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Timing and structure of early-Holocene climate anomalies inferred from north Chinese stalagmite records

https://doi.org/10.1177/09596836211033218

Duan, Wuhui ; Ma, Zhibang ; Tan, Ming ; Cheng, Hai ; Edwards, R. Lawrence ; Wen, Xinyu ; Wang, Xuefeng ; Wang, Lisheng ( October 2021 , The Holocene)
null (Ed.)
In this paper, a new decadal resolution stalagmite δ18O record covering 10.4–6.5 ka BP from Kulishu cave in Beijing, north China is presented in combination with the published stalagmite δ18 O record covering 10.4–14.0 ka BP in the same cave. Five significant monsoon collapses were identified around 11.5, 11.0, 10.0, 9.4, and 8.2 ka BP as well as three smaller ones around 10.3, 9.0, and 8.6 ka BP. The weak monsoon episodes around 8.6 and 8.2 ka BP form the two-step structure of the 8.2 ka event. All monsoon collapses, coeval with the cooling in northern high-latitude records, are correlated with Lakes Agassiz-Ojibway outbursts. Thus, our data support the idea of freshwater forcing of abrupt climate anomalies during the early Holocene. Nevertheless, the decreased irradiance together with freshwater outburst may account for the 9.2/9.3 ka event, which is expressed more significantly in low-latitude records.
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How far poleward can the seasonal precipitation maxima over land extend under high obliquity?

https://doi.org/10.1007/s00382-020-05225-2

Han, Jing ; Back, Larissa E. ; Liu, Zhengyu ; Wen, Xinyu ( May 2020 , Climate Dynamics)
null (Ed.)
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Increasing Difference in Interannual Summertime Surface Air Temperature Between Interior East Antarctica and the Antarctic Peninsula Under Future Climate Scenarios

https://doi.org/10.1029/2020GL092031

Mao, Rui ; Kim, Seong‐Joong ; Gong, Dao‐Yi ; Liu, Xiaohong ; Wen, Xinyu ; Zhang, Liping ; Tang, Feng ; Zong, Qi ; Xiao, Cunde ; Ding, Minghu ; et al ( August 2021 , Geophysical Research Letters)

Plain Language Summary
Melting of the Antarctic ice sheet and shelf in the future will be influenced by interannual changes in the surface air temperature (SAT) in Antarctica. The SAT changes in Antarctica are related to variations in the Southern Hemisphere Annular Mode (SAM) during the austral summer. The SAM is a dominant pattern of atmospheric variability in the Southern Hemisphere and influences the Antarctic SAT with opposite changes between the northern Antarctic Peninsula (AP) and Eastern Antarctica (EA). To project future changes in the Antarctic SAT, we analyzed historical and future simulations from the Climate Model Intercomparison Project 5 models. We found that the degree of opposite interannual SAT changes between EA and the AP increases in the future due to intensified magnitude of the SAM‐related circulation anomalies, and summers of warmer SAT in the northern AP and cooler SAT in EA increase by 4% in the future compared to the historical period. This finding has major consequences for glacier melting in the northern AP in the future because more days of extremely high SAT in the northern AP may occur in the future.

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