山东青州黄土的磁地层学及物源

Shuzhen Peng, Lijun Zhu, G. Xiao, Y. Qiao, Zhidong Gao, Dongdong Chen
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引用次数: 9

摘要

鲁中山区北侧的山间峡谷和山前地带广泛分布着不同厚度的黄土沉积。然而,黄土沉积的基本年龄和物质来源尚不清楚。本文采用磁地层学和光学激发发光(OSL)方法对山东青州黄土剖面进行了研究,并用矿物学方法进一步研究了其主要物源。磁地层学结果表明,该区未发现B/M (brown - hes/Matuyama)逆转界线,基底年龄小于0.78 Ma。根据沉积速率推算,从OSL时代开始,青州黄土的基底年龄约为0.5 Ma。到目前为止,鲁中山区北侧还没有发现更古老的黄土沉积。研究结果表明,该区黄土沉积可能形成于中更新世。青州黄土的基龄与长江中下游的下蜀黄土基本同步。青州剖面粘土矿物主要成分以伊利石为主。其他粘土矿物组成主要为蒙脱石、绿泥石和高岭石,与黄土高原西峰黄土相似。青州黄土样品中蒙脱石的含量、伊利石和高岭石的比值均高于黄土高原西峰黄土样品,说明鲁中山区北侧的黄土与黄土高原的黄土矿床来源不同。黏土矿物分析进一步证实了前人的结论,即冰川期莱州湾海相地层和黄河下游河流平原是青州黄土沉积的主要物质来源,是黄河下游局部干旱化的指示物。鲁中山区黄土沉积开始于0.5 Ma左右。青州黄土的年龄与中更新世以来持续的高纬寒流大致同步,这表明增强的东亚冬季风有足够的能量将莱州湾和黄河下游河流平原暴露的海相地层中的大量物质带到了鲁中山区。结果表明,中更新世以来青州黄土的形成既有区域地质作用的影响,也有全球变化的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Magnetostratigraphy and provenance of the Qingzhou loess in Shandong province
Loess deposits with varying thickness are widely distributed on the intermontane valleys and piedmont zones on the northern side of the central Shandong mountainous regions. However, the basal ages and material resources of the loess deposits are not clear. The paper studied the Qingzhou loess profile in Shandong with magnetostratigraphic and optical stimulated luminescence (OSL) methods and further investigated its main provenances with the mineralogical methods. The magnetostratigraphic results showed that the Brun- hes/Matuyama (B/M) reversal boundary was not recognized, suggesting a basal age younger than 0.78 Ma. Ex- trapolations by sedimentation rates, based on the upper part depositional rate from the OSL age, the basal age of the Qingzhou loess is about 0.5 Ma. Until now, older loess deposits have not been reported on the northern side of the central Shandong mountainous regions. The results of the paper indicate that the loess deposits in this area might have strated from the Middle Pleistocene. The basal age of Qingzhou loess is approximately synchronous with the Xiashu loess in the middle-lower reaches of Yangtze River. Major components of clay minerals in the Qingzhou profile are dominated by illite. Other clay mineral compositions are mainly smectite, chlorite and kaolinite, which are similar with the Xifeng loess in the Loess Plateau. However, the contents of smectite and the ratios of illite and kaolinte in the Qingzhou loess samples are higher than those in the Xifeng loess samples of the Loess Plateau, indicating that the loess in the northern side of the central Shandong mountainous regions has different sources from that of the loess deposits in the Loess Plateau. The clay mineral analysis further reinforces the earlier conclu- sion that the marine strata exposed in the Laizhou Bay and the fluvial plain of the lower reaches of Yellow River during the glacier periods are the main material sources for the Qingzhou loess deposits, which is an indicator to the local aridification of the lower reaches of the Yellow River. Loess deposition in the central Shandong mountainous regions started at around 0.5 Ma. The age of Qingzhou loess is approximately synchronous with the ongoing high-latitude cold since the Middle Pleistocene, which indicates that strengthened East Asian winter monsoon was sufficiently energetic to bring substantial quantities of material from the marine strata exposed in the Laizhou Bay and the fluvial plain of the lower reaches of the Yellow River to the central Shandong mountainous regions. The results therefore suggest that both regional geological process and global changes were responsible for the forma- tion of Qingzhou loess since Middle Pleistocene.
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