The dynamical structure of a warm core ring as inferred from glider observations and along-track altimetry

Thomas Meunier; Enric Pallás Sanz; Charly de Marez; Juan Pérez; Miguel Tenreiro; Angel Ruiz Angulo; Amy Bower

doi:10.3390/rs13132456

The dynamical structure of a warm core ring as inferred from glider observations and along-track altimetry

Thomas Meunier^*, Enric Pallás Sanz, Charly de Marez, Juan Pérez, Miguel Tenreiro, Angel Ruiz Angulo, Amy Bower

^*Corresponding author for this work

Faculty of Earth Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

This study investigates the vertical structure of the dynamical properties of a warm-core ring in the Gulf of Mexico (Loop Current ring) using glider observations. We introduce a new method to correct the glider’s along-track coordinate, which is, in general, biased by the unsteady relative movements of the glider and the eddy, yielding large errors on horizontal derivatives. Here, we take advantage of the synopticity of satellite along-track altimetry to apply corrections on the glider’s position by matching in situ steric height with satellite-measured sea surface height. This relocation method allows recovering the eddy’s azimuthal symmetry, precisely estimating the rotation axis position, and computing reliable horizontal derivatives. It is shown to be particularly appropriate to compute the eddy’s cyclo-geostrophic velocity, relative vorticity, and shear strain, which are otherwise out of reach when using the glider’s raw traveled distance as a horizontal coordinate. The Ertel potential vorticity (PV) structure of the warm core ring is studied in details, and we show that the PV anomaly is entirely controlled by vortex stretching. Sign reversal of the PV gradient across the water column suggests that the ring might be baroclinically unstable. The PV gradient is also largely controlled by gradients of the vortex stretching term. We also show that the ring’s total energy partition is strongly skewed, with available potential energy being 3 times larger than kinetic energy. The possible impact of this energy partition on the Loop Current rings longevity is also discussed.

Original language	English
Article number	2456
Journal	Remote Sensing
Volume	13
Issue number	13
DOIs	https://doi.org/10.3390/rs13132456
Publication status	Published - 23 Jun 2021

Bibliographical note

Funding Information:
This research was funded by a grant of the National Council of Science and Technology of Mexico?Secretariat of Energy Hydrocarbons Trust, project 201441. This is a contribution of the Gulf of Mexico Research Consortium (CIGoM). Acknowledgments: The authors are grateful to Sim? Cus? for his invaluable work piloting the gliders. T.M. is thankful to Paula P?rez Brunius, Yves Morel, Xavier Carton, Julio Sheinbaum, Pierre Damien, and Jose Luis Ochoa de la Torre, for the constructive discussions and comments during the course of this study. The authors wish to dedicate this work to the memory of Jose Luis ?Pepe? Ochoa, dear friend and colleague. Pepe actively participated in this glider monitoring project, and made an important contribution to the understanding of the Gulf of Mexico?s dynamics during his long career.

Funding Information:
Funding: This research was funded by a grant of the National Council of Science and Technology of Mexico—Secretariat of Energy Hydrocarbons Trust, project 201441. This is a contribution of the Gulf of Mexico Research Consortium (CIGoM).

Publisher Copyright:
© 2021 by the authors. Licensee MDPI, Basel, Switzerland.

Other keywords

Altimetry
Eddies
Gliders
Gulf of Mexico
Mesoscale
Potential vorticity
Warm-core rings

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Cite this

@article{b2f41f0c32e1480e851eff1775468032,

title = "The dynamical structure of a warm core ring as inferred from glider observations and along-track altimetry",

abstract = "This study investigates the vertical structure of the dynamical properties of a warm-core ring in the Gulf of Mexico (Loop Current ring) using glider observations. We introduce a new method to correct the glider{\textquoteright}s along-track coordinate, which is, in general, biased by the unsteady relative movements of the glider and the eddy, yielding large errors on horizontal derivatives. Here, we take advantage of the synopticity of satellite along-track altimetry to apply corrections on the glider{\textquoteright}s position by matching in situ steric height with satellite-measured sea surface height. This relocation method allows recovering the eddy{\textquoteright}s azimuthal symmetry, precisely estimating the rotation axis position, and computing reliable horizontal derivatives. It is shown to be particularly appropriate to compute the eddy{\textquoteright}s cyclo-geostrophic velocity, relative vorticity, and shear strain, which are otherwise out of reach when using the glider{\textquoteright}s raw traveled distance as a horizontal coordinate. The Ertel potential vorticity (PV) structure of the warm core ring is studied in details, and we show that the PV anomaly is entirely controlled by vortex stretching. Sign reversal of the PV gradient across the water column suggests that the ring might be baroclinically unstable. The PV gradient is also largely controlled by gradients of the vortex stretching term. We also show that the ring{\textquoteright}s total energy partition is strongly skewed, with available potential energy being 3 times larger than kinetic energy. The possible impact of this energy partition on the Loop Current rings longevity is also discussed.",

keywords = "Altimetry, Eddies, Gliders, Gulf of Mexico, Mesoscale, Potential vorticity, Warm-core rings",

author = "Thomas Meunier and {Pall{\'a}s Sanz}, Enric and {de Marez}, Charly and Juan P{\'e}rez and Miguel Tenreiro and {Ruiz Angulo}, Angel and Amy Bower",

note = "Funding Information: This research was funded by a grant of the National Council of Science and Technology of Mexico?Secretariat of Energy Hydrocarbons Trust, project 201441. This is a contribution of the Gulf of Mexico Research Consortium (CIGoM). Acknowledgments: The authors are grateful to Sim? Cus? for his invaluable work piloting the gliders. T.M. is thankful to Paula P?rez Brunius, Yves Morel, Xavier Carton, Julio Sheinbaum, Pierre Damien, and Jose Luis Ochoa de la Torre, for the constructive discussions and comments during the course of this study. The authors wish to dedicate this work to the memory of Jose Luis ?Pepe? Ochoa, dear friend and colleague. Pepe actively participated in this glider monitoring project, and made an important contribution to the understanding of the Gulf of Mexico?s dynamics during his long career. Funding Information: Funding: This research was funded by a grant of the National Council of Science and Technology of Mexico—Secretariat of Energy Hydrocarbons Trust, project 201441. This is a contribution of the Gulf of Mexico Research Consortium (CIGoM). Publisher Copyright: {\textcopyright} 2021 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2021",

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language = "English",

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T1 - The dynamical structure of a warm core ring as inferred from glider observations and along-track altimetry

AU - Meunier, Thomas

AU - Pallás Sanz, Enric

AU - de Marez, Charly

AU - Pérez, Juan

AU - Tenreiro, Miguel

AU - Ruiz Angulo, Angel

AU - Bower, Amy

N1 - Funding Information: This research was funded by a grant of the National Council of Science and Technology of Mexico?Secretariat of Energy Hydrocarbons Trust, project 201441. This is a contribution of the Gulf of Mexico Research Consortium (CIGoM). Acknowledgments: The authors are grateful to Sim? Cus? for his invaluable work piloting the gliders. T.M. is thankful to Paula P?rez Brunius, Yves Morel, Xavier Carton, Julio Sheinbaum, Pierre Damien, and Jose Luis Ochoa de la Torre, for the constructive discussions and comments during the course of this study. The authors wish to dedicate this work to the memory of Jose Luis ?Pepe? Ochoa, dear friend and colleague. Pepe actively participated in this glider monitoring project, and made an important contribution to the understanding of the Gulf of Mexico?s dynamics during his long career. Funding Information: Funding: This research was funded by a grant of the National Council of Science and Technology of Mexico—Secretariat of Energy Hydrocarbons Trust, project 201441. This is a contribution of the Gulf of Mexico Research Consortium (CIGoM). Publisher Copyright: © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

PY - 2021/6/23

Y1 - 2021/6/23

N2 - This study investigates the vertical structure of the dynamical properties of a warm-core ring in the Gulf of Mexico (Loop Current ring) using glider observations. We introduce a new method to correct the glider’s along-track coordinate, which is, in general, biased by the unsteady relative movements of the glider and the eddy, yielding large errors on horizontal derivatives. Here, we take advantage of the synopticity of satellite along-track altimetry to apply corrections on the glider’s position by matching in situ steric height with satellite-measured sea surface height. This relocation method allows recovering the eddy’s azimuthal symmetry, precisely estimating the rotation axis position, and computing reliable horizontal derivatives. It is shown to be particularly appropriate to compute the eddy’s cyclo-geostrophic velocity, relative vorticity, and shear strain, which are otherwise out of reach when using the glider’s raw traveled distance as a horizontal coordinate. The Ertel potential vorticity (PV) structure of the warm core ring is studied in details, and we show that the PV anomaly is entirely controlled by vortex stretching. Sign reversal of the PV gradient across the water column suggests that the ring might be baroclinically unstable. The PV gradient is also largely controlled by gradients of the vortex stretching term. We also show that the ring’s total energy partition is strongly skewed, with available potential energy being 3 times larger than kinetic energy. The possible impact of this energy partition on the Loop Current rings longevity is also discussed.

AB - This study investigates the vertical structure of the dynamical properties of a warm-core ring in the Gulf of Mexico (Loop Current ring) using glider observations. We introduce a new method to correct the glider’s along-track coordinate, which is, in general, biased by the unsteady relative movements of the glider and the eddy, yielding large errors on horizontal derivatives. Here, we take advantage of the synopticity of satellite along-track altimetry to apply corrections on the glider’s position by matching in situ steric height with satellite-measured sea surface height. This relocation method allows recovering the eddy’s azimuthal symmetry, precisely estimating the rotation axis position, and computing reliable horizontal derivatives. It is shown to be particularly appropriate to compute the eddy’s cyclo-geostrophic velocity, relative vorticity, and shear strain, which are otherwise out of reach when using the glider’s raw traveled distance as a horizontal coordinate. The Ertel potential vorticity (PV) structure of the warm core ring is studied in details, and we show that the PV anomaly is entirely controlled by vortex stretching. Sign reversal of the PV gradient across the water column suggests that the ring might be baroclinically unstable. The PV gradient is also largely controlled by gradients of the vortex stretching term. We also show that the ring’s total energy partition is strongly skewed, with available potential energy being 3 times larger than kinetic energy. The possible impact of this energy partition on the Loop Current rings longevity is also discussed.

KW - Altimetry

KW - Eddies

KW - Gliders

KW - Gulf of Mexico

KW - Mesoscale

KW - Potential vorticity

KW - Warm-core rings

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U2 - 10.3390/rs13132456

DO - 10.3390/rs13132456

M3 - Article

AN - SCOPUS:85109216804

SN - 2072-4292

VL - 13

JO - Remote Sensing

JF - Remote Sensing

IS - 13

M1 - 2456

ER -

The dynamical structure of a warm core ring as inferred from glider observations and along-track altimetry

Abstract

Bibliographical note

Other keywords

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