Can we observe and study the Mediterranean outflow and meddies from satellite remote sensing?

Xiao-Hai Yan; Young-Heon Jo; W. Timothy Liu; Ming-Xia He

doi:10.1117/12.510840

26 February 2004 Can we observe and study the Mediterranean outflow and meddies from satellite remote sensing?

Xiao-Hai Yan, Young-Heon Jo, W. Timothy Liu, Ming-Xia He

Author Affiliations +

Proceedings Volume 5233, Remote Sensing of the Ocean and Sea Ice 2003; (2004) https://doi.org/10.1117/12.510840
Event: Remote Sensing, 2003, Barcelona, Spain

Abstract

Previous studies of the Mediterranean outflow and meddies (O&M) were limited by poor spatial and temporal resolution of the conventional observations. Little is known about meddies formation and transport, and the spatial and temporal variation of its trajectories. Generally speaking, most of the satellite observations are confined to the ocean's surface or its surface layer, while meddies were located, on an average, at a depth of 1000m. We developed a new remote sensing method to observe and study the O&M through unique approaches in satellite multi-sensor data integration analyses. Satellite altimeter, scatterometer, SST and XBT data were used to detect and calculate the trajectories and the relative transport of the O&M. We found that more northwestward meddies occurred in the spring and more southward meddies occurred in the fall than previously thought. Since the O&M play a significant role in carrying salty water from the Mediterranean into the Atlantic and contribute to the North Atlantic Deep Water (NADW) formation, such new knowledge about their trajectories, transport and life histories is important to understand their mixing and interaction with the North Atlantic water, adn hence, to lead to a better understanding of the global ocean circulation and the global change.

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Xiao-Hai Yan, Young-Heon Jo, W. Timothy Liu, and Ming-Xia He "Can we observe and study the Mediterranean outflow and meddies from satellite remote sensing?", Proc. SPIE 5233, Remote Sensing of the Ocean and Sea Ice 2003, (26 February 2004); https://doi.org/10.1117/12.510840

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