中国科学院大气物理研究所大气科学和地球流体力学数值模拟国家重点实验室
State Key Laboratory of Numerical Modeling for Atmospheric Sciences and
Geophysical Fluid Dynamics (LASG)
Institute of Atmospheric Physics, Chinese Academy of Sciences

Vol.17/No.17 April 2022

Multi-sphere Interactions Underlie the Impact of the Arctic on Eurasian Climate Change

Observations suggest a warming trend in the Arctic, and a cooling trend in Eurasia during the past several decades. Is there a cause-and-effect relationship in this pattern? The question has been hotly debated for quite a while and a recent work published in Climate Dynamics made advancement on this topic. This work suggests that the Arctic climate is one of the factors driving the overall trend and decadal variability of Eurasian temperature.

The study, conducted by researchers from CAS Institute of Atmospheric Physics and Lanzhou University, proposes a dynamic and thermodynamic coupling view of how the Arctic drives Eurasian climate variability and underlying multi-sphere interactions. Additionally, the study compared cases in various time scales, i.e., overall trend, decadal and interannual variability.

"In summer, the key factors in multi-sphere interactions are sea ice, surface solar radiation, and subsurface ocean heat uptake.” Said Dr. XIE Yongkun, the lead author of the study. "In winter, the key factors are sea ice, surface sensible heat, diabatic heating of the atmosphere, interaction between the Arctic and mid-latitude, and large-scale circulation."

Schematic view of the multisphere interactions. (Image by XIE Yongkun)

The story, according to the team, starts from summer when absorption of solar radiation by the subsurface ocean over the sea ice loss region (Barents-Kara Sea) is enhanced. The energy is then released to the atmosphere via sensible heat in winter through vertical diffusion and causes local circulation anomaly and enhanced warming. The background strong baroclinicity of the atmosphere in mid-high latitudes further stimulates the interactions between atmospheric circulation and sea surface sensible heat, and eventually generates the anticyclonic circulation over the Arctic-Eurasia sector and warm Arctic--cold Eurasia (downstream of the enhanced Arctic warming) pattern.

"The comprehensive mechanisms from the summertime Earth's surface and subsurface ocean to the wintertime atmosphere suggest a driving role of the Arctic." Said Prof. LIU Yimin, the corresponding author of the study. "Many previous studies jumped to conclusions by generalizing interannual variability to overall trend and therefore caused much debate. I hope our study could clarify the dispute by pointing out that the situation in interannual variability is more complex than the overall trend and decadal variability. It is because the persistence of the influence of summertime sea ice on wintertime climate variation is weak in terms of interannual variability."

This work is supported by the National Natural Science Foundation of China (41730963, 91937302, 42030602).

Reference:
Xie Y., Wu G., Liu* Y., Huang J., Nie H. (2021). A dynamic and thermodynamic coupling view of the linkages between Eurasian cooling and Arctic warming. Climate Dynamics, https://doi.org/10.1007/s00382-021-06029-8.

Link:https://link.springer.com/article/10.1007%2Fs00382-021-06029-8

Contact: LIU Yimin, lym@lasg.iap.ac.cn

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Editors: Chuanyi Wang (wangcy@lasg.iap.ac.cn), Kangjun Chen(ckj@lasg.iap.ac.cn)