Rock-Magnetic Characteristics of the Tianshan Loess and the Mechanism for Enhancing Magnetic Susceptibility

海洋地质与第四纪地质 Pub Date : 2013-01-01 DOI:10.3724/SP.J.1140.2013.05147

X. Teng, Zhigao Zhang, Wenbin Peng, J. Zan, X. Fang

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Abstract

The large area of eolian loess distributed over the northern slope of the middle Tianshan between the altitude of 2 400~2 700m has provided a good opportunity to study the loss rock magnetic properties of Central Asia and the evolutionary process of the extreme arid areas of NW China.Our research profile is located on the sixth terrace of Qingshui river on the northern slope of Tianshan.We collected 580 of bulk samples for analysis of the rock magnetic susceptibility at a 10~20cm interval and selected several samples for analyses of other magnetic parameters.Results show that the magnetic properties of the Tianshan Loess are mainly controlled by low-coercivity ferrimagnetic minerals(such as magnetite and maghemite),significantly different from the loess sequence of the Loess Plateau,and the contribution of ultrafine pedogenically-produced magnetic grains to loess magnetic susceptibility is very limited,while the increased coarse ferrimagnetic minerals from the source region play a decisive role in increasing magnetic susceptibility in the Tianshan region.The gradual increasing trend in magnetic susceptibility and the coarsening upwards trend of grain size since 0.8Ma may be the response to the aridification process in the inland Asia since the mid-Pleistocene.

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天山黄土岩磁特征及磁化率增强机理

中天山北坡海拔2 400~2 700m的大面积风成黄土，为研究中亚地区的损失岩磁性和西北极端干旱区的演化过程提供了良好的契机。我们的研究剖面位于天山北坡清水河六阶地。我们在10~20cm的区间内收集了580个样品进行岩石磁化率分析，并选择了一些样品进行其他磁性参数的分析。结果表明:天山黄土的磁性主要受低矫顽力铁磁性矿物(如磁铁矿和磁赤铁矿)的控制，与黄土高原的黄土序列有显著差异，超细的土生磁性颗粒对黄土磁化率的贡献非常有限，而来自源区的粗粒铁磁性矿物的增加对天山黄土磁化率的提高起决定性作用地区。0.8Ma以来磁化率的逐渐增大和粒度的粗化上升趋势可能是对中更新世以来亚洲内陆干旱化过程的响应。

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来源期刊

海洋地质与第四纪地质

CiteScore

0.10

自引率

0.00%

发文量

4176

期刊介绍： Marine Geology and Quaternary Geology launched in 1981 is a bimonthly academic journal sponsored by Qingdao Institute of Marine Geology, China Geological Survey, and published by the Science Press, China.The journal aims to publish original, cutting-edge, and explorative scientific results in the field of marine geology and sea-land Quaternary geology. The journal focus on reporting the latest research achievements supported by National Natural Science Foundation Project, National Key Project and International Cooperation Project, with priority to the results in China seas, global ocean and three poles, and the comparative study results between offshore and land, regional and global scientific issues.