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J. Sallée, Locean-Ipsl Cnrs (2018)
Southern Ocean WarmingOceanography
W. Cai, B. Ng, Guojian Wang, A. Santoso, Lixin Wu, Kai Yang (2022)
Increased ENSO sea surface temperature variability under four IPCC emission scenariosNature Climate Change, 12
W. Cai, A. Santoso, M. Collins, B. Dewitte, C. Karamperidou, J. Kug, M. Lengaigne, M. Mcphaden, M. Stuecker, A. Taschetto, A. Timmermann, Lixin Wu, S. Yeh, Guojian Wang, B. Ng, Fan Jia, Yun Yang, Jun Ying, Xiao‐Tong Zheng, T. Bayr, Josephine Brown, A. Capotondi, K. Cobb, Bolan Gan, Tao Geng, Y. Ham, F. Jin, H. Jo, Xichen Li, Xiaopei Lin, S. McGregor, Jae‐Heung Park, Karl Stein, Kai Yang, Li Zhang, Wenxiu Zhong (2021)
Changing El Niño–Southern Oscillation in a warming climateNature Reviews Earth & Environment, 2
MR England (2020)
Tropical climate responses to projected Arctic and Antarctic sea ice lossNat. Geosci., 13
J. Fyfe, O. Saenko, K. Zickfeld, M. Eby, A. Weaver (2007)
The Role of Poleward-Intensifying Winds on Southern Ocean WarmingJournal of Climate, 20
(2018)
This review article presents observations and projections of Southern Ocean warming, and the mechanisms and the associated impacts
A projected change in the El Niño–Southern Oscillation (ENSO) is found to induce a change in high-latitude winds, thereby affecting future Southern Ocean warming. A greater projected increase in ENSO amplitude in response to transient greenhouse forcing weakens high-latitude westerly poleward intensification and slows future Southern Ocean warming.
Nature Climate Change – Springer Journals
Published: Jul 1, 2022
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