This paper, published in Biological Conservation, describes an innovative approach developed by the NERRS to evaluate the ability of tidal marshes to thrive as sea levels rise.
Resources
Resources
A repository of data, publications, tools, and other products from project teams, Science Collaborative program, and partners.
Displaying 31 - 40 of 43See Keywords and Reserves
This tool is a novel approach to compare the resilience of different marshes to sea level rise.
See Keywords and Reserves
This code (R and MATLAB) can be used to analyze NERRS System-Wide Monitoring Program time series data.
See Keywords and Reserves
This infographic was developed by the Buffer Options for the Bay project and depicts the minimum recommended buffer widths for various buffer functions.
See Keywords and Reserves
The health of the Great Bay Estuary is strongly influenced by stressors from across the watershed. Seven rivers flow into the estuary, which is recessed 15 miles from the Atlantic Ocean.
See Keywords and Reserves
The Buffer Options for the Bay website integrates the key findings of Great Bay Reserve's 2015 Integrated Assessment project and is designed to help agencies, non-profits, and communities working on buffers in New Hampshire.
See Keywords and Reserves
This project overview describes a 2015 Integrated Assessment project that sought to answer the following question: What are the options for addressing the challenges to effectively protect and restore buffer zones around New Hampshire's Great Bay?
See Keywords and Reserves
This project overview describes a 2015 Science Transfer project where the Northeast reserves developed and offered a series of teacher workshops focused on the story of climate change impacts on coastal habitats.
See Keywords and Reserves
This project overview describes a 2015 Science Transfer project that produced tools, graphical support, and training for research staff at the Mid-Atlantic reserves to better utilize reserve monitoring data.
See Keywords and Reserves
This project overview describes a 2018 Catalyst project led by the University of New Hampshire that is synthesizing salt marsh vegetation and elevation data to improve coastal wetland management in New England.