Jobos Bay - Photo credit: NOAA
This geodatabase contains a shoreline inventory for the tidal Hudson River shoreline from the Tappan Zee Bridge north to Troy, New York.
This article provides a comprehensive summary of what is known about the ecological functioning of the shore zone in freshwater ecosystems.
This project overview describes a 2010 Collaborative Research project in which the Wells Reserve and a diverse team of stakeholders collaborated to better understand, measure, and communicate how southern Mainers value natural buffers.
This article, published as part of the Hudson River Sustainable Shorelines project in 2012, reports on an effort to document the biodiversity supported by different kinds of shore zones in the Hudson River Estuary.
https://doi.org/10.1175/JPO-D-11-063.1This article, published in the Journal of Physical Oceanography in 2012, reports on an analysis of ice on tidal hydrodynamics in the Hudson River Estuary.
This article, published in Hydrobiologia in 2014, reports on research into the ecology of wrack (organic matter that is washed onto shore) on different types of Hudson River shorelines (natural and engineered) as part of a 2010 Collaborative Research project.
This article, produced as part of the Hudson River Sustainable Shorelines project, is a comprehensive analysis of the abundance and composition of vegetation living in riprap revetments on Hudson River shorelines.
This series of case studies highlights ecologically-enhanced shoreline projects owned and designed by a variety of organizations in the Hudson River estuary.
This handbook, the result of a 2010 Collaborative Research project, offers suggestions for practical ways that landowners and land managers can protect shore zones and increase the benefits they provide.
This project overview describes a 2010 Collaborative Research project that advanced understanding of the economic, ecological, and engineering tradeoffs associated with different shoreline management options on New York's Hudson River.
This article, which appeared in Global Change Biology, discusses findings from a study that quantified total ecosystem carbon stocks of major tidal wetland types in the Pacific Northwest.
This 2014 article, published in Environmental Management, examines three competitively funded project case studies to determine what funders can and should do to better link science with decisions.
This video discusses a 2010 Collaborative Research project led by Kachemak Bay Reserve that addressed a land-level change question that was shaped by the local community.
This video describes how the Kachemak Bay Reserve integrated a diverse group of stakeholders into their 2010 Collaborative Research project, which established a monitoring program to assess changes in land and sea levels in the coastal landscape.
This video describes how the Kachemak Bay Reserve engaged its local community in coastal habitat monitoring during their 2010 Collaborative Research project.
This project overview describes a 2010 Collaborative Research project that assessed changes in land and sea level and monitored the impacts of climate change on Kachemak Bay's biological communities.
This article, published in Estuaries and Coasts in 2013, describes three case studies involving new tools and science to help land use planners better protect coastal resources.
This chapter appears in the 2011 publication Restoring Lands - Coordinating Science, Politics and Action. The purpose of the chapter is to discuss, in detail, the mechanisms for making connections between science and action, with an eye toward lessons learned.
This 2011 journal article, published in Coastal Management, analyzed survey, interview, and progress report data to determine if and why the science generated by funded projects was being applied to mitigate coastal management issues.