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 thesis represents the first study to examine a full individual energy budget for the triploid Eastern oyster, Crassostrea virginica, with implications for shellfish aquaculture in the southeastern United States.

This guide outlines a structured process to engage experts and develop timely, science-based solutions to environmental problems. The FAST process provides an iterative, weight-of-evidence approach for these experts to reach general agreement around technical recommendations.

This technical memo presents guidelines for calculating the pollutant removal rate of restored or constructed buffers established on shorelines with different soils, slopes and buffer widths. This tool can help New England communities use buffers to meet water quality standards and fulfill stormwater permitting requirements.

This is a Senior Honors Thesis written by Kinsey Fischer, an advisee of Rachel Noble. This study was conducted as part of a 2016 - 2020 collaborative research project about stormwater impacts in Beaufort, North Carolina.

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 tool is a novel approach to compare the resilience of different marshes to sea level rise.

These process agendas provide a better understanding of how the CCVATCH tool may be applied over the course of one or multiple days by an assessment team.

This thesis, written as part of a 2016 Collaborative Research project, describes a quantitative microbial assessment of stormwater in Beaufort, North Carolina.