On the intrinsic shape of oceanic eddies derived from satellite altimetry

The fundamental issue of mean eddy shape at the sea surface has been simplified as axially symmetric for a long time. This assumption is worth of a reexamination following significant advances in precise tracking of individual eddies, thanks to the recent availability of merged altimeter data with a...

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Published inRemote sensing of environment Vol. 228; pp. 75 - 89
Main Authors Chen, Ge, Han, Guiyan, Yang, Xueqing
Format Journal Article
LanguageEnglish
Published New York Elsevier Inc 01.07.2019
Elsevier BV
Subjects
altimeters
Angles (geometry)
Anisotropy
asymmetry
Climatology
Coordinates
Eddy orientation
Eddy shape
geometry
Geophysics
Mathematical analysis
Mathematics
Mesoscale eddies
Oceanic eddies
Oceanography
remote sensing
Satellite altimetry
space and time
Vortices
Eddy orientation
Satellite altimetry
Eddy shape
Mesoscale eddies
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Abstract The fundamental issue of mean eddy shape at the sea surface has been simplified as axially symmetric for a long time. This assumption is worth of a reexamination following significant advances in precise tracking of individual eddies, thanks to the recent availability of merged altimeter data with a grid resolution of 1/4° × 1/4° and a time interval of one day. Based on an orientationally aligned average of the effective boundaries of nearly 2.6 million individual eddies available to date, a characteristic shape of a “standard” eddy has been derived, which is found to be a very good approximation to a mathematical ellipsoid with a semimajor axis of a = 87.0 km, and a semiminor axis of b = 54.0 km. The oval nature of oceanic eddies appears to be universal in a climatological sense, but the best-fit ellipse varies with space and time. Statistically, the eddy ellipse has two preferred angles for its major axis: a primary angle of 104°/284° (nearly north-south) and a secondary angle of 171°/351° (nearly east-west). The intrinsic geometric asymmetry in eddy shape and orientation is believed to be one of the fundamental reasons behind the previously observed geophysical anisotropy in eddy properties. Future integrated analysis in an eddy-centric coordinate system with an ellipse geometry may open a new window into nonlinear mesoscale oceanography in terms of eddy kinetics and eddy dynamics. •The common eddy shape has been oversimplified as axially symmetric for a long time.•A characteristic shape of oceanic eddies has been derived as a well-defined ellipse.•The intrinsic oval shape leads to geophysical anisotropy in eddy properties.
AbstractList The fundamental issue of mean eddy shape at the sea surface has been simplified as axially symmetric for a long time. This assumption is worth of a reexamination following significant advances in precise tracking of individual eddies, thanks to the recent availability of merged altimeter data with a grid resolution of 1/4° × 1/4° and a time interval of one day. Based on an orientationally aligned average of the effective boundaries of nearly 2.6 million individual eddies available to date, a characteristic shape of a “standard” eddy has been derived, which is found to be a very good approximation to a mathematical ellipsoid with a semimajor axis of a = 87.0 km, and a semiminor axis of b = 54.0 km. The oval nature of oceanic eddies appears to be universal in a climatological sense, but the best-fit ellipse varies with space and time. Statistically, the eddy ellipse has two preferred angles for its major axis: a primary angle of 104°/284° (nearly north-south) and a secondary angle of 171°/351° (nearly east-west). The intrinsic geometric asymmetry in eddy shape and orientation is believed to be one of the fundamental reasons behind the previously observed geophysical anisotropy in eddy properties. Future integrated analysis in an eddy-centric coordinate system with an ellipse geometry may open a new window into nonlinear mesoscale oceanography in terms of eddy kinetics and eddy dynamics.
The fundamental issue of mean eddy shape at the sea surface has been simplified as axially symmetric for a long time. This assumption is worth of a reexamination following significant advances in precise tracking of individual eddies, thanks to the recent availability of merged altimeter data with a grid resolution of 1/4° × 1/4° and a time interval of one day. Based on an orientationally aligned average of the effective boundaries of nearly 2.6 million individual eddies available to date, a characteristic shape of a “standard” eddy has been derived, which is found to be a very good approximation to a mathematical ellipsoid with a semimajor axis of a = 87.0 km, and a semiminor axis of b = 54.0 km. The oval nature of oceanic eddies appears to be universal in a climatological sense, but the best-fit ellipse varies with space and time. Statistically, the eddy ellipse has two preferred angles for its major axis: a primary angle of 104°/284° (nearly north-south) and a secondary angle of 171°/351° (nearly east-west). The intrinsic geometric asymmetry in eddy shape and orientation is believed to be one of the fundamental reasons behind the previously observed geophysical anisotropy in eddy properties. Future integrated analysis in an eddy-centric coordinate system with an ellipse geometry may open a new window into nonlinear mesoscale oceanography in terms of eddy kinetics and eddy dynamics. •The common eddy shape has been oversimplified as axially symmetric for a long time.•A characteristic shape of oceanic eddies has been derived as a well-defined ellipse.•The intrinsic oval shape leads to geophysical anisotropy in eddy properties.
Author Chen, Ge
Yang, Xueqing
Han, Guiyan
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  organization: Department of Marine Technology, Institute for Advanced Ocean Study, Ocean University of China, China
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Keywords Eddy orientation
Satellite altimetry
Eddy shape
Mesoscale eddies
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Snippet The fundamental issue of mean eddy shape at the sea surface has been simplified as axially symmetric for a long time. This assumption is worth of a...
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SubjectTerms altimeters
Angles (geometry)
Anisotropy
asymmetry
Climatology
Coordinates
Eddy orientation
Eddy shape
geometry
Geophysics
Mathematical analysis
Mathematics
Mesoscale eddies
Oceanic eddies
Oceanography
remote sensing
Satellite altimetry
space and time
Vortices
Title On the intrinsic shape of oceanic eddies derived from satellite altimetry
URI https://dx.doi.org/10.1016/j.rse.2019.04.011
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Volume 228
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