Long-lived mesoscale eddies in the eastern Mediterranean Sea: Analysis of 20 years of AVISO geostrophic velocities

We analyzed 20 years of AVISO data set to detect and characterize long‐lived eddies, which stay coherent more than 6 months, in the eastern Mediterranean Sea. In order to process the coarse gridded ( 1/8°) AVISO geostrophic velocity fields, we optimized a geometrical eddy detection algorithm. Our ma...

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Veröffentlicht in:	Journal of geophysical research. Oceans 2014-12, Vol.119 (12), p.8603-8626
Hauptverfasser:	Mkhinini, Nadia, Coimbra, Andre Louis Santi, Stegner, Alexandre, Arsouze, Thomas, Taupier-Letage, Isabelle, Béranger, Karine
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Angular momentum Anticyclones Asymmetry automated detection Bathymetry Coastal environments Computation Correlation Curl (vectors) Cyclones Detection Earth Sciences Eddies Fields Formations Geophysics Loads (forces) Local winds Marine Mathematical models Mediterranean Sea Mesoscale eddies Mesoscale phenomena Methods Momentum Ocean circulation Ocean, Atmosphere Ocean-atmosphere interaction Oceanography Oceans Sciences of the Universe topographic forcing Velocity Vortices Wind wind-forcing
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container_issue	12
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container_title	Journal of geophysical research. Oceans
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creator	Mkhinini, Nadia Coimbra, Andre Louis Santi Stegner, Alexandre Arsouze, Thomas Taupier-Letage, Isabelle Béranger, Karine
description	We analyzed 20 years of AVISO data set to detect and characterize long‐lived eddies, which stay coherent more than 6 months, in the eastern Mediterranean Sea. In order to process the coarse gridded ( 1/8°) AVISO geostrophic velocity fields, we optimized a geometrical eddy detection algorithm. Our main contribution was to implement a new procedure based on the computation of the Local and Normalized Angular Momentum (LNAM) to identify the positions of the eddy centers and to follow their Lagrangian trajectories. We verify on two mesoscale anticyclones, sampled during the EGYPT campaign in 2006, that our methodology provides a correct estimation of the eddy centers and their characteristic radius corresponding to the maximal tangential velocity. Our analysis reveals the dominance of anticyclones among the long‐lived eddies. This cyclone‐anticyclone asymmetry appears to be much more pronounced in eastern Mediterranean Sea than in the global ocean. Then we focus our study on the formation areas of long‐lived eddies. We confirm that the generations of the Ierapetra and the Pelops anticyclones are recurrent and correlated to the Etesian wind forcing. We also provide some evidence that the smaller cyclonic eddies formed at the southwest of Crete may also be induced by the same wind forcing. On the other hand, the generation of long‐lived eddies along the Libyo‐Egyptian coast are not correlated to the local wind‐stress curl but surprisingly, their initial formation points follow the Herodotus Trough bathymetry. Moreover, we identify a new formation area, not discussed before, along the curved shelf off Benghazi. Key Points: Eddy detection algorithm Cyclone anticyclone asymmetry Formation of long‐lived eddies in the eastern Mediterranean Sea
doi_str_mv	10.1002/2014JC010176
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In order to process the coarse gridded ( 1/8°) AVISO geostrophic velocity fields, we optimized a geometrical eddy detection algorithm. Our main contribution was to implement a new procedure based on the computation of the Local and Normalized Angular Momentum (LNAM) to identify the positions of the eddy centers and to follow their Lagrangian trajectories. We verify on two mesoscale anticyclones, sampled during the EGYPT campaign in 2006, that our methodology provides a correct estimation of the eddy centers and their characteristic radius corresponding to the maximal tangential velocity. Our analysis reveals the dominance of anticyclones among the long‐lived eddies. This cyclone‐anticyclone asymmetry appears to be much more pronounced in eastern Mediterranean Sea than in the global ocean. Then we focus our study on the formation areas of long‐lived eddies. We confirm that the generations of the Ierapetra and the Pelops anticyclones are recurrent and correlated to the Etesian wind forcing. We also provide some evidence that the smaller cyclonic eddies formed at the southwest of Crete may also be induced by the same wind forcing. On the other hand, the generation of long‐lived eddies along the Libyo‐Egyptian coast are not correlated to the local wind‐stress curl but surprisingly, their initial formation points follow the Herodotus Trough bathymetry. Moreover, we identify a new formation area, not discussed before, along the curved shelf off Benghazi. 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Oceans</title><addtitle>J. Geophys. Res. Oceans</addtitle><description>We analyzed 20 years of AVISO data set to detect and characterize long‐lived eddies, which stay coherent more than 6 months, in the eastern Mediterranean Sea. In order to process the coarse gridded ( 1/8°) AVISO geostrophic velocity fields, we optimized a geometrical eddy detection algorithm. Our main contribution was to implement a new procedure based on the computation of the Local and Normalized Angular Momentum (LNAM) to identify the positions of the eddy centers and to follow their Lagrangian trajectories. We verify on two mesoscale anticyclones, sampled during the EGYPT campaign in 2006, that our methodology provides a correct estimation of the eddy centers and their characteristic radius corresponding to the maximal tangential velocity. Our analysis reveals the dominance of anticyclones among the long‐lived eddies. This cyclone‐anticyclone asymmetry appears to be much more pronounced in eastern Mediterranean Sea than in the global ocean. Then we focus our study on the formation areas of long‐lived eddies. We confirm that the generations of the Ierapetra and the Pelops anticyclones are recurrent and correlated to the Etesian wind forcing. We also provide some evidence that the smaller cyclonic eddies formed at the southwest of Crete may also be induced by the same wind forcing. On the other hand, the generation of long‐lived eddies along the Libyo‐Egyptian coast are not correlated to the local wind‐stress curl but surprisingly, their initial formation points follow the Herodotus Trough bathymetry. Moreover, we identify a new formation area, not discussed before, along the curved shelf off Benghazi. 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Oceans</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Mkhinini, Nadia</au><au>Coimbra, Andre Louis Santi</au><au>Stegner, Alexandre</au><au>Arsouze, Thomas</au><au>Taupier-Letage, Isabelle</au><au>Béranger, Karine</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Long-lived mesoscale eddies in the eastern Mediterranean Sea: Analysis of 20 years of AVISO geostrophic velocities</atitle><jtitle>Journal of geophysical research. Oceans</jtitle><addtitle>J. Geophys. Res. Oceans</addtitle><date>2014-12</date><risdate>2014</risdate><volume>119</volume><issue>12</issue><spage>8603</spage><epage>8626</epage><pages>8603-8626</pages><issn>2169-9275</issn><eissn>2169-9291</eissn><abstract>We analyzed 20 years of AVISO data set to detect and characterize long‐lived eddies, which stay coherent more than 6 months, in the eastern Mediterranean Sea. In order to process the coarse gridded ( 1/8°) AVISO geostrophic velocity fields, we optimized a geometrical eddy detection algorithm. Our main contribution was to implement a new procedure based on the computation of the Local and Normalized Angular Momentum (LNAM) to identify the positions of the eddy centers and to follow their Lagrangian trajectories. We verify on two mesoscale anticyclones, sampled during the EGYPT campaign in 2006, that our methodology provides a correct estimation of the eddy centers and their characteristic radius corresponding to the maximal tangential velocity. Our analysis reveals the dominance of anticyclones among the long‐lived eddies. This cyclone‐anticyclone asymmetry appears to be much more pronounced in eastern Mediterranean Sea than in the global ocean. Then we focus our study on the formation areas of long‐lived eddies. We confirm that the generations of the Ierapetra and the Pelops anticyclones are recurrent and correlated to the Etesian wind forcing. We also provide some evidence that the smaller cyclonic eddies formed at the southwest of Crete may also be induced by the same wind forcing. On the other hand, the generation of long‐lived eddies along the Libyo‐Egyptian coast are not correlated to the local wind‐stress curl but surprisingly, their initial formation points follow the Herodotus Trough bathymetry. Moreover, we identify a new formation area, not discussed before, along the curved shelf off Benghazi. 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subjects	Algorithms Angular momentum Anticyclones Asymmetry automated detection Bathymetry Coastal environments Computation Correlation Curl (vectors) Cyclones Detection Earth Sciences Eddies Fields Formations Geophysics Loads (forces) Local winds Marine Mathematical models Mediterranean Sea Mesoscale eddies Mesoscale phenomena Methods Momentum Ocean circulation Ocean, Atmosphere Ocean-atmosphere interaction Oceanography Oceans Sciences of the Universe topographic forcing Velocity Vortices Wind wind-forcing
title	Long-lived mesoscale eddies in the eastern Mediterranean Sea: Analysis of 20 years of AVISO geostrophic velocities
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