Changes in Tsunami Risk to Residential Buildings at Omaha Beach, New Zealand Journal Paper
- Author
- Ryan Paulik, Emily Lane, Shaun Williams, William Power
- Year
- 2019
- Journal / Source
- Geosciences
- Publisher / Organisation
- MDPI
- Volume
- 9
- Number
- 113
- Month
- March
- Pages
- 17
- Keywords
- tsunami hazard; coastal development; building attributes; synthetic vulnerability functions; direct economic losses; spatio-temporal risk changes
- Summary
- Coastal settlements worldwide have suffered significant damage and loss to tsunami hazards in the last few decades. This period coincides with socio-economic changes that have heightened spatio-temporal risk through increased coastal development and infrastructure. In this study, we apply a spatio-temporal loss model to quantify the changes in direct economic losses to residential buildings from tsunami hazards over a 20-year period in Omaha Beach, New Zealand. The approach reconstructed temporal urban settlement patterns (1992, 1996, 2006 and 2012) for an area potentially exposed to regional source tsunami inundation hazard. Synthetic depth–damage functions for specific building classes were applied to estimate temporal damage and loss from tsunami inundation exposure at each building location. Temporal loss estimates were reported for a range of risk metrics, including probable maximum loss, loss exceedance and average annual loss. The results showed that an increase in the number of buildings and changes to building design (i.e., storeys, floor area, foundations) influenced the increasing risk to direct economic loss over the study period. These increases were driven by conversion from rural to urban land use since 1996. The spatio-temporal method presented in this study can be adapted to analyse changing risk patterns and trends for coastal settlements to inform future tsunami mitigation measures and manage direct economic losses.