This advisory committee charter, developed for a National Estuarine Research Reserve project to evaluate a thin-layer placement as a strategy for marsh resilience, offers an example for engaging diverse end users in collaborative research.

This project overview describes a 2015 Collaborative Research project where Waquoit Bay Reserve is working with end users to test the applicability of a previously-developed model to accurately predict greenhouse gas fluxes across a wide range of coastal wetlands.

This stakeholder engagement plan outlines an approach to strengthen stakeholder networks and advance blue carbon conversations in the Kenai Lowlands, Alaska.

This document provides guidance on the use of thin-layer sediment placement (TLP) as a tool for tidal marsh resilience in the face of sea-level rise.

This logic model describes research objectives for a project to assess the potential for blue carbon in the Kenai Lowlands, Alaska.

This user-friendly tool predicts greenhouse gas fluxes and potential carbon storage in coastal wetlands in the northeastern United States. It was developed as part of the Bringing Wetlands to Market project.

This document summarizes a December 2017 workshop hosted by Mission-Aransas Reserve that explored ways to generate a return on investment from wetland preservation and restoration projects in Texas.

This project overview describes a 2011 Collaborative Research project that examined the relationship between salt marshes, climate change, and nitrogen pollution and developed tools to leverage the “blue carbon ” stored in wetlands to achieve broader management goals.

This project overview describes a 2017 Collaborative Research project that tested the effectiveness of thin-layer sediment placement as a marsh adaptation strategy.

This project overview describes a 2017-2020 Collaborative Research project that involved scientists and end users in Cape Cod, Massachusetts working together to develop decision-support tools for hydrological management strategies that promote sustainability and delivery of valuable ecosystem services under future sea level rise scenarios.