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Current stormwater management infrastructure and strategies in the northeastern US are built around historical weather data and not the weather that is expected with climate change, like more frequent extreme rainfall. This matters because stormwater can introduce pollution to streams and can cause flooding. Researchers supported by this Northeast CASC project will combine climate data, stormwater models, and data about urban streams to provide actionable information for managers to identify effective adaptation strategies for stormwater to protect lake and stream ecosystems in the northeastern US. Stormwater, or rainfall that lands on rooftops and pavement and quickly drains away, transports pollution like excess...
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The Hemlock Woolly Adelgid (HWA) is an insect causing extensive hemlock tree die-offs in the northeast, and a lack of information on climate adaptation practices is hindering effective forest management. With the overall goal of fostering resilient forests that support northeastern hemlock ecosystems and wildlife, researchers supported by this Northeast-CASC project will work with land managers to identify information gaps and to develop management plans and a decision support tool tailored to the specific ecological, economic, and cultural management goals of different forests. The Hemlock Woolly Adelgid (HWA) is an invasive insect that has caused extensive hemlock death from Georgia to Maine in many of the densest...
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Much of the cranberry bog farmland in Massachusetts used to be Atlantic white cedar ecosystems, which provide important habitat, water filtration, and cooling effects on the landscape. Researchers supported by this Northeast CASC project will experiment with modern restoration strategies and integrate Indigenous cultural stewardship practices to build and sustain climate-resilient Atlantic white cedar wetland forests. The project will result in new knowledge and practical guidance for effective restoration and sustainable management of these ecosystems as retired cranberry bogs continue to be converted back into their original state. Atlantic white cedar (AWC) ecosystems naturally filter and store water, cool the...
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As the climate continues to change, vulnerable wildlife species will need specific management strategies to help them adapt to these changes. One specific management strategy is based on the idea that some locations that species inhabit today will remain suitable over time and should be protected. The climate conditions at those locations will continue to be good enough for species to survive and breed successfully and are referred to as climate refugia. Another management strategy is based on the idea that species will need to shift across the landscape to track suitable conditions and reach climate refugia locations as climate and land uses change over time. The more opportunities we can give species to safely...
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Infrastructure development and climate change pose significant threats to migratory bird populations by altering their distributions and habitat. This Northeast CASC-supported research team will use citizen-science and structured monitoring data to identify current and future areas that are important for migratory bird species across the Northeastern US. Researchers will produce high-resolution forecasts of species’ distributions and publish protocols to help the US Fish and Wildlife Service and other institutions, make informed decisions to minimize negative impacts of infrastructure development on bird populations. Infrastructure development projects, including renewable energy projects, can negatively affect...
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Rising sea levels and frequent intense storms are rapidly changing Northeastern US coastal landscapes and threatening the vital ecosystem services they provide. Researchers supported by this Northeast CASC project will use landscape models, co-developed with coastal managers and tribal managers, to predict expected coastal changes for different environments (e.g., beaches, wetlands, rocky headlands) across the region and a range of future scenarios and timescales. Along with usable model output, the project will provide other tools and training opportunities to decision-makers to inform management priorities of coastal regions. Rising sea levels and more frequent high-intensity storms are rapidly changing the coastal...


    map background search result map search result map Mapping Connections across Ecosystems in the Northeast to Inform Climate Refugia Forecasting Changes in Avian Biodiversity Under Changing Climate Restoring Climate-Resilient Atlantic White Cedar Wetland Forests in the Northeast: Lessons from Culture and Science Designing Climate-Resilient Stormwater Management in Northeastern US Cities to Support Stream Ecosystems Restoring Climate-Resilient Atlantic White Cedar Wetland Forests in the Northeast: Lessons from Culture and Science Designing Climate-Resilient Stormwater Management in Northeastern US Cities to Support Stream Ecosystems Mapping Connections across Ecosystems in the Northeast to Inform Climate Refugia Forecasting Changes in Avian Biodiversity Under Changing Climate