过去 14 ka 期间黄土-沙漠过渡带（中国北部）的东亚季风变化及其与 TraCE21K 模拟结果的比较

IF 1.7 3区地球科学 Q3 GEOGRAPHY, PHYSICAL

Quaternary Research Pub Date : 2024-02-08 DOI:10.1017/qua.2023.76

Yao Gu, Huayu Lu, Jingjing Wang, Hongyan Zhang, Wenchao Zhang, Chenghong Liang, Jiang Wu

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引用次数: 0

摘要

全新世是了解东亚季风系统（EAM）长时间尺度的关键时期，但目前尚缺乏东亚季风边缘全新世的高精度测年和高分辨率记录。在此，我们以中国黄土高原北部典型的黄土-页岩序列中获得的近间隔放射性碳和光致发光测年结果为基础，提供了过去约 14 ka 年间东亚夏季季风和冬季季风变化的独立的基于年龄的高分辨率沉积记录。我们发现，东亚夏季季风和冬季季风在全新世最适期（约 7-5 ka BP）的某个时期同时增强，季节性更强，而在全新世晚期则减弱。这些发现与我们根据冰期亚轨道尺度的黄土记录对 EAM 变化的理解相反，为季风系统的演变提供了另一种方案。我们推测，高纬度强迫和地表反馈（如植被变化）调节了全新世温暖时期的 EAM 变化。

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East Asian monsoon variations in the loess–desert transitional zone (northern China) during the past 14 ka and their comparison with TraCE21K simulation results

The Holocene is a critical period for understanding the East Asian monsoon system (EAM) over long timescales, but high-precision dating and high-resolution records from the Holocene epoch at monsoonal margins of East Asia are lacking. Here, on the basis of closely spaced radiocarbon and optically stimulated luminescence dating results obtained from a typical loess–paleosol sequence on the northern Chinese Loess Plateau (CLP), we provide an independent age-based, high-resolution depositional record of East Asian summer (EASM) and winter monsoons (EAWM) variations over the past ~14 ka. We find that both the EASM and EAWM simultaneously strengthened sometime during the Holocene optimum (~7–5 ka BP), with greater seasonality, and weakened during the Late Holocene. These findings are counterintuitive to our understanding of the EAM variations based on loess records at suborbital scales during interglacial periods, providing an alternative scenario of the monsoon system evolution. We postulate that high-latitude forcing and surface feedbacks, such as vegetation change, have modulated the EAM variations during the Holocene warmth.

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来源期刊

Quaternary Research 地学-地球科学综合

CiteScore

4.70

自引率

8.70%

发文量

审稿时长

3 months

期刊介绍： Quaternary Research is an international journal devoted to the advancement of the interdisciplinary understanding of the Quaternary Period. We aim to publish articles of broad interest with relevance to more than one discipline, and that constitute a significant new contribution to Quaternary science. The journal’s scope is global, building on its nearly 50-year history in advancing the understanding of earth and human history through interdisciplinary study of the last 2.6 million years.