Evaluation of OSCAR ocean surface current product in the tropical Indian Ocean using in situ data

The OSCAR (ocean surface current analysis real-time), which is a product derived from various satellite observations, has been evaluated in the tropical Indian Ocean (TIO) in two different ways. First, the OSCAR-derived monthly climatology has been compared with available drifter-derived climatology...

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Bibliographic Details
Published in:Journal of Earth System Science 2013-02, Vol.122 (1), p.187-199
Main Authors: SIKHAKOLLI, RAJESH, SHARMA, RASHMI, BASU, SUJIT, GOHIL, B S, SARKAR, ABHIJIT, PRASAD, K V S R
Format: Article
Language:English
Subjects:
Buoy measurements
Buoys
Climatology
correlation
Dipoles
Drifters
Earth and Environmental Science
Earth Sciences
earth system science
Fourier analysis
Kinetic energy
Marine
Moored buoys
Ocean circulation
Ocean currents
Ocean surface
Oceans
Periodicities
Physical oceanography
Remote sensing
Satellite observation
satellites
Space Exploration and Astronautics
Space Sciences (including Extraterrestrial Physics
tropics
Water circulation
water currents
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Summary:The OSCAR (ocean surface current analysis real-time), which is a product derived from various satellite observations, has been evaluated in the tropical Indian Ocean (TIO) in two different ways. First, the OSCAR-derived monthly climatology has been compared with available drifter-derived climatology in the TIO. From the comparison of the two climatologies, one can infer that OSCAR product is able to capture the variabilities of the well-known surface current systems in the TIO reasonably well. Fourier analysis of the major current systems, as reproduced by OSCAR, shows that the dominant annual and semiannual periodicities, known to exist in these systems, have been faithfully picked up by OSCAR. Next, the evaluation has been carried out by comparing the OSCAR currents with currents measured by moored buoys. The zonal component of OSCAR-current is in good agreement with corresponding component of buoy-observed current with a correlation exceeding 0.7, while the match between the meridional components is poorer. The locations of the peaks of the mean and eddy kinetic energies are matching in both the climatologies, although the peak in the drifter climatology is stronger than the same in the OSCAR product. Finally, an important feature of Indian Ocean circulation, namely the reverse Wyrtki jet, occurring during anomalous dipole years, has been well-reproduced by OSCAR currents.
ISSN:0253-4126
0973-774X
DOI:10.1007/s12040-012-0258-7