Surprise: 2 Recent Papers Show Sea Level Variability Have Little To Do With CO2

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Sun rules sea level: Scientists discover unexpected relationship

By Dr. Sebastian Lüning and Prof. Fritz Vahrenholt
(German text translated by P Gosselin)

A group of researchers led by Adrian Martinez-Asensio have found an 11-year Schwabe solar cycle in the European sea level. The authors published their findings 19 November 2016 in the Geophysical Research Letters:

Decadal variability of European sea level extremes in relation to the solar activity
This study investigates the relationship between decadal changes in solar activity and sea level extremes along the European coasts and derived from tide gauge data. Autumn sea level extremes vary with the 11 year solar cycle at Venice as suggested by previous studies, but a similar link is also found at Trieste. In addition, a solar signal in winter sea level extremes is also found at Venice, Trieste, Marseille, Ceuta, Brest, and Newlyn. The influence of the solar cycle is also evident in the sea level extremes derived from a barotropic model with spatial patterns that are consistent with the correlations obtained at the tide gauges. This agreement indicates that the link to the solar cycle is through modulation of the atmospheric forcing. The only atmospheric regional pattern that showed variability at the 11 year period was the East Atlantic pattern.”

Already in May 2015 a group of researchers led by Daniel Howard found an influence by solar activity and ocean cycles on sea level trends in a paper  published in the Journal of Geophysical Research. The 2 factors  made up minimum 70% of the annual fluctuations. The paper’s abstract follows:

The solar and Southern Oscillation components in the satellite altimetry data
With satellite altimetry data accumulating over the past two decades, the mean sea level (MSL) can now be measured to unprecedented accuracy. We search for physical processes which can explain the sea level variations and find that at least 70% of the variance in the annually smoothed detrended altimetry data can be explained as the combined effect of both the solar forcing and the El Niño–Southern Oscillation (ENSO). The phase of the solar component can be used to derive the different steric and eustatic contributions. We find that the peak to peak radiative forcing associated with the solar cycle is 1.33 ± 0.34 W/m², contributing a 4.4 ± 0.8 mm variation. The slow eustatic component (describing, for example, the cryosphere and large bodies of surface water) has a somewhat smaller peak to peak amplitude of 2.4 ± 0.6 mm. Its phase implies that warming the oceans increases the ocean water loss rate. Additional much smaller terms include a steric feedback term and a fast eustatic term. The ENSO contributes a peak to peak variation of 5.5 ± 0.8 mm, predominantly through a direct effect on the MSL and significantly less so indirectly through variations in the radiative forcing.”

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July 8, 2017 at 12:11PM