Total Surface Current Vector and Shear from a Sequence of Satellite images: Effect of Waves in Opposite Directions

Type Article
Date 2021-07
Language English
Author(s) Ardhuin FabriceORCID1, 2, Alday Gonzalez Matias Felipe1, Yurovskaya Maria3
Affiliation(s) 1 : Univ. Brest, CNRS, Ifremer, IRD, Laboratoire d'Oceanographie Physique et Spatiale, Brest, France
2 : Scripps Institution of Oceanography, University of California San Diego, La Jolla, California, USA
3 : Marine Hydrophysical Institute of RAS, Sevastopol, Russia
Source Journal Of Geophysical Research-oceans (2169-9275) (American Geophysical Union), 2021-07 , Vol. 126 , N. 7 , P. e2021JC017342 (21p.)
DOI 10.1029/2021JC017342
Note This article also appears in: Remote Sensing of Ocean Surface Currents Using Doppler Techniques From Planes and Satellites
Keyword(s) surface current, remote sensing, vertical shear, Sentinel-2

The Total Surface Current Velocity (TSCV) - the horizontal vector quantity that advects seawater - is an Essential Climate Variable, with few observations available today. The TSCV can be derived from the phase speed of surface gravity waves, and the estimates of the phase speeds of different wavelengths could give a measure of the vertical shear. Here we combine 10-m resolution Level-1C of the Sentinel 2 Multispectral Instrument, acquired with time lags up to 1s, and numerical simulation of these images. Retrieving the near surface shear requires a specific attention to waves in opposing direction when estimating a single phase speed from the phase difference in an image pair. Opposing waves lead to errors in phase speeds that are most frequent for shorter wavelengths. We propose an alternative method using a least-square fit of the current speed and amplitudes of waves in opposing directions to the observed complex amplitudes of a sequence of 3 images. When applied to Sentinel 2, this method generally provides more moisy estimate of the current. A byproduct of this analysis is the "opposition spectrum" that is a key quantity in the sources of microseisms and microbaroms. For future possible sensors, the retrieval of TSCV and shear can benefit from increased time lags, resolution and exposure time of acquisition. These findings should allow new investigations of near-surface ocean processes including regions of freshwater influence or internal waves, using existing satellite missions such as Sentinel 2, and provide a basis for the design of future optical instruments.

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Preprint 10.1002/essoar.10506452.1 9 766 KB Open access
Publisher's official version 21 3 MB Open access
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Ardhuin Fabrice, Alday Gonzalez Matias Felipe, Yurovskaya Maria (2021). Total Surface Current Vector and Shear from a Sequence of Satellite images: Effect of Waves in Opposite Directions. Journal Of Geophysical Research-oceans, 126(7), e2021JC017342 (21p.). Publisher's official version : , Open Access version :