Possible obliquity-forced warmth in southern Asia during the last glacial stage

• Published in: Science bulletin Vol. 66; no. 11; pp. 1136 - 1145
• Main Authors: Zhao, Cheng, Rohling, Eelco J., Liu, Zhengyu, Yang, Xiaoqiang, Zhang, Enlou, Cheng, Jun, Liu, Zhonghui, An, Zhisheng, Yang, Xiangdong, Feng, Xiaoping, Sun, Xiaoshuang, Zhang, Can, Yan, Tianlong, Long, Hao, Yan, Hong, Yu, Zicheng, Liu, Weiguo, Yu, Shi-Yong, Shen, Ji
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 15.06.2021
• Subjects: air temperature; Annual temperature; archaeology; brGDGTs; China; climate change; climate models; humans; Lake sediments; lakes; land; latitude; monsoon season; Obliquity forcing; solar radiation; South Asia; Southern Asia; summer; The last glacial stage; China; South Asia; The last glacial stage; brGDGTs; Lake sediments; Obliquity forcing; Annual temperature; Southern Asia
• ISSN: 2095-9273; 2095-9281
• DOI: 10.1016/j.scib.2020.11.016

[Display omitted] Orbital-scale global climatic changes during the late Quaternary are dominated by high-latitude influenced ~100,000-year global ice-age cycles and monsoon influenced ~23,000-year low-latitude hydroclimate variations. However, the shortage of highly-resolved land temperature records remains a limiting factor for achieving a comprehensive understanding of long-term low-latitude terrestrial climatic changes. Here, we report paired mean annual air temperature (MAAT) and monsoon intensity proxy records over the past 88,000 years from Lake Tengchongqinghai in southwestern China. While summer monsoon intensity follows the ~23,000-year precession beat found also in previous studies, we identify previously unrecognized warm periods at 88,000–71,000 and 45,000–22,000 years ago, with 2–3 °C amplitudes that are close to our recorded full glacial-interglacial range. Using advanced transient climate simulations and comparing with forcing factors, we find that these warm periods in our MAAT record probably depends on local annual mean insolation, which is controlled by Earth’s ~41,000-year obliquity cycles and is anti-phased to annual mean insolation at high latitudes. The coincidence of our identified warm periods and intervals of high-frequent dated archaeological evidence highlights the importance of temperature on anatomically modern humans in Asia during the last glacial stage.