Jobos Bay - Photo credit: NOAA
This document is a comprehensive post-webinar report that includes a summary of the panel discussion, records of the Q&A session and comments submitted by attendees about next steps for climate resilience, the results of audience polls administered during the webinar, an account of who attended the webinar, and a list of participants who opted to list their contact information to foster connections among climate adaptation and resilience practitioners and researchers.
This management brief, prepared by Science Collaborative Staff, is the final version of the document incorporating content from the September 9, 2019 panel webinar on Climate Adaptation and Resilience.
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.
This report summarizes the findings of a 2016 Science Transfer project that assessed the vulnerabilities of intertidal marsh sites in North and South Carolina.
This factsheet describes a 2018 Catalyst project that is enabling five reserves that have been participating in the Successful Adaptation Indicators and Metrics project to refine and share lessons and resources they've developed with the full Reserve System.
This webinar, which originally aired on December 12, 2013, discusses the Tijuana River Reserve's collaborative efforts to develop a vulnerability assessment that informs an adaptation strategy to address sea level rise and riverine flooding.
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."
These resources contain information about stakeholder workshops hosted by the 2012 Collaborative Research project team, "Advancing Low Impact Development in Coastal South Carolina." These resources include meeting agendas, presentations, meeting notes, and other materials.
This spreadsheet was developed by a 2012 Collaborative Research team to help property owners in coastal South Carolina calculate rules for stormwater treatment and runoff reductions from their sites based on statewide rules and regulations.
This spreadsheet was designed by a 2012 Collaborative Research team to help property owners and designers properly size rainwater harvesting systems.
This spreadsheet is a useful tool for maintaining various types of green infrastructure, including permeable pavement, green roofs, and rainwater harvesting systems.
This document provides guidance to those wishing to use the Climate Change Vulnerability Assessment Tool for Coastal Habitats ("CCVATCH") - a decision support tool which guides users through a series of questions to calculate numerical climate vulnerability scores for ecological habitats.
This guide removes barriers to low impact development implementation in South Carolina by providing engineering tools, planning guidance, and case study examples that are relevant to the South Carolina coastal zone.
This factsheet describes a 2012 Collaborative Research project that developed a decision-making framework and tools to guide coastal wetland recovery and management in Southern California.
This factsheet describes a 2013 Collaborative Research project that developed a protocol to accurately measure suspended sediment concentrations in tidal marshes, enhancing understanding of marsh accretion and informing marsh conservation and restoration.
This factsheet describes a 2012 Collaborative Research project that worked to address barriers preventing communities in South Carolina from embracing low-impact development strategies.
This factsheet describes a 2013 Collaborative Research project that refined and piloted the Climate Change Vulnerability Assessment Tool for Coastal Habitats ("CCVATCH").
This document summarizes a tool developed by the NERRS to evaluate and compare the ability of tidal marshes to thrive as sea level rises.