Dominant features of phasic evolutions in the winter Arctic-midlatitude linkage since 1979

Over the past decades, the Arctic-midlatitude linkage has been extensively explored. Recent studies have suggested that the characteristics of phasic evolutions in the relationship between the Arctic warming and midlatitudes remain elusive. Therefore, this study systematically investigates this issu...

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Published inEnvironmental research letters Vol. 19; no. 10; pp. 104037 - 104047
Main Authors Wang, Yuxin, Wu, Bingyi
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.10.2024
Subjects
Arctic warming
Arctic-midlatitude linkage
Evolution
Latitude
Orthogonal functions
phasic evolution
Sea ice
Winter
Arctic region
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Abstract Over the past decades, the Arctic-midlatitude linkage has been extensively explored. Recent studies have suggested that the characteristics of phasic evolutions in the relationship between the Arctic warming and midlatitudes remain elusive. Therefore, this study systematically investigates this issue by using running empirical orthogonal function and moving correlation, and the results show a phasic alternation process in the relationship between the tropospheric thickness over the Barents–Kara Seas (BKS) and East Asian temperature, characterized by a phasic weak (P1: 1979–2000)–strong (P2: 2001–2011)–weak (P3: 2012–2021) connection. Our results highlight that since the winter of 2010, despite the Arctic sea ice being in an exceptionally reduced phase and continuous Arctic warming, the Arctic-midlatitude connection has not exhibited sustained strengthening relative to P2 phase. Moreover, it is found that changes of the connection between the BKS warming and the East Asian winter Monsoon may contribute to this phasic evolution, and the Arctic Oscillation plays an important role in modulating their phasic evolutions. The conclusions of this study help to deepen our understanding of the evolution of the strength and weakness of the relationship between Arctic warming and climate variations in midlatitudes.
AbstractList Over the past decades, the Arctic-midlatitude linkage has been extensively explored. Recent studies have suggested that the characteristics of phasic evolutions in the relationship between the Arctic warming and midlatitudes remain elusive. Therefore, this study systematically investigates this issue by using running empirical orthogonal function and moving correlation, and the results show a phasic alternation process in the relationship between the tropospheric thickness over the Barents–Kara Seas (BKS) and East Asian temperature, characterized by a phasic weak (P1: 1979–2000)–strong (P2: 2001–2011)–weak (P3: 2012–2021) connection. Our results highlight that since the winter of 2010, despite the Arctic sea ice being in an exceptionally reduced phase and continuous Arctic warming, the Arctic-midlatitude connection has not exhibited sustained strengthening relative to P2 phase. Moreover, it is found that changes of the connection between the BKS warming and the East Asian winter Monsoon may contribute to this phasic evolution, and the Arctic Oscillation plays an important role in modulating their phasic evolutions. The conclusions of this study help to deepen our understanding of the evolution of the strength and weakness of the relationship between Arctic warming and climate variations in midlatitudes.
Author Wu, Bingyi
Wang, Yuxin
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Snippet Over the past decades, the Arctic-midlatitude linkage has been extensively explored. Recent studies have suggested that the characteristics of phasic...
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SubjectTerms Arctic warming
Arctic-midlatitude linkage
Evolution
Latitude
Orthogonal functions
phasic evolution
Sea ice
Winter
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Title Dominant features of phasic evolutions in the winter Arctic-midlatitude linkage since 1979
URI https://iopscience.iop.org/article/10.1088/1748-9326/ad7476
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