Tropical forcing of increased Southern Ocean climate variability revealed by a 140-year subantarctic temperate reconstruction

Chris S. M. Turney; Christopher J. Fogwill; Jonathan Gray Palmer; Erik van Sebille; Zoë A. Thomas; Matt S. McGlone; Sarah J. Richardson; Janet M. Wilmshurst; Pavla Fenwick; Violette Zunz; Hugues Goosse; Kerry-Jayne Wilson; Lionel Carter; Mathew J. Lipson; Richard T. Jones; Melanie Harsch; Graeme F. Clark; Ezequiel M. Marzinelli; Tracey Rogers; Eleanor B. Rainsley; Laura Ciasto; Stephanie Waterman; Elizabeth R. Thomas; Martin Visbeck

doi:10.5194/cp-2016-114

Tropical forcing of increased Southern Ocean climate variability revealed by a 140-year subantarctic temperate reconstruction

Chris S. M. Turney, Christopher J. Fogwill, Jonathan Gray Palmer, Erik van Sebille, Zoë A. Thomas, Matt S. McGlone, Sarah J. Richardson, Janet M. Wilmshurst, Pavla Fenwick, Violette Zunz, Hugues Goosse, Kerry-Jayne Wilson, Lionel Carter, Mathew J. Lipson, Richard T. Jones, Melanie Harsch, Graeme F. Clark, Ezequiel M. Marzinelli, Tracey Rogers, Eleanor B. RainsleyLaura Ciasto, Stephanie Waterman, Elizabeth R. Thomas, Martin Visbeck

School of Engineering & Physical Sciences

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Abstract

Occupying about 14 % of the world’s surface, the Southern Ocean plays a fundamental role in ocean and atmosphere circulation, carbon cycling and Antarctic ice-sheet dynamics. Unfortunately, high interannual variability and a dearth of instrumental observations before the 1950s limit sour understanding of how marine–atmosphere–ice domains interact on multi-decadal timescales and the impact of anthropogenic forcing. Here we integrate climate-sensitive tree growth with ocean and atmospheric observations on southwest Pacific subantarctic islands that lie at the boundary of polar and subtropical climates (52–54◦ S). Our annually resolved temperature reconstruction captures regional change since the 1870s and demonstrates a significant increase invariability from the 1940s, a phenomenon predating the observational record. Climate reanalysis and modelling show a parallel change in tropical Pacific sea surface temperatures that generate an atmospheric Rossby wave train which propagates across a large part of the Southern Hemisphere during the austral spring and summer. Our results suggest that modern observed high interannual variability was established across the mid-twentieth century, and that the influence of contemporary equatorial Pacific temperatures may now be a permanent feature across the mid- to high latitudes.

Original language	English
Pages (from-to)	231–248
Number of pages	18
Journal	Climate of the Past
Volume	13
Issue number	3
DOIs	https://doi.org/10.5194/cp-2016-114
Publication status	Published - 15 Mar 2017

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Turney, C. S. M., Fogwill, C. J., Palmer, J. G., van Sebille, E., Thomas, Z. A., McGlone, M. S., Richardson, S. J., Wilmshurst, J. M., Fenwick, P., Zunz, V., Goosse, H., Wilson, K.-J., Carter, L., Lipson, M. J., Jones, R. T., Harsch, M., Clark, G. F., Marzinelli, E. M., Rogers, T., ... Visbeck, M. (2017). Tropical forcing of increased Southern Ocean climate variability revealed by a 140-year subantarctic temperate reconstruction. Climate of the Past, 13(3), 231–248. https://doi.org/10.5194/cp-2016-114

@article{58b15ce11a20463bb790344f9e1b876c,

title = "Tropical forcing of increased Southern Ocean climate variability revealed by a 140-year subantarctic temperate reconstruction",

abstract = "Occupying about 14 \% of the world{\textquoteright}s surface, the Southern Ocean plays a fundamental role in ocean and atmosphere circulation, carbon cycling and Antarctic ice-sheet dynamics. Unfortunately, high interannual variability and a dearth of instrumental observations before the 1950s limit sour understanding of how marine–atmosphere–ice domains interact on multi-decadal timescales and the impact of anthropogenic forcing. Here we integrate climate-sensitive tree growth with ocean and atmospheric observations on southwest Pacific subantarctic islands that lie at the boundary of polar and subtropical climates (52–54◦ S). Our annually resolved temperature reconstruction captures regional change since the 1870s and demonstrates a significant increase invariability from the 1940s, a phenomenon predating the observational record. Climate reanalysis and modelling show a parallel change in tropical Pacific sea surface temperatures that generate an atmospheric Rossby wave train which propagates across a large part of the Southern Hemisphere during the austral spring and summer. Our results suggest that modern observed high interannual variability was established across the mid-twentieth century, and that the influence of contemporary equatorial Pacific temperatures may now be a permanent feature across the mid- to high latitudes.",

author = "Turney, \{Chris S. M.\} and Fogwill, \{Christopher J.\} and Palmer, \{Jonathan Gray\} and \{van Sebille\}, Erik and Thomas, \{Zo{\"e} A.\} and McGlone, \{Matt S.\} and Richardson, \{Sarah J.\} and Wilmshurst, \{Janet M.\} and Pavla Fenwick and Violette Zunz and Hugues Goosse and Kerry-Jayne Wilson and Lionel Carter and Lipson, \{Mathew J.\} and Jones, \{Richard T.\} and Melanie Harsch and Clark, \{Graeme F.\} and Marzinelli, \{Ezequiel M.\} and Tracey Rogers and Rainsley, \{Eleanor B.\} and Laura Ciasto and Stephanie Waterman and Thomas, \{Elizabeth R.\} and Martin Visbeck",

year = "2017",

month = mar,

day = "15",

doi = "10.5194/cp-2016-114",

language = "English",

volume = "13",

pages = "231–248",

journal = "Climate of the Past",

issn = "1814-9324",

publisher = "Copernicus Publications",

number = "3",

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Turney, CSM, Fogwill, CJ, Palmer, JG, van Sebille, E, Thomas, ZA, McGlone, MS, Richardson, SJ, Wilmshurst, JM, Fenwick, P, Zunz, V, Goosse, H, Wilson, K-J, Carter, L, Lipson, MJ, Jones, RT, Harsch, M, Clark, GF, Marzinelli, EM, Rogers, T, Rainsley, EB, Ciasto, L, Waterman, S, Thomas, ER & Visbeck, M 2017, 'Tropical forcing of increased Southern Ocean climate variability revealed by a 140-year subantarctic temperate reconstruction', Climate of the Past, vol. 13, no. 3, pp. 231–248. https://doi.org/10.5194/cp-2016-114

TY - JOUR

T1 - Tropical forcing of increased Southern Ocean climate variability revealed by a 140-year subantarctic temperate reconstruction

AU - Turney, Chris S. M.

AU - Fogwill, Christopher J.

AU - Palmer, Jonathan Gray

AU - van Sebille, Erik

AU - Thomas, Zoë A.

AU - McGlone, Matt S.

AU - Richardson, Sarah J.

AU - Wilmshurst, Janet M.

AU - Fenwick, Pavla

AU - Zunz, Violette

AU - Goosse, Hugues

AU - Wilson, Kerry-Jayne

AU - Carter, Lionel

AU - Lipson, Mathew J.

AU - Jones, Richard T.

AU - Harsch, Melanie

AU - Clark, Graeme F.

AU - Marzinelli, Ezequiel M.

AU - Rogers, Tracey

AU - Rainsley, Eleanor B.

AU - Ciasto, Laura

AU - Waterman, Stephanie

AU - Thomas, Elizabeth R.

AU - Visbeck, Martin

PY - 2017/3/15

Y1 - 2017/3/15

N2 - Occupying about 14 % of the world’s surface, the Southern Ocean plays a fundamental role in ocean and atmosphere circulation, carbon cycling and Antarctic ice-sheet dynamics. Unfortunately, high interannual variability and a dearth of instrumental observations before the 1950s limit sour understanding of how marine–atmosphere–ice domains interact on multi-decadal timescales and the impact of anthropogenic forcing. Here we integrate climate-sensitive tree growth with ocean and atmospheric observations on southwest Pacific subantarctic islands that lie at the boundary of polar and subtropical climates (52–54◦ S). Our annually resolved temperature reconstruction captures regional change since the 1870s and demonstrates a significant increase invariability from the 1940s, a phenomenon predating the observational record. Climate reanalysis and modelling show a parallel change in tropical Pacific sea surface temperatures that generate an atmospheric Rossby wave train which propagates across a large part of the Southern Hemisphere during the austral spring and summer. Our results suggest that modern observed high interannual variability was established across the mid-twentieth century, and that the influence of contemporary equatorial Pacific temperatures may now be a permanent feature across the mid- to high latitudes.

AB - Occupying about 14 % of the world’s surface, the Southern Ocean plays a fundamental role in ocean and atmosphere circulation, carbon cycling and Antarctic ice-sheet dynamics. Unfortunately, high interannual variability and a dearth of instrumental observations before the 1950s limit sour understanding of how marine–atmosphere–ice domains interact on multi-decadal timescales and the impact of anthropogenic forcing. Here we integrate climate-sensitive tree growth with ocean and atmospheric observations on southwest Pacific subantarctic islands that lie at the boundary of polar and subtropical climates (52–54◦ S). Our annually resolved temperature reconstruction captures regional change since the 1870s and demonstrates a significant increase invariability from the 1940s, a phenomenon predating the observational record. Climate reanalysis and modelling show a parallel change in tropical Pacific sea surface temperatures that generate an atmospheric Rossby wave train which propagates across a large part of the Southern Hemisphere during the austral spring and summer. Our results suggest that modern observed high interannual variability was established across the mid-twentieth century, and that the influence of contemporary equatorial Pacific temperatures may now be a permanent feature across the mid- to high latitudes.

U2 - 10.5194/cp-2016-114

DO - 10.5194/cp-2016-114

M3 - Article

SN - 1814-9324

VL - 13

SP - 231

EP - 248

JO - Climate of the Past

JF - Climate of the Past

IS - 3

ER -

Tropical forcing of increased Southern Ocean climate variability revealed by a 140-year subantarctic temperate reconstruction

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