Radiational tides: their double-counting in storm surge forecasts and contribution to the Highest Astronomical Tide
Tide predictions based on tide-gauge observations are not just the astronomical tides; they also contain radiational tides – periodic sea-level changes due to atmospheric conditions and solar forcing. This poses a problem of double-counting for operational forecasts of total water level during storm...
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Veröffentlicht in: | Ocean science 2018-09, Vol.14 (5), p.1057-1068 |
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Zusammenfassung: | Tide predictions based on tide-gauge observations are not just
the astronomical tides; they also contain radiational tides –
periodic sea-level changes due to atmospheric conditions and solar forcing. This poses a
problem of double-counting for operational forecasts of total water level
during storm surges. In some surge forecasting, a regional model is run in
two modes: tide only, with astronomic forcing alone; and tide and surge,
forced additionally by surface winds and pressure. The surge residual is
defined to be the difference between these configurations and is added to the
local harmonic predictions from gauges. Here we use the Global Tide and Surge
Model (GTSM) based on Delft-FM to investigate this in the UK and elsewhere,
quantifying the weather-related tides that may be double-counted in
operational forecasts. We show that the global
S2 atmospheric tide is captured by the
tide-and-surge model and observe changes in other major constituents,
including M2. The Lowest and Highest Astronomical Tide levels,
used in navigation datums and design heights, are derived from tide
predictions based on observations. We use our findings on radiational tides
to quantify the extent to which these levels may contain weather-related
components. |
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ISSN: | 1812-0792 1812-0784 1812-0792 |
DOI: | 10.5194/os-14-1057-2018 |