Abstract
The impact of climatic variability in atmospheric conditions on coastal environments accompanies adjustments in both the frequency and intensity of coastal storm surge events. The top winter season daily maximum sea level height events at 20 tidal stations around South Korea were examined to assess such impact of winter extratropical cyclone variability. As the investigation focusses on the most extreme sea level events, the impact of climate change is found to be invisible. It is revealed that the measures of extreme sea level events—frequency and intensity—do not correlate with the local sea surface temperature anomalies. Meanwhile, the frequency of winter extreme events exhibits a clear association with the concurrent climatic indices. It was determined that the annual frequency of the all-time top 5% winter daily maximum sea level events significantly and positively correlates with the NINO3.4 and Pacific Decadal Oscillation (PDO) indices at the majority of the 20 tidal stations. Hence, this indicates an increase in extreme event frequency and intensity, despite localized temperature cooling. This contradicts the expectation of increases in local extreme sea level events due to thermal expansion and global climate change. During El Nino, it is suggested that northward shifts of winter storm tracks associated with El Nino occur, disturbing the sea level around Korea more often. The current dominance of interannual storm track shifts, due to climate variability, over the impact of slow rise on the winter extreme sea level events, implies that coastal extreme sea level events will change through changes in the mechanical drivers rather than thermal expansion. The major storm tracks are predicted to continue shifting northward. The winter extreme sea level events in the midlatitude coastal region might not go through a monotonic change. They are expected to occur more often and more intensively in the near future, but might not continue doing so when northward shifting storm tracks move away from the marginal seas around Korea, as is predicted by the end of the century.
Highlights
Climate change poses a great threat to countries situated next to the ocean
This study focuses on providing insight into the extreme sea level events in midlatitude regions associated with winter extratropical cyclones
The measures of extreme sea level heights from 20 tidal station around Korea were assessed, an investigation into climatic impacts on extreme sea level measures was conducted and the current and the future characteristics of extreme changes in sea level caused by extratropical cyclones are suggested
Summary
Climate change poses a great threat to countries situated next to the ocean. Islands will be submerged and the available land mass will gradually be encroached, starting with the beach loss. Storm tides, are storm surges overlaid on the local tides approaching coastal areas, causing continuous flooding or water level drops for as long as a couple of days, directly affecting livelihoods and the socioeconomic value of coastal zones. Coastal communities are prepared against large tidal ranges, which are regular and predictable events, but the surges associated with the meteorological conditions can be unexpected as the conditions continuously change This is especially true for the coasts of countries located in midlatitude regions where typhoons and extratropical cyclones frequently pass, such as the area of interest in this study
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