Measuring Resilience to Natural Hazards: Towards Sustainable Hazard Mitigation

Author(s)

Shim, Jae; Kim, Chun Il

Abstract

Measuring resilience to natural hazards is a central issue in the hazard mitigation sciences. This paper applied a confirmatory factor methodology to operationalize the biophysical, built-environment, and socioeconomic resilience dimensions for local jurisdictions in large urban metropolitan areas in South Korea. Mapping the factor scores of the dimensions revealed great spatial variations. The factor covariances showed a trade-off relationship between natural infrastructure and human activities. A hierarchical cluster analysis was used to classify the localities into heterogeneous groups with respect to the identified resilience dimensions. Densely developed and affluent urban areas tend to lack biophysical resilience. Some local governments, sorted into the same groups, turn out to be located in different metropolitan areas. The spatial variation and inequality in the resilience dimensions suggest the necessity of integrated and flexible governance for sustainable hazard mitigation.

Date issued

2015-10

URI

http://hdl.handle.net/1721.1/100571

Department

Massachusetts Institute of Technology. Department of Urban Studies and Planning

Journal

Sustainability

Publisher

MDPI AG

Citation

Shim, Jae, and Chun-Il Kim. “Measuring Resilience to Natural Hazards: Towards Sustainable Hazard Mitigation.” Sustainability 7, no. 10 (October 20, 2015): 14153–14185.

Version: Final published version

ISSN

2071-1050