利用微钠δ18O进行黄土年代学研究的新方法及其在邙山段的应用

IF 1.9 3区 地球科学 Q3 GEOGRAPHY, PHYSICAL
Zeke Zhang , Gaojun Li , Tao Li , Jiaju Zhao , Peixian Shu , Yitong Chen
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引用次数: 0

摘要

莽山剖面是中国黄土高原东南缘稀缺而珍贵的高沉积矿床,可用于高分辨率古气候重建。虽然S2古沉积层以上沉积的年代学在冰期-间冰期的时间尺度上已经确定,但在轨道时间尺度上,特别是在黄土层L2与古沉积层S1的交界处还需要进一步完善。在通过黄土粒度与底栖生物氧同位素(δ18O)记录相关性建立的年龄模型中,海洋同位素阶段5e的古沉积缺失和低磁感应强度与中国黄土高原其他黄土-古沉积序列的观测结果有很大不同。在此,我们分析了邙山剖面上部黄土层L2和古沉积层S1的微钠氧同位素组成,重建了氧同位素地层。将其与绝对年代的岩浆δ18O记录相比较,我们认为古溶胶层S1对应于上一个间冰期,这与中国黄土高原上的其他黄土-古溶胶序列是一致的。我们的研究通过调整微钠δ18O记录与绝对定年的岩浆δ18O记录,为黄土年代学提供了一种新方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A new method for loess chronology by microcodium δ18O and its application to the Mangshan section
Mangshan section is a scarce and valuable high-sedimentation deposit at the southeastern margin of the Chinese Loess Plateau for high-resolution paleoclimate reconstructions. Although the chronology of the deposit above the paleosol layer S2 has been pinned down on the glacial-interglacial timescale, it still needs to be refined at orbital timescale, especially at the boundary from loess layer L2 to paleosol layer S1. In the age model by correlation of loess grain size with the benthic oxygen isotope (δ18O) records, the lack of paleosol and low magnetic susceptibility during the marine isotope stage 5e are substantially different from the observations in other loess-paleosol sequences on the Chinese Loess Plateau. Here, we analyzed the oxygen isotope composition of microcodium from the upper loess layer L2 and paleosol layer S1 of the Mangshan section to reconstruct the oxygen isotopic stratigraphy. Comparing it with the absolute-dating speleothem δ18O record, we suggest corresponding the paleosol layer S1 to the last interglacial, which is consistent with other loess-paleosol sequences on the Chinese Loess Plateau. Our study provides a new method for the loess chronology by tuning the microcodium δ18O record to the absolute-dating speleothem δ18O record.
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来源期刊
Quaternary International
Quaternary International 地学-地球科学综合
CiteScore
5.60
自引率
4.50%
发文量
336
审稿时长
3 months
期刊介绍: Quaternary International is the official journal of the International Union for Quaternary Research. The objectives are to publish a high quality scientific journal under the auspices of the premier Quaternary association that reflects the interdisciplinary nature of INQUA and records recent advances in Quaternary science that appeal to a wide audience. This series will encompass all the full spectrum of the physical and natural sciences that are commonly employed in solving Quaternary problems. The policy is to publish peer refereed collected research papers from symposia, workshops and meetings sponsored by INQUA. In addition, other organizations may request publication of their collected works pertaining to the Quaternary.
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