Southeast

Historically, studies about climate hazards and social vulnerability have been conducted in separate silos. The Social Vulnerability Index (SoVI) is the first study of its kind to examine both the potential impact of natural hazards and which populations are most likely to be negatively affected. The application of SoVI to climate change-related hazards was developed by Dr. Susan Cutter and Dr. Christopher Emrich at the Hazards and Vulnerability Research Institute at the University of South Carolina.

Oxfam America, in their work to shed light on the vulnerability of the geography and people of the U.S. Southeast, commissioned two reports from the Hazards and Vulnerability Research Institute at the University of South Carolina. The first one covers the entire 13-state region, while the second one contains much more detail about Louisiana and Mississippi. This document provides a brief overview of the findings, the concepts, and the methodology. The aim of these materials is to be useful tools to people in coastal communities, and to decision makers shaping policies in the region.

Thin-layer placement (TLP), an emergent adaptation strategy that mimics natural sediment deposition processes, is one of the only viable options to protect tidal marshes from sea level rise in their current footprint. To improve the success of thin-layer placement projects, a collaborative research team at Narragansett Bay and Elkhorn Slough led coordinated restoration experiments at eight National Estuarine Research Reserves on the U.S. East and West coasts to test TLP across diverse marsh plant communities, and produced guidance and recommendations for TLP use.

To plan for future sea level rise, Miami-Dade County relies on the 2019 Unified Sea Level Rise Projection for Southeast Florida developed by the Southeast Florida Regional Climate Change Compact. These projections are revised every five years to ensure they reflect the best available science. Based on these consensus projections, they expect sea levels to be approximately two feet higher 40 years from 2019 levels and continue rising beyond that.

Each region of the United States experiences climate change and its impacts on health differently, due to the regions’ location-specific climate exposures and unique societal and demographic characteristics. This document describes the various health impacts climate change will have on different regions of the United States as outlined in the Fourth National Climate Assessment (NCA4), actions taken by the CDC Climate and Health Program’s health department partners to prepare for and respond to climate change in their communities, and relevant tools and resources.

Climate migration—the preemptive movement of people and property away from areas experiencing severe impacts—is one way to improve climate resilience.

This report is a scientific assessment of historical climate trends and potential future climate change in North Carolina under increased greenhouse gas concentrations. The report includes an overview of the physical science of climate change, detailed information on observed and projected changes in temperature and precipitation averages and extremes, hurricanes and other storms, sea level, and other relevant climate metrics. Findings are presented for both the state as a whole and for each of three regions in the state: the Coastal Plain, the Piedmont, and the Western Mountains.

Shorelines with high boat wake and wave energy face especially rapid erosion and habitat loss. A new living shoreline design from researchers at the University of Florida and the Guana Tolomato Matanzas Reserve that uses gabion-breaks has proven successful in high-energy environments. The gabion-break design uses two lines of defense to reduce erosion along the marsh edge—porous wooden breakwalls placed in front of structures that will foster oyster growth.