The collaborative research project, Re-engineering Living Shorelines for High-Energy Coastal Environments, produced four datasets as part of their assessment of living shoreline installations at GTM Reserve in Florida.
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Resources
A repository of data, publications, tools, and other products from project teams, Science Collaborative program, and partners.
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In collaboration with several local partners, Old Woman Creek National Estuarine Research Reserve conducted a study aimed at understanding different wetlands' long-term capacity for removing nutrients. Together, they produced this story map that demonstrates the importance of wetland services, explains different types of wetlands and management priorities, and summarizes how the team estimated the long-term phosphorus retention capacities of a variety of wetland types based on samples collected from sites in Ohio, including the Lake Erie watershed.
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This factsheet discusses the potential for gabion-breaks and other living shorelines to dissipate boat wakes and protect shorelines.
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This report summarizes key findings from a 2019 workshop in New York that examined the potential ecological and physical impacts of constructing a surge barrier to protect the New York/New Jersey Harbor.
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This slide deck summarizes findings from a catalyst project that modeling oyster population dynamics at GTM Reserve, Florida.
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This resource contains the presenter slides, Q&A responses, recording, and presenter bios from the October 2019 webinar Evaluating the Impact of Hydrologic Alterations on Salt Marsh Sustainability in a Changing Climate.
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The joint probability method (JPM) is the traditional way to determine the base flood elevation due to storm surge, and it usually requires simulation of st
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This resource contains the presenter slides, Q&A responses, recording, and presenter bios from the September 2019 webinar Accelerating Collective Learning and Action for Enhanced Climate Resilience.
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This Master's thesis examines sediment accumulation in two disparate coastal environments, including the Hudson River Reserve, as part of a larger research project about marsh formation and resilience, sediment movement, and the potential impact of dam removals.