This GitHub Repository houses the statistical code, a model interface and example datasets to enable others to calcuate the retention capacity of a wetland.
Resources
Resources
A repository of data, publications, tools, and other products from project teams, Science Collaborative program, and partners.
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This protocol is intended to enable wetland managers, conservationists, and other practitioners to monitor and estimate a wetland ’s long-term Total Phosphorus (TP) retention capacity threshold.
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This project video illustrates how role playing simulations were used to foster dialoge around climate change callenges and opportunities in South Carolina.
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This infographic illustrates the role wetlands can play in removing total phosphorus from the water and ultimately help improve water quality and reduce Harmful Algal Blooms in Lake Erie. The infographic describes how the researchers estimated long-term phosphorus retention capacity for different types of wetlands in Ohio and provides suggestions as to how different audiences might be able to contribute to this effort.
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In collaboration with several local partners, Old Woman Creek National Estuarine Research Reserve conducted a study aimed at understanding different wetlands' long-term capacity for removing nutrients. Together, they produced this story map that demonstrates the importance of wetland services, explains different types of wetlands and management priorities, and summarizes how the team estimated the long-term phosphorus retention capacities of a variety of wetland types based on samples collected from sites in Ohio, including the Lake Erie watershed.
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This report summarizes the results of a multi-year collaborative research project that evaluated a range of living shoreline projects in South Carolina. The results and guidance are intended to provide agency partners with the science-based information to create a regulatory pathway and develop project standards for living shorelines in South Carolina.
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This briefing document presents outcomes and findings from a science transfer project that developed and led role playing simulation exercises to help community leaders and stakeholders explore options for addressing flooding and other climate-related risks in South Carolina.
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This report summarizes the findings of a 2016 Science Transfer project that assessed the vulnerabilities of intertidal marsh sites in North and South Carolina.
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This story map describes a 2010 Collaborative Research project spearheaded by North Inlet-Winyah Bay Reserve that investigated how swashes collect, transform, and export the nutrients and organic matter that fuel hypoxia along coastal South Carolina.
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These resources are from workshops, focus groups, and surveys that a team from North Inlet-Winyah Bay and ACE Basin reserves used to scope their 2012 Collaborative Research project, "Advancing Low Impact Development in Coastal South Carolina."