Creeping disaster along the U.S. coastline: Understanding exposure to sea level rise and hurri-canes through historical development
Anna Braswell,
Stefan Leyk,
Dylan Connor and
Johannes Uhl
No j4k3e, OSF Preprints from Center for Open Science
Abstract:
Current estimates of U.S. property at risk of coastal hazards and sea level rise (SLR) are stag-gering, evaluated at over a trillion U.S. dollars. Despite being enormous in the aggregate, po-tential losses due to SLR depend on mitigation, adaptation, and exposure and are highly uneven in their distribution across coastal cities. We provide the first analysis of how changes in expo-sure (how and when) have unfolded over more than a century of coastal urban development in the United States. We do so by leveraging new historical settlement layers from the Historical Settlement Data Compilation for the U.S. (HISDAC-US) to examine building patterns within and between the SLR zones of the conterminous United States since the early twentieth century. Our analysis reveals that SLR zones developed faster and continue to have higher structure density than non-coastal, urban and inland areas, patterns which are particularly prominent in locations affected by hurricanes. However, density levels in historically less-developed coastal areas are now quickly converging on early-settled SLR zones, many of which have reached building saturation. These “saturation effects” suggest that adaptation polices targeting existing buildings and developed areas are likely to grow in importance relative to the protection of previously undeveloped land.
Date: 2021-07-01
New Economics Papers: this item is included in nep-env, nep-his and nep-ure
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Persistent link: https://EconPapers.repec.org/RePEc:osf:osfxxx:j4k3e
DOI: 10.31219/osf.io/j4k3e
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