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The Effect of the 18.6‐Year Lunar Nodal Cycle on Steric Sea Level Changes

Sterre V. Bult, Dewi Le Bars, Ivan D. Haigh, Theo Gerkema

2024Geophysical Research Letters12 citationsDOIOpen Access PDF

Abstract

Abstract We show that steric sea‐level varies with a period of 18.6 years along the western European coast. We hypothesize that this variation originates from the modulation of semidiurnal tides by the lunar nodal cycle and associated changes in ocean mixing. Accounting for the steric sea level changes in the upper 400 m of the ocean solves the discrepancy between the nodal cycle in mean sea level observed by tide gauges and the theoretical equilibrium nodal tide. Namely, by combining the equilibrium tide with the nodal modulation of steric sea level, we close the gap with the observations. This result supports earlier findings that the observed phase and amplitude of the 18.6‐year cycle do not always correspond to the equilibrium nodal tide.

Topics & Concepts

Tide gaugeSea levelSteric effectsNODALAmplitudeGeodesyGeologyAnnual cyclePhase (matter)ClimatologyOceanographyPhysicsChemistryOpticsAnatomyMedicineStereochemistryQuantum mechanicsGeophysics and Gravity MeasurementsOceanographic and Atmospheric ProcessesClimate variability and models
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