or vice versa). To examine how changes in streamflow regime have impacted habitat quality for native migratory aquatic species, an ongoing project has been examining statewide long-term...
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Agriculture and agroforestry (tree cultivation) are important activities for the Marshall Islands and other small islands to ensure food security and human health. The Marshallese have a long tradition of interplanting food-producing trees such as coconuts, breadfruit, and pandanus with bananas and root and vegetable crops. Locally grown food crops support community self-sufficiency, promote good nutrition, and can also serve as windbreaks and stabilize shorelines to lessen storm damage and erosion. However, climate change is posing serious challenges for growers, as they struggle to adapt to climate impacts including saltwater intrusion, changing precipitation and temperature patterns, and the spread of invasive...
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The conditions of coral reefs in the Hawaiian Islands are predicted to decline significantly from climate change over the next 100 years. To better prepare for the impacts of climate change on Hawaiian reefs, the research team uses a system of models to simulate ocean waves and circulation, rainfall and storm run-off, and coral reef community dynamics through the year 2100. These models will identify reef areas that are either vulnerable or resilient to the many stressors that the future may hold for reefs. The team’s hope is that this work can identify areas that might benefit from management actions to minimize local stressors such as land-based pollution. Through a collaborative partnership with state and federal...
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Water is a key ecosystem service that provides life to vegetation, animals, and human communities. The distribution and flow of water on a landscape influences many ecological functions, such as the distribution and health of vegetation and soil development and function. However, the future of many important water resources remains uncertain. Reduced snowfall and snowpack, earlier spring runoff, increased winter streamflow and flooding, and decreased summer streamflow have all been identified as potential impacts to water resources due to climate change. These factors all influence the water balance in the Pacific Coastal Temperate Rainforest (PCTR). Ensuring healthy flow and availability of water resources is...
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The fast pace of change in coastal zones, the trillions of dollars of investment in human communities in coastal areas, and the myriad of ecosystem services natural coastal environments provide makes managing climate-related risks along coasts a massive challenge for all of the U.S. coastal states and territories. Answering questions about both the costs and the benefits of alternative adaptation strategies in the near term is critical to taxpayers, decision-makers, and to the biodiversity of the planet. There is significant public and private interest in using ecosystem based adaptation approaches to conserve critical significant ecosystems in coastal watersheds, estuaries and intertidal zones and to protect man-made...
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Ecosystem services – the benefits that nature provides to people – are a natural link between ecosystem functions and economic and social impacts. However, climate change is already impacting and altering ecosystem services. Research focused on all aspects of ecosystem services falls within the mission of the Climate Adaptation Science Centers (CASCs). While knowledge of ecosystem services supply is strong, analyses of service delivery and value currently fall outside the research agenda and capacity of the CASCs This project will draw on existing literature and expertise and experiences of CASC leadership and staff to identify the types of ecosystem services and the value of information of CASC research that are...
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Understanding the changes in the distribution and quantity of, and demand for, water resources in response to a changing climate is essential to planning for, and adapting to, future climatic conditions. In order to plan for future conditions and challenges, it is crucial that managers understand the limitations and uncertainties associated with the characterization of these changes when making management decisions. Changes in consumptive water use (water removed without return to a water resources system) will change streamflow, impacting downstream water users, their livelihoods, as well as aquatic ecosystems. Historical changes in available water may be attributed to changes in precipitation; but these changes...
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The purpose of this grant was to provide research opportunities to students and staff working with the Southeast Climate Science Center (SE CSC) with a focus on decision analysis and science communication. Research activities occured primarily within the framework of existing SE CSC-funded projects. Student research supported project activities associated with the development and use of science-based information to make climate adaptation management decisions. Student abilities to participate in these research activities were enhanced by participation in a course entitled “Introduction to Structured Decision Making” taught at the National Conservation Training Center (NCTC) in Shepherdstown, WV. In addition to participation...
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Forests in the eastern United States are changing in response to ecological succession, tree harvest, and other disturbances and climate change has the potential to further change these forests. We predicted the distribution and abundance of common tree species across portions of the eastern U.S. under alternative climate scenarios that varied in the amount of warming by the end of the century from 1.1 to 4.2 degrees celsius. We used a forest landscape change model to forecast changes in tree abundances and distribution in the North Atlantic region of the U.S. while accounting for climate change, succession, and harvest. We then considered a broader region of the U.S. and combined our results with results from previous...
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States in the Southeastern Association of Fish and Wildlife Agencies (SEAFWA) region have faced challenges when trying to develop regional plans or actions for many conservation issues. Leadership in many SEAFWA states is hesitant to approach the topic of climate change at all, let alone engage in multi-state efforts to mitigate climate impacts. Recent Southeast Climate Adaptation Science Center (SE CASC) supported research surveyed agency directors and supervisory boards, and discovered their primary concerns revolved around agency budgets, “R3” efforts (i.e., to recruit, retain, and reactivate hunters and anglers), and public outreach to maintain social relevance. Another project supported by the SE CASC and the...
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To better understand the impacts of climate change, ecological studies are increasingly addressing the different effects of temperature on organisms and ecosystems. To measure air temperature at biologically relevant scales in the field, ecologists often use small, portable temperature sensors. These sensors must be shielded from solar radiation to provide accurate temperature measurements, but a review of 18 years of ecological literature indicated that shielding practices vary across studies (when the shielding is reported at all), and that ecologists often invent and construct ad-hoc radiation shields without testing their efficacy. The project researchers performed two field experiments to examine the accuracy...
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Climate change is causing species to shift their phenology, or the timing of recurring life events such as migration and spawning, in variable and complex ways. This can potentially result in mismatches or asynchronies in food and habitat resources that negatively impact individual fitness, population dynamics, and ecosystem function. Numerous studies have evaluated phenological shifts in terrestrial species, particularly birds and plants, yet far fewer evaluations have been conducted for marine animals. This project sought to improve our understanding of shifts in the timing of seasonal migration, spawning or breeding, and biological development (i.e. life stages present, dominant) of coastal fishes and migratory...
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Vernal pools are small, seasonal wetlands that provide critically important seasonal habitat for many amphibian species of conservation concern. Natural resource managers and scientists in the Northeast, as well as the Northeast Refugia Research Coalition, coordinated by the Northeast CSC, recently identified vernal pools as a priority ecosystem to study, and recent revisions to State Wildlife Action Plans highlighted climate change and disease as primary threats to key vernal pool ecosystems. Mapping out the hydrology of vernal pools across the Northeast is an important step in informing land management and conservation decision-making. Project researchers modeled the hydrology of roughly 450 vernal pools from...
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The smallmouth bass (SMB) is a widespread species with a distribution that extends throughout the eastern and central U.S., in addition to introduced populations in other regions. From a management perspective, the SMB is important both as a popular sport fish and as a threat to native species where it is present outside of its natural range. Understanding the population-level responses of this species to environmental change is thus a priority for fisheries resource managers. This project aimed to explicitly model the impacts of projected climate and land use change on the growth, population dynamics, and distribution of stream-dwelling SMB in the U.S. Impacts on growth and demographic variables were modeled using...
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A hydrologic model was developed as part of the Southeast Regional Assessment Project using the Precipitation Runoff Modeling System (PRMS), a deterministic, distributed-parameter, process-based system that simulates the effects of precipitation, temperature, and land use on basin hydrology. Streamflow and other components of the hydrologic cycle simulated by PRMS were used to inform other types of simulations such as water-temperature, hydrodynamic, and ecosystem-dynamics simulations.
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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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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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Fruit-producing shrubs such as huckleberries, salal, and hazelnut are an important component of social history and traditional tribal diets in the Pacific Northwest. The fruits of these shrubs are also an important food source for foraging wildlife and pollinators, and serve as the basis for both non-tribal harvesting and small-scale commercial operations. Among land managers and tribes, there is a strong interest in preserving and restoring these culturally important plant species across the Pacific Northwest. However, limited knowledge is available on the current ranges of shrub species, or how climate change will impact future ranges or the timing of flowering and fruiting for key Northwest shrub species. ...
map background search result map search result map Development of the Geo Data Portal to Make Climate Projections and Scientific Data More Accessible to Users Projected Climate Change Impacts on Stream Dwelling Smallmouth Bass Populations in the U.S. (Local Assessment) Projecting the Future Distribution and Flow of Water in Alaskan Coastal Forest Watersheds Changes in Forested Landscapes of the Northeastern U.S. Under Future Climate Scenarios Projections of Future Coral Reef Communities in DOI-Managed Coastal Areas in the Hawaiian Islands Assessing the Drivers of Water Availability for Historic and Future Conditions in the South Central U.S. Developing an Agroforestry Dashboard for the Marshall Islands Implications of Future Shifts in Migration, Spawning, and Other Life Events of Coastal Fish and Wildlife Species Supporting Students and Early Career Researchers in the Development of Science to Inform Adaptation Management Decisions SERAP: Modeling of Hydrologic Systems Collecting Elevation Data to Understand Climate Change Effects in the Marshall Islands Climate Impacts on the Locations and Availability of Traditional Food Sources from Native Northwestern Shrubs Mapping Climate Change Resistant Vernal Pools in the Northeastern U.S. Testing the Impacts of Sun Exposure and Impervious Surfaces on the Accuracy of Temperature Sensors Identifying Historical Drivers of Vegetation Change to Inform Future Management of Federal Lands in the Northern Great Basin Identifying the Risk of Runoff and Erosion in Hawaiʻi’s National Parks Evaluating Ecosystem-Based Adaptation Options for Coastal Resilience Connecting Ecosystems from Mountains to the Sea in a Changing Climate An Ecosystem Services Approach to Climate Adaptation Research Improving Support for Regional Conservation Efforts in the Region Managed by the Southeastern Association of Fish and Wildlife Agencies Testing the Impacts of Sun Exposure and Impervious Surfaces on the Accuracy of Temperature Sensors Collecting Elevation Data to Understand Climate Change Effects in the Marshall Islands Identifying Historical Drivers of Vegetation Change to Inform Future Management of Federal Lands in the Northern Great Basin SERAP: Modeling of Hydrologic Systems Projections of Future Coral Reef Communities in DOI-Managed Coastal Areas in the Hawaiian Islands Projected Climate Change Impacts on Stream Dwelling Smallmouth Bass Populations in the U.S. (Local Assessment) Implications of Future Shifts in Migration, Spawning, and Other Life Events of Coastal Fish and Wildlife Species Developing an Agroforestry Dashboard for the Marshall Islands Climate Impacts on the Locations and Availability of Traditional Food Sources from Native Northwestern Shrubs Projecting the Future Distribution and Flow of Water in Alaskan Coastal Forest Watersheds Changes in Forested Landscapes of the Northeastern U.S. Under Future Climate Scenarios Mapping Climate Change Resistant Vernal Pools in the Northeastern U.S. Identifying the Risk of Runoff and Erosion in Hawaiʻi’s National Parks Assessing the Drivers of Water Availability for Historic and Future Conditions in the South Central U.S. Supporting Students and Early Career Researchers in the Development of Science to Inform Adaptation Management Decisions Improving Support for Regional Conservation Efforts in the Region Managed by the Southeastern Association of Fish and Wildlife Agencies Development of the Geo Data Portal to Make Climate Projections and Scientific Data More Accessible to Users Connecting Ecosystems from Mountains to the Sea in a Changing Climate An Ecosystem Services Approach to Climate Adaptation Research Evaluating Ecosystem-Based Adaptation Options for Coastal Resilience