This article, submitted for publication to Earth Surface Processes and Landforms in 2020, describes findings from the Dams and Sediment in the Hudson (DaSH) project related to tidal wetland growth in the Hudson River estuary as a result of human activities. It presents sediment accumulation rates in marshes along the Hudson and reveals the rapid growth of marshes associated with anthropogenic structures.
Resources
Resources
A repository of data, publications, tools, and other products from project teams, Science Collaborative program, and partners.
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This factsheet summarizes findings from the Dams and Sediment in the Hudson (DaSH) collaborative research project.
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This factsheet summarizes findings from the Dams and Sediment in the Hudson (DaSH) collaborative research project related to sediment trapped behind dams and sediment supply in the Hudson River estuary
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This factsheet summarizes findings from the Dams and Sediment in the Hudson collaborative research project related to tidal wetlands in the Hudson River estuary.
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Using Meta-Analysis for Large-Scale Ecosystem Service Valuation: Progress, Prospects, and Challenges
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.
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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.
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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.
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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.
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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.
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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.