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 rack card was created by a 2016 Science Transfer team in Texas to provide the public with information about wetland ecosystem services and to introduce the concept of natural capital.
This document summarizes a December 2017 workshop hosted by Mission-Aransas Reserve that explored ways to generate a return on investment from wetland preservation and restoration projects in Texas.
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.
These presentations were delivered at the Capitalizing on Coastal Blue Carbon conference in 2015, hosted by the Waquoit Bay Reserve to discuss the outcomes of their 2011 Collaborative Research project and implications for wetland conservation in New England and beyond.
These slideshows, originally presented at a 2013 symposium hosted by Waquoit Bay Reserve, explore the different ways that salt marsh ecosystems are valued in the Northeast, with an emphasis on carbon and nitrogen cycling in salt marshes and economic valuation of ecosystem services.
This document outlines procedures to use the Methodology for Tidal Wetland and Seagrass Restoration, approved by the Verified Carbon Standard, to estimate net greenhouse gas emission reductions and removals resulting from restoration of coastal wetlands.
This document helps guide coastal and land managers in understanding the ways by which coastal blue carbon can help achieve coastal management goals.
This four-part video series gives an overview of the 2011 Collaborative Research project, "Bringing Wetlands to Market," discussing the project's field research, collaborative processes, and tools developed.
This high school STEM curriculum module related to the 2011 "Bringing Wetlands to Market in Massachusetts" project examines the relationship between salt marshes, climate change, nitrogen pollution, and the economic value of salt marshes as carbon sinks.
These risk assessments detail how climate could change in four New England municipalities over the 21st century, outlining each town's key climate change risks and potential adaptation options to address these risks. These assessments were produced as part of a 2012 Collaborative Research project.
These case studies summarize findings from a 2012 Collaborative Research project studying climate change adaptation and risks in four New England communities.
These stakeholder assessments capture opinions about climate change and adaptation held by diverse stakeholders in four New England municipalities as part of a 2012 Collaborative Research project.
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.
This model is a power-law based model developed by using data for four different wetlands in Waquoit Bay and Great Pond estuaries, MA. It was developed as part of a 2011 Collaborative Research project, "Bringing Wetlands to Market in Massachusetts."
This factsheet describes a 2011 Collaborative Research project that examined the relationship between salt marshes, climate change, and nitrogen pollution and developed tools to leverage the “blue carbon” stored in wetlands to achieve broader management goals.