Jobos Bay - Photo credit: NOAA
This article, published in Stormwater Magazine in September 2020, describes how an expert panel process helped develop performance curves to assign regulatory credit for restored or constructed buffers as water quality best management practices.
This document summarizes key lessons that emerged during the July 2020 panel webinar Innovative Approaches to Integrating Research and K-12 Education to Advance Estuary Stewardship. In addition to providing a record of the Q&A, this document also contains short descriptions of some education efforts across the reserve system and ideas for expanding the reach of education in new and existing projects.
These American Sign Language video modules address Watersheds, Water Quality, Water Quality Monitoring, Estuary Values, and Sea Level Rise, teaching important concepts as well as new scientific vocabulary in sign language.
This resource contains the presenter slides, Q&A responses, recording, and presenter bios from the June 2020 webinar Credit for Going Green: Using an Expert Panel Process to Quantify the Benefits of Buffers.
This paper, published in Agricultural and Resource Economics Review, stemmed from work completed as part of the Buffer Options for the Bay project in Great Bay, NH.
These video modules introduce the conceputs and vocabulary of estuary ecology using American Sign Language. Five videos are available for the following topics: Watersheds, Water Quality, Water Quality Monitoring, Estuary Values, and Sea Level Rise.
The Credit for Going Green project team developed a toolkit to help partners share project results within their organizations and throughout their professional networks. These resources can be used to develop presentations, web content, newsletter articles, or social media posts about the project.
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.
In this video, three different methods for growing oysters are compared to help towns select the most cost-effective and environmentally-responsible strategy for restoring water quality along their coastline.
These case studies highlight towns in coastal New Hampshire that used low impact development and green infrastructure strategies to reduce stormwater runoff and adapt to climate change.
This document outlines the strategy developed by a 2012 Collaborative Research project team to achieve a complete community approach for mitigating the negative effects associated with increasing impervious cover and stormwater runoff in coastal New Hampshire.
This fact sheet describes the advantages of incorporating climate change projections into the design of stormwater management systems and discusses the benefits of using green infrastructure and low impact development to adapt to climate change.
This project overview describes a 2012 Collaborative Research project in which Great Bay Reserve and other partners helped New Hampshire communities adopt green infrastructure techniques to more effectively manage stormwater.
This project overview describes a 2012 Collaborative Research project that created an innovative, watershed-wide plan for stormwater and wastewater management in coastal New Hampshire.
This project overview describes a 2017 Collaborative Research project that explores how oyster aquaculture practices may be used to remediate water quality in Cape Cod, Massachusetts.
This project overview describes a 2018 Science Transfer project where three Northeast reserves are collaborating to develop consensus-based recommendations for pollutant load reduction performance curves to help New Hampshire communities use buffers to meet in-stream pollution reduction targets.
This project overview describes a 2010 Collaborative Research project that investigated nitrogen hotspots in New Hampshire's Great Bay.
This graphic was developed as part of a research project in Cape Cod exploring how much nitrogen is removed from coastal waters by common oyster aquaculture methods, and what culturing practices should be adopted to maximize benefits for water quality.
This Plan is intended to serve as a guide for the towns of Exeter, Stratham and Newfields to support nitrogen load reduction, permit compliance, and ultimately ecosystem recovery in the Great Bay estuary which could fulfill permit requirements for a Nitrogen Control Plan.