Abstract
Present investigations of sea level extremes are based on hourly data measured at coastal tide gauges. The use of hourly data restricts existing global and regional analyses to periods larger than 2 h. However, a number of processes occur at minute timescales, of which the most ruinous are tsunamis. Meteotsunamis, hazardous nonseismic waves that occur at tsunami timescales over limited regions, may also locally dominate sea level extremes. Here, we show that nonseismic sea level oscillations at tsunami timescales (<2 h) may substantially contribute to global sea level extremes, up to 50% in low-tidal basins. The intensity of these oscillations is zonally correlated with mid-tropospheric winds at the 99% significance level, with the variance doubling from the tropics and subtropics to the mid-latitudes. Specific atmospheric patterns are found during strong events at selected locations in the World Ocean, indicating a globally predominant generation mechanism. Our analysis suggests that these oscillations should be considered in sea level hazard assessment studies. Establishing a strong correlation between nonseismic sea level oscillations at tsunami timescales and atmospheric synoptic patterns would allow for forecasting of nonseismic sea level oscillations for operational use, as well as hindcasting and projection of their effects under past, present and future climates.
Highlights
Knowledge of sea level extremes in changing climates is of the utmost importance, as sea level extremes inevitably impact densely populated coastlines[1,2]
The tides are large in the North Sea[16]; nonseismic sea level oscillations at tsunami timescales (NSLOTT) contribution to overall sea level variance is less than 0.25% there
The anomalously strong 500-hPa winds during NSLOTT events are known to co-occur with other patterns, including (i) instability of the mid-troposphere jet, (ii) winds that quasi-linearly decrease towards the surface, (iii) a poleward flow of warm and dry air in the lower troposphere, and (iv) a weak surface cyclone barely detectable in surface air pressure charts
Summary
Knowledge of sea level extremes in changing climates is of the utmost importance, as sea level extremes inevitably impact densely populated coastlines[1,2]. NSLOTT contribution to overall sea level variance is not high globally; this contribution is up to 1.25% in low-tidal basins such as the Mediterranean and is even lower throughout rest of the World Ocean.
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