Measuring Community Resilience to Natural Hazards: The Natural Hazard Resilience Screening Index (NaHRSI)-Development and Application to the United States

Overview

Journal Geohealth

Date 2020 Mar 12

PMID 32159008

Citations 9

Authors

J Kevin Summers

Linda C Harwell

Lisa M Smith

Kyle D Buck

Affiliations

Soon will be listed here.

Abstract

Natural disasters often impose significant and long-lasting stress on financial, social, and ecological systems. From Atlantic hurricanes to Midwest tornadoes to Western wildfires, no corner of the United States is immune from the threat of a devastating natural hazard event. Across the nation, there is a recognition that the benefits of creating environments resilient to adverse natural hazard events help promote and sustain county and community success over time. The challenge for communities is in finding ways to balance the need to preserve the socioecological systems on which they depend in the face of constantly changing natural hazard threats. The Natural Hazard Resilience Screening Index (NaHRSI; previously entitled Climate Resilience Screening Index) has been developed as an endpoint for characterizing county resilience outcomes that are based on risk profiles and responsive to changes in governance, societal, built, and natural system characteristics. The NaHRSI framework serves as a conceptual roadmap showing how natural hazard events impact resilience after factoring in county characteristics. By evaluating the factors that influence vulnerability and recoverability, an estimation of resilience can quantify how changes in these characteristics will impact resilience given specific hazard profiles. Ultimately, this knowledge will help communities identify potential areas to target for increasing resilience to natural hazard events.

Citing Articles

Linking coastal environmental and health observations for human wellbeing.

Sandifer P Front Public Health. 2023; 11:1202118.

PMID: 37780424 PMC: 10540068. DOI: 10.3389/fpubh.2023.1202118.

Using Re-scaled Resilience Screening Index Results and Location Quotients for Socio-Ecological Characterizations in U.S. Coastal Regions.

Smith L, Harwell L, Summers J, Bousquin J, Buck K, Harvey J Front Environ Sci. 2023; 7:1-16.

PMID: 36590988 PMC: 9801489. DOI: 10.3389/fenvs.2019.00096.

Observational Verification of the Cumulative Resilience Screening Index (CRSI) Using Hurricanes, Inland Floods, and Wildfires From 2016 to 2019.

Summers J, Lamper A, McMillion C, Harwell L Geohealth. 2022; 6(10):e2022GH000660.

PMID: 36267340 PMC: 9578261. DOI: 10.1029/2022GH000660.

Observed Changes in the Frequency, Intensity, and Spatial Patterns of Nine Natural Hazards in the United States from 2000 to 2019.

Summers J, Lamper A, McMillion C, Harwell L Sustainability. 2022; 14(7):1-23.

PMID: 36090804 PMC: 9461684. DOI: 10.3390/su14074158.

Gulf of Mexico Coastal County Resilience to Natural Hazards.

Summers K, Harwell L, Lamper A, McMillion C, Buck K, Smith L Gulf Caribb Res. 2021; 32(1):67-78.

PMID: 34955685 PMC: 8693985. DOI: 10.18785/gcr.3201.10.

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