Cumulative building exposure to extreme sea level flooding in coastal urban areas

Author: Ryan Paulik, Scott Stephens, Alec Wild, Sanjay Wadhwa, Rob G. Bell
Year: 2021
Journal / Source: International Journal of Disaster Risk Reduction
Volume: 66
Pages: 102612 (8 pp)
Summary: Global sea-level rise (SLR) is expected to increase the frequency of extreme sea level (ESL) flooding. Flood mitigation strategies often focus on reducing built-asset exposure to relatively infrequent but high magnitude ESL events, though frequent lower magnitude events in response to SLR could accumulate to be more costly for urban areas. We analyse this phenomenon for twenty major coastal urban areas in New Zealand by quantifying average annual building replacement value (AAERV) exposure within 1–10, 10–50 and 50–100-year ESL average recurrence interval (ARI) ranges, and for SLR of up to 2 m above present-day mean sea-level. We found that relatively smaller but more-frequent ESL flooding events in the 1–10-year ARI range contributed more than 80% of total building AAERV, for half of the urban areas in response to 0.3 m SLR, and nearly all urban areas after 1 m SLR. A Cumulative Hazard Index (CHI) showed positive CHI values in all but one urban area after 0.6 m SLR, indicating building exposure to ESL flooding is primarily driven more-frequent events, rather than larger but less-frequent events, as sea-levels rise. With projected sea-levels in the New Zealand region anticipated to reach 0.3 m in the next ~25–50 years, this signals an urgent need for investigating future built-asset impacts from ESL flooding events.

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Coastal Restoration Trust of New Zealand

Coastal Dune Ecosystem Reference Database

Cumulative building exposure to extreme sea level flooding in coastal urban areas