This article, which appeared in Science of The Total Environment, describes a study assessing the extent and causes of potential fecal contamination in the frequently-visited Rachel Carson Reserve, NC.
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A repository of data, publications, tools, and other products from project teams, Science Collaborative program, and partners.
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This is a PhD dissertation written by Adam Gold, an advisee of Rachel Noble. Elements of this research was conducted as part of a 2016 - 2020 collaborative research project about stormwater impacts in Beaufort, North Carolina.
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This is a PhD dissertation written by Matthew Price, an advisee of Rachel Noble. Elements of this research was conducted as part of a 2016 - 2020 collaborative research project about stormwater impacts in Beaufort, North Carolina.
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These datasets are from an intensive field sampling in and adjacent to aquaculture operations in North Carolina, concentrating on wild shellfish resources and the physical and chemical environment, to assess ecosystem services and potential impacts of the oyster farms.
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This slide deck summarizes findings from a collaborative research that looked at the ecological impacts and ecosystem service benefits of oyster farms in North Carolina.
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This resource contains the webinar recording as well as the presenter slides and Q&A responses from the September 2020 webinar Dams and Sediment in the Hudson.
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This project overview describes the Dams and Sediment in the Hudson collaborative research project that assessed how sediment released by dam removals would affect the Hudson River estuary and provide practical tools to regulators and practitioners.
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This resource contains the presenter slides, Q&A responses, recording, and presenter bios from the July 2020 webinar Innovative Approaches to Integrating Research and K-12 Education to Advance Estuary Stewardship.
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This open-access article, published Geophysical Research Letters in 2020, uses turbidity observations to characterize estuary response following extreme discharge such as from storm-related flooding, which can be a proxy for sediment release from dam removals.
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This article, submitted for publication to Earth Surface Processes and Landforms in 2020, describes findings from the Dams and Sediment in the Hudson (DaSH) project related to tidal wetland growth in the Hudson River estuary as a result of human activities. It presents sediment accumulation rates in marshes along the Hudson and reveals the rapid growth of marshes associated with anthropogenic structures.