GUIDE CASE STUDY: Collaborative science projects are designed to inform and catalyze action, but often those impacts do not develop until after a grant ends. Two project teams working with New England reserves found different ways to support the work of their partners after their grants ended.
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Keywords: enhance collaboration
Reserves: Great Bay, NH, Narragansett Bay, RI, Waquoit Bay, MA, Wells, ME
As climate change and development threaten the natural and cultural resources of the Guana Peninsula, this 2021 collaborative research project used a combination of archaeological investigations and applied anthropological methods to increase understanding of how people past and present have used the resources to inform their future management.
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Keywords: archaeological sites, cultural ecosystem services, sea level rise
As climate change and development threaten the natural and cultural resources of the Guana Peninsula, this 2021 collaborative research project used a combination of archaeological investigations and applied anthropological methods to increase understanding of how people past and present have used the resources to inform their future management.
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Keywords: cultural ecosystem services, archaeological sites, sea level rise
This white paper, developed by a 2020 catalyst project, provides an overview of expanding and deepening the application of cultural ecosystem services in the National Estuarine Reserve System.
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Keywords: cultural ecosystem services, ecosystem services
This report summarizes five cultural ecosystem service assessment methods piloted by the 2020 catalyst project, Cultural Ecosystem Services in Estuary Stewardship and Management.
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Keywords: ecosystem services, cultural ecosystem services, assessment, methods, reserve exchange
This 2022 paper which appeared in Nature discusses a modeling approach to examine the marsh ’s buffering capacity in a changing climate (from 2020 to 2100), considering a potential marsh restoration plan (from 2020 to 2025) and potential marsh loss due to sea-level rise.
This 2021 paper from the University of South Florida discusses how machine learning was used to map aquifers throughout the Kenai Lowlands to locate groundwater discharge, providing a framework to extend this method of modeling groundwater to other reserves.
This 2021 article which appeared in Ecology and Society describes a research project exploring how alders, peatlands, and groundwater flows were incorporated into a spatial tool that was used in case studies with user groups and in outreach efforts. The paper includes evidence that these efforts to engage with stakeholders are resulting in attitudinal shifts as well as on-the-ground changes in peoples ’ decision-making.