Coupled Atmosphere-ice-ocean Dynamics During Heinrich Stadial 2

Overview

Journal Nat Commun

Specialty Biology

Date 2022 Oct 4

PMID 36195764

Authors

Xiyu Dong

Gayatri Kathayat

Sune O Rasmussen

Anders Svensson

Jeffrey P Severinghaus

Hanying Li

Ashish Sinha

Yao Xu

Haiwei Zhang

Zhengguo Shi

Yanjun Cai

Carlos Perez-Mejias

Jonathan Baker

Jingyao Zhao

Christoph Spotl

Andrea Columbu

Youfeng Ning

Nicolas M Strikis

Shitao Chen

Xianfeng Wang

Anil K Gupta

Som Dutt

Fan Zhang

Francisco W Cruz

Zhisheng An

R Lawrence Edwards

Hai Cheng

Affiliations

Soon will be listed here.

Abstract

Our understanding of climate dynamics during millennial-scale events is incomplete, partially due to the lack of their precise phase analyses under various boundary conditions. Here we present nine speleothem oxygen-isotope records from mid-to-low-latitude monsoon regimes with sub-centennial age precision and multi-annual resolution, spanning the Heinrich Stadial 2 (HS2) - a millennial-scale event that occurred at the Last Glacial Maximum. Our data suggests that the Greenland and Antarctic ice-core chronologies require +320- and +400-year adjustments, respectively, supported by extant volcanic evidence and radiocarbon ages. Our chronological framework shows a synchronous HS2 onset globally. Our records precisely characterize a centennial-scale abrupt "tropical atmospheric seesaw" superimposed on the conventional "bipolar seesaw" at the beginning of HS2, implying a unique response/feedback from low-latitude hydroclimate. Together with our observation of an early South American monsoon shift at the HS2 termination, we suggest a more active role of low-latitude hydroclimate dynamics underlying millennial events than previously thought.

Citing Articles

Bipolar impact and phasing of Heinrich-type climate variability.

Martin K, Buizert C, Edwards J, Kalk M, Riddell-Young B, Brook E Nature. 2023; 617(7959):100-104.

PMID: 37095266 DOI: 10.1038/s41586-023-05875-2.

Milankovitch theory and monsoon.

Cheng H, Li H, Sha L, Sinha A, Shi Z, Yin Q Innovation (Camb). 2022; 3(6):100338.

PMID: 36353675 PMC: 9637977. DOI: 10.1016/j.xinn.2022.100338.

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