Lagrangian study of the final warming in the southern stratosphere during 2002: Part II. 3D structure

This two-part paper aims to provide a Lagrangian perspective of the final southern warming in spring of 2002, during which the stratospheric polar vortex (SPV) experienced a unique splitting. We approach the subject from a dynamical systems viewpoint and search for Lagrangian coherent structures usi...

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Published in	Climate dynamics Vol. 53; no. 3-4; pp. 1277 - 1286
Main Authors	Curbelo, Jezabel, Mechoso, Carlos R., Mancho, Ana M., Wiggins, Stephen
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.08.2019 Springer Springer Nature B.V
Subjects	Analysis climate Climatology Computational fluid dynamics Earth and Environmental Science Earth Sciences Evolution Filamentation Flow structures Fluid flow Geophysics/Geodesy Middle stratosphere Oceanography Particle trajectories Polar vortex Splitting spring Stratosphere Stratospheric polar vortexes Stratospheric vortices Stratospheric warming Three dimensional flow Trajectory analysis Vortices Stratospheric warming Filamentation Normally hyperbolic invariant manifold (NHIM) Vortex split Lagrangian transport structures Links between troposphere and stratosphere
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ISSN	0930-7575 1432-0894
DOI	10.1007/s00382-019-04833-x

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Abstract	This two-part paper aims to provide a Lagrangian perspective of the final southern warming in spring of 2002, during which the stratospheric polar vortex (SPV) experienced a unique splitting. We approach the subject from a dynamical systems viewpoint and search for Lagrangian coherent structures using a Lagrangian descriptor that is applied to reanalysis data. Part I presents our methodology and focuses by means of a kinematic model, on the understanding of fundamental processes for filamentation and ultimately for vortex splitting on an isentropic surface in the middle stratosphere. The present Part II discusses the three dimensional evolution of the flow during the selected event. For this, we apply the definition of vortex boundary developed in Part I for guidance in the selection of trajectories to illuminate the evolving flow structures, and invoke a criterion that allows to justify why at an isentropic level a pinched vortex will split in later times. Lagrangian structures identified include surfaces that are several kilometers deep, and which a particle trajectory analysis confirms as barriers to the flow. The role of Lagrangian structures in determining the fate of particles during the SPV splitting is discussed.
AbstractList	This two-part paper aims to provide a Lagrangian perspective of the final southern warming in spring of 2002, during which the stratospheric polar vortex (SPV) experienced a unique splitting. We approach the subject from a dynamical systems viewpoint and search for Lagrangian coherent structures using a Lagrangian descriptor that is applied to reanalysis data. Part I presents our methodology and focuses by means of a kinematic model, on the understanding of fundamental processes for filamentation and ultimately for vortex splitting on an isentropic surface in the middle stratosphere. The present Part II discusses the three dimensional evolution of the flow during the selected event. For this, we apply the definition of vortex boundary developed in Part I for guidance in the selection of trajectories to illuminate the evolving flow structures, and invoke a criterion that allows to justify why at an isentropic level a pinched vortex will split in later times. Lagrangian structures identified include surfaces that are several kilometers deep, and which a particle trajectory analysis confirms as barriers to the flow. The role of Lagrangian structures in determining the fate of particles during the SPV splitting is discussed. This two-part paper aims to provide a Lagrangian perspective of the final southern warming in spring of 2002, during which the stratospheric polar vortex (SPV) experienced a unique splitting. We approach the subject from a dynamical systems viewpoint and search for Lagrangian coherent structures using a Lagrangian descriptor that is applied to reanalysis data. Part I presents our methodology and focuses by means of a kinematic model, on the understanding of fundamental processes for filamentation and ultimately for vortex splitting on an isentropic surface in the middle stratosphere. The present Part II discusses the three dimensional evolution of the flow during the selected event. For this, we apply the definition of vortex boundary developed in Part I for guidance in the selection of trajectories to illuminate the evolving flow structures, and invoke a criterion that allows to justify why at an isentropic level a pinched vortex will split in later times. Lagrangian structures identified include surfaces that are several kilometers deep, and which a particle trajectory analysis confirms as barriers to the flow. The role of Lagrangian structures in determining the fate of particles during the SPV splitting is discussed.
Audience	Academic
Author	Wiggins, Stephen Curbelo, Jezabel Mancho, Ana M. Mechoso, Carlos R.
Author_xml	– sequence: 1 givenname: Jezabel surname: Curbelo fullname: Curbelo, Jezabel email: jezabel.curbelo@uam.es organization: Departamento de Matemáticas, Facultad de Ciencias, Universidad Autónoma de Madrid, Instituto de Ciencias Matemáticas, CSIC-UAM-UC3M-UCM – sequence: 2 givenname: Carlos R. surname: Mechoso fullname: Mechoso, Carlos R. organization: Department of Atmospheric and Oceanic Sciences, University of California Los Angeles – sequence: 3 givenname: Ana M. surname: Mancho fullname: Mancho, Ana M. organization: Instituto de Ciencias Matemáticas, CSIC-UAM-UC3M-UCM – sequence: 4 givenname: Stephen surname: Wiggins fullname: Wiggins, Stephen organization: School of Mathematics, University of Bristol
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Cites_doi	10.1029/95JD02414 10.1002/qj.49711448402 10.1007/978-1-4612-4312-0 10.1175/1520-0469(1991)048<0976:TBOWIT>2.0.CO;2 10.1175/JAS-3318.1 10.1002/qj.2957 10.1175/1520-0493(2003)131<2623:RWBITS>2.0.CO;2 10.1175/1520-0493(1994)122<1115:SOTFSS>2.0.CO;2 10.1175/2008JCLI2365.1 10.5194/npg-24-379-2017 10.1175/1520-0442(1995)008<2659:QSWITS>2.0.CO;2 10.1007/BF02430631 10.5194/essd-9-63-2017 10.1134/S1560354718050052
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Keywords	Stratospheric warming Filamentation Normally hyperbolic invariant manifold (NHIM) Vortex split Lagrangian transport structures Links between troposphere and stratosphere
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References	Mechoso, O’Neill, Pope, Farrara (CR8) 1988; 114 Curbelo, García-Garrido, Mechoso, Mancho, Wiggins, Niang (CR3) 2017; 24 Mezić, Wiggins (CR9) 1994; 4 O’Neill, Oatley, Charlton-Perez, Mitchell, Jung (CR11) 2017; 143 Simmons, Uppala, Dee, Kobayashi (CR15) 2007; 110 Matthewman, Esler, Charlton-Perez, Polvani (CR7) 2009; 22 Manney, Farrara, Mechoso (CR5) 1991; 48 Wiggins (CR16) 1994 Butler, Sjoberg, Seidel, Rosenlof (CR1) 2017; 9 Peters, Waugh (CR12) 2003; 131 Schoeberl, Newman (CR14) 1995; 100 Manney, Farrara, Mechoso (CR6) 1994; 122 Nishii, Nakamura (CR10) 2004; 31 Charlton, O’Neill, Lahoz, Berrisford (CR2) 2005; 66 García-Garrido, Curbelo, Mancho, Wiggins, Mechoso (CR4) 2018; 23 Quintanar, Mechoso (CR13) 1995; 4 MR Schoeberl (4833_CR14) 1995; 100 AH Butler (4833_CR1) 2017; 9 I Mezić (4833_CR9) 1994; 4 CR Mechoso (4833_CR8) 1988; 114 D Peters (4833_CR12) 2003; 131 A O’Neill (4833_CR11) 2017; 143 AJ Charlton (4833_CR2) 2005; 66 VJ García-Garrido (4833_CR4) 2018; 23 A Simmons (4833_CR15) 2007; 110 AI Quintanar (4833_CR13) 1995; 4 GL Manney (4833_CR5) 1991; 48 GL Manney (4833_CR6) 1994; 122 K Nishii (4833_CR10) 2004; 31 NJ Matthewman (4833_CR7) 2009; 22 S Wiggins (4833_CR16) 1994 J Curbelo (4833_CR3) 2017; 24
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SubjectTerms	Analysis climate Climatology Computational fluid dynamics Earth and Environmental Science Earth Sciences Evolution Filamentation Flow structures Fluid flow Geophysics/Geodesy Middle stratosphere Oceanography Particle trajectories Polar vortex Splitting spring Stratosphere Stratospheric polar vortexes Stratospheric vortices Stratospheric warming Three dimensional flow Trajectory analysis Vortices
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Title	Lagrangian study of the final warming in the southern stratosphere during 2002: Part II. 3D structure
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