Abstract
Sea-level rise will cause erosion of land, deeper and increasingly frequent flooding and will eventually permanently inundate low-elevation land, forcing the adaptation of seaside communities to avoid or reduce risk. To inform adaptation planning, we quantified the effects of incremental relative sea-level rise (RSLR) on exposed land area, number and replacement value of buildings within Tauranga Harbour, New Zealand. The assessment compared three coastal hazards: flooding, permanent inundation and erosion. Increasingly frequent coastal flooding will be the dominant trigger for adaptation in Tauranga. In the absence of adaptation, coastal flooding, recurring at least once every 5 years on average, will overtake erosion as the dominant coastal hazard after about 0.15–0.2 m RSLR, which is likely to occur between the years 2038–2062 in New Zealand and will rapidly escalate in frequency and consequence thereafter. Coastal erosion will remain the dominant hazard for the relatively-few properties on high-elevation coastal cliffs. It will take 0.8 m more RSLR for permanent inundation to reach similar impact thresholds to coastal flooding, in terms of the number and value of buildings exposed. For buildings currently within the mapped 1% annual exceedance probability (AEP) zone, the flooding frequency will transition to 20% AEP within 2–3 decades depending on the RSLR rate, requiring prior adaptive action. We also compared the performance of simple static-planar versus complex dynamic models for assessing coastal flooding exposure. Use of the static-planar model could result in sea level thresholds being reached 15–45 years earlier than planned for in this case. This is compelling evidence to use dynamic models to support adaptation planning.
Highlights
Coastal flooding and erosion are hazards in coastal cities where the development of buildings and infrastructure has occurred next to the sea [1,2,3,4,5]
This will rise to about 60 km2 at 1.5 m mean sea level (MSL) and the increase in exposure is approximately linear with relative sea-level rise (RSLR)
Less than 3 km2 of land is already exposed to coastal flooding of ≥0.3 m during mean high-water springs (MHWS) tides, but this will rise to about 37 km2 at 1.5 m MSL
Summary
Coastal flooding and erosion are hazards in coastal cities where the development of buildings and infrastructure has occurred next to the sea [1,2,3,4,5]. Communities, local governments, emergency managers and infrastructure operators need to investigate and plan for flooding and erosion hazards and in the future after substantial sea-level rise. Models of shoreline evolution generally predict long-term shoreline recession with rising mean sea level (MSL) [10,11,12] but the response is complex with many sources of uncertainty including the rate and magnitude of RSLR [4,12,13,14,15]
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