Which of the world’s coral reef-fringed coastlines will become uninhabitable from wave-driven flooding? Scientists from
the University of Auckland have developed an efficient and accessible tool to find out.
In a paper published by Nature Communication, Dr Eddie Beetham and Professor Paul Kench from the School of Environment in the Faculty of Science reveal their
findings on wave, reef and island interactions in face of global sea level rise.
The scientists devised a simple, accessible method to calculate threshold conditions for wave-driven flooding on reef
coastlines by comparing modelled flooding levels with two measures of island morphology. Firstly, relative reef width,
which captures how effective the reef is at dissipating waves, and secondly, island elevation relative to offshore wave
height.
Analysis of 60,000 simulations determined a clear boundary coined ‘the Reef Island Overtopping Threshold’ (RIOT). RIOT
is the point at which waves are likely to breach a coral island reef. The RIOT model was tested against known flooding
events on a number of different atoll islands.
Dr Eddie Beetham says “Our approach, using RIOT, will enable wide-scale and general assessments of island vulnerability,
at present and future sea level, based on easily-measured morphological characteristics.
“The simplicity of our method makes it broadly applicable to calculate threshold wave heights and sea levels associated
with overtopping on different islands.
“With this information, island nations will be able to establish timescales for when and where future flooding will
occur, providing important baseline knowledge for implementing adaptation measures and identifying areas where
site-specific hazard assessments are required.”
The research also shows that the impact of sea level rise will not be uniform.
“Sea level rise will have a compounding effect for coastal flooding on reef coastlines. The associated increase in reef
depth will allow larger waves to reach islands, while the decrease in island height above sea level means that less
energy is required for waves to overtop the shoreline.”
“Islands with maximum shoreline elevation less than 1.5 m above spring high tide to be significantly more prone to
future overtopping, even if positioned on a shallow and wide reef that effectively dissipates wave energy at present sea
level. Frequent wave overtopping is likely to occur on these lower islands with a modest increases in sea level of
0.1–0.4 m.”