The centennial-resolution loess δDwax record indicates summer precipitation variations in the marginal region of the East Asian monsoon during the last deglaciation

黄土 石笋 地质学 东亚季风 冰消 降水 季风 气候学 西风带 年表 δ18O 冰芯 全新世 自然地理学 海洋同位素阶段 古气候学 冰期 气候变化 稳定同位素比值 海洋学 地理 古生物学 间冰期 物理 量子力学 气象学
作者
Zheng Wang,Fan Zhang,Meng Xing,Yunning Cao,Jing Hu,Jibao Dong,Huanye Wang,Hongxuan Lu,Hu Liu,Zhonghui Liu,Weiguo Liu
出处
期刊:Palaeogeography, Palaeoclimatology, Palaeoecology [Elsevier BV]
卷期号:635: 111961-111961 被引量:8
标识
DOI:10.1016/j.palaeo.2023.111961
摘要

Precipitation isotopic composition variations that are directly recorded in geological samples play an important role in understanding past hydroclimatic changes. In arid regions, the hydrogen isotopes of leaf wax (δDwax) in loess sections can provide records of summer precipitation isotopes. However, previous studies have primarily focused on the orbital scale, and there was still a lack of clear understanding of variations in precipitation isotopes on shorter timescales and their implications for climate change. In this study, we report centennial-resolution loess δDwax records from the central Chinese Loess Plateau (CLP) from the last deglaciation to the early Holocene. We compared the loess optically stimulated luminescence chronology and U-Th ages conveyed by linking stalagmite δ18O and loess δDwax to validate the δDwax method as a potential tool for assessing loess chronology on the suborbital scale. Our findings also indicated that regional precipitation isotopes experienced a depletion of approximately 24‰ for δD and around 3.2‰ for δ18O during the last deglaciation. The overall precipitation isotope amplitude in the central CLP was similar to that of typical East Asian monsoon regions and lower than that of the Indian monsoon and westerly regions. However, the precipitation isotope oscillations on the millennial scale in the central CLP were significantly weaker than those in eastern to central China. The finding affirmed that although the summer precipitation in the CLP was primarily influenced by the East Asian monsoon system at the orbital scale, the northern boundary of the summer rain belt remained a distance away from the interior of the CLP during the last deglaciation. As a result, the short-term oscillations of atmospheric circulation were not strongly reflected in the precipitation isotopes of the central CLP. This result highlighted spatial and temporal differences in precipitation isotope variability between the dominant and marginal regions of the East Asian monsoon system.
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