Correlation between synthetic aperture radar surface winds and deep water velocity in the amundsen sea, antarctica

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Abstract

The recent observed thinning of the glacier ice shelves in the Amundsen Sea (Antarctica) has been attributed to warm deep currents, possibly induced by along-coast winds in the vicinity of the glacial ice sheet. Here, high resolution maps of wind fields derived from Synthetic Aperture Radar (SAR) data have been studied and correlated with subsurface measurements of the deep water velocities in the Amundsen Sea area. Focus is n periods with low ice coverage in 2010 and 2011. In 2010, which had comparatively low ice coverage, the results indicate a more rapid response to wind forcing in the deep currents than in 2011. The SAR wind speed maps have better spatial resolution than available reanalysis data, and higher maximum correlation was obtained with SAR data than with reanalysis data despite the lower temporal resolution. The maximum correlation was R = 0.71, in a direction that is consistent with wind-driven Ekman theory. This is significantly larger than in previous studies. The larger correlation could be due to the better spatial resolution or the restriction to months with minimum ice coverage. The results indicate that SAR is a useful complement to infer the subsurface variability of the ocean circulation in remote areas in polar oceans. © 2013 by the authors.

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APA

Carvajal, G. K., Wåhlin, A. K., Eriksson, L. E. B., & Ulander, L. M. H. (2013). Correlation between synthetic aperture radar surface winds and deep water velocity in the amundsen sea, antarctica. Remote Sensing, 5(8), 4088–4106. https://doi.org/10.3390/rs5084088

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