This factsheet summarizes findings from the Dams and Sediment in the Hudson collaborative research project related to tidal wetlands in the Hudson River estuary.

The Eastern oyster (Crassostrea virginica) is a keystone species in northeast Florida estuaries, but the region faces multiple threats to the long-term viability of oyster populations.

This article, published in Frontiers in Ecology and the Environment in 2018, synthesizes oyster restoration projects since 1964 on the US Atlantic and Gulf coasts and suggests a restoration paradigm to prioritize investment in sites that maximize economic and ecological benefits and minimize construction costs.

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.

This factsheet discusses the potential for gabion-breaks and other living shorelines to dissipate boat wakes and protect shorelines.

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.

Three related datasets were generated by the 2015 - 2019 collaborative research project Evaluating Living Shorelines to Inform Regulatory Decision-Making in South Carolina.

This video describes a 2015 Collaborative Research project at the Guana Tolomato Matanzas Reserve where researchers installed a new living shoreline design to protect shorelines from boat wakes.

This report summarizes the findings of a 2016 Science Transfer project that assessed the vulnerabilities of intertidal marsh sites in North and South Carolina.

This article, published in Sustainability in 2018, characterizes the boat wake climate in Florida's Intracoastal Waterway, assesses the area's bathymetry, and anticipates the effects of experimental living shorelines (natural breakwall and oyster restoration structures) on facilitating sediment deposition and slowing vegetation retreat.