Seasonal variability of the subpolar gyres in the Southern Ocean: A numerical investigation based on transfer operators

M. Dellnitz; G. Froyland; C. Horenkamp; K. Padberg-Gehle; A. Sen Gupta

doi:10.5194/npg-16-655-2009

Seasonal variability of the subpolar gyres in the Southern Ocean: A numerical investigation based on transfer operators

M. Dellnitz^*
, G. Froyland
, C. Horenkamp
, K. Padberg-Gehle
, A. Sen Gupta

^*Korrespondierende/r Autor/-in für diese Arbeit

Publikation: Beiträge in Zeitschriften › Zeitschriftenaufsätze › Forschung › Begutachtung

69 Zitate (Scopus)

Abstract

The detection of regions in the ocean that are coherent over an extended period of time is a fundamental problem in many oceanic applications. For instance such regions are important for studying the transport of marine species and for the distribution of nutrients. In this study we demonstrate the efficacy of transfer operators in detecting and analysing such structures. We focus first on the detection of the Weddell and Ross Gyre for the four seasons spanning December 2003-November 2004 within the 3-D oceanic domain south of 30° S, and show distinct seasonal differences in both the three-dimensional structure and the persistence of the gyres. Further, we demonstrate a new technique based on the discretised transfer operators to calculate the mean residence time of water within parts of the gyres and determine pathways of water leaving and entering the gyres.

Originalsprache	Englisch
Zeitschrift	Nonlinear Processes in Geophysics
Jahrgang	16
Ausgabenummer	6
Seiten (von - bis)	655-663
Seitenumfang	10
ISSN	1023-5809
DOIs	https://doi.org/10.5194/npg-16-655-2009
Publikationsstatus	Erschienen - 08.12.2009
Extern publiziert	Ja

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Statistische und nichtlineare Physik
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Geophysik

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abstract = "The detection of regions in the ocean that are coherent over an extended period of time is a fundamental problem in many oceanic applications. For instance such regions are important for studying the transport of marine species and for the distribution of nutrients. In this study we demonstrate the efficacy of transfer operators in detecting and analysing such structures. We focus first on the detection of the Weddell and Ross Gyre for the four seasons spanning December 2003-November 2004 within the 3-D oceanic domain south of 30° S, and show distinct seasonal differences in both the three-dimensional structure and the persistence of the gyres. Further, we demonstrate a new technique based on the discretised transfer operators to calculate the mean residence time of water within parts of the gyres and determine pathways of water leaving and entering the gyres.",

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T2 - A numerical investigation based on transfer operators

AU - Dellnitz, M.

AU - Froyland, G.

AU - Horenkamp, C.

AU - Padberg-Gehle, K.

AU - Sen Gupta, A.

PY - 2009/12/8

Y1 - 2009/12/8

N2 - The detection of regions in the ocean that are coherent over an extended period of time is a fundamental problem in many oceanic applications. For instance such regions are important for studying the transport of marine species and for the distribution of nutrients. In this study we demonstrate the efficacy of transfer operators in detecting and analysing such structures. We focus first on the detection of the Weddell and Ross Gyre for the four seasons spanning December 2003-November 2004 within the 3-D oceanic domain south of 30° S, and show distinct seasonal differences in both the three-dimensional structure and the persistence of the gyres. Further, we demonstrate a new technique based on the discretised transfer operators to calculate the mean residence time of water within parts of the gyres and determine pathways of water leaving and entering the gyres.

AB - The detection of regions in the ocean that are coherent over an extended period of time is a fundamental problem in many oceanic applications. For instance such regions are important for studying the transport of marine species and for the distribution of nutrients. In this study we demonstrate the efficacy of transfer operators in detecting and analysing such structures. We focus first on the detection of the Weddell and Ross Gyre for the four seasons spanning December 2003-November 2004 within the 3-D oceanic domain south of 30° S, and show distinct seasonal differences in both the three-dimensional structure and the persistence of the gyres. Further, we demonstrate a new technique based on the discretised transfer operators to calculate the mean residence time of water within parts of the gyres and determine pathways of water leaving and entering the gyres.

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Seasonal variability of the subpolar gyres in the Southern Ocean: A numerical investigation based on transfer operators

Abstract

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