内蒙古河套平原表层土壤近红外光谱分析及其意义

doi:10.3964/j.issn.1000-0593(2015)04-0905-04

摘要
参考文献
相关文章 (15)

全文: PDF (1147 KB)
输出: BibTeX | EndNote (RIS)

摘要：近红外分析技术已经广泛应用于岩石分析中，方法简单、快速、有效，可以在短期内分析较多样品，适合应用于区域地质物质成分的分析。近红外光谱中不同矿物分子会表现出不同的峰值特征，故对层土壤进行近红外分析，可以较精确的获得土壤中矿物成分、含水量、矿物结晶程度等信息。通过分析河套平原土壤样品，推测出其矿物成分、含水量、晶体结晶程度等，结合当地气候特征和地质环境，推测其物质来源和矿物形成环境，不仅完善了当地的地质特征，还对河套地区土壤的成因机制的研究有重要意义。实验结果表明，河套平原表层土壤的矿物主要由高岭石、蒙脱石、伊利石、白云母等蚀变矿物组成，从而推测其来源为阴山山脉中酸性岩体，同时提出阴山山脉在气候方面对河套平原土壤形成也有重要影响，内蒙古地区虽然为大陆性干旱气候，但降水量充足，且阴山山脉南北两侧的年平均降水量差异巨大，阴山山脉南部的年平均降水量较北部大，保证了河套平原湿润的环境，有利于沉积物充分蚀变，这些均为土壤成因机制的完善提出了新的研究方向。

关键词：近红外测试技术;河套平原;土壤成因机制

Abstract：The technology of near infrared spectrum, marked by its convenience and effectiveness, which has been applied extensively in lithological analysis, is suitable for component analysis of regional geology, due to its superiority in analyzing numerous samples in a relatively short time. Since different mineral molecule peaks will show different characters when being analyzed in the near infrared spectrum, we can acquire the information about the mineral composition, water content, mineral crystallinity and etc. In this passage, the soil from the surface of Hetao Plain has been analyzed, and in this case, we can obtain the information about the mineral composition, water content, mineral crystallinity and etc. Referring the features of local environment and climate, we could surmise the source of the minerals in soil and the environment where they formed. The result not only consummates the geological characterization of Hetao area, but also has great significance revealing mechanism of soil-formation in Hetao area. The result shows that the soil from surface of Hetao Plain is mainly composed by altered minerals, such as kaolinite, smectite, ledikite, muscovite etc, and is presumed to be from acidic rock mass of the Yinshan mountains. The passage also indicates that the Yinshan mountains have great impact on the formation of the soil on Hetao Plain in the aspect of climate, for example, though the climate of inner Mongolia is continental arid climate, enough rainfall and the substantial differences in mean annual precipitation ensure the relatively moist environment in this area, and make the sediments altered adequately, proposing new aspects about exploring the mechanism of the soil-formation in Hetao area.

Key words：Near infrared test technology;Hetao plain;Soil formation mechanism

收稿日期: 2014-04-16 修订日期: 2014-07-19

中图分类号:

O657.3

通讯作者: 曹建劲 E-mail: eescjj@mail.sysu.edu.cn

引用本文:

夏源源^1，2，曹建劲^1，2*，吴政权^1，2，袁雪玲^1，2，林祖旭^1，2 . 内蒙古河套平原表层土壤近红外光谱分析及其意义 [J]. 光谱学与光谱分析, 2015, 35(04): 905-908.
XIA Yuan-yuan^{1, 2}, CAO Jian-jin^{1, 2*}，WU Zheng-quan^1,2, YUAN Xue-ling^1,2，LIN Zu-xu^1,2 . The Significance of Analysis of Soil from the Surface of Hetao Plain, Inner Mongolia with Near Infrared Spectra . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2015, 35(04): 905-908.

链接本文:

https://www.gpxygpfx.com/CN/10.3964/j.issn.1000-0593(2015)04-0905-04 或 https://www.gpxygpfx.com/CN/Y2015/V35/I04/905

[1] YAN Yan-lu(严衍禄). Near Infrared Spectrum Analysis and Application(近红外光谱分析技术基础和应用). Beijing: China Light Industry Press(北京：中国轻工业出版社)，2005. 495.
[2] XIU Lian-cun, ZHENG Zhi-zhong, YU Zheng-kui, et al(修连存，郑志忠，俞正奎，等). Rock and Mineral Analysis(岩矿测试)，2009, 28(6): 519.
[3] CHI Qing-hua, MA Sheng-ming(迟清华, 马生明). Geological Bulletin of China(地质通报)，2008，27(2): 189.
[4] ZHU Shen-yu, YANG Ji-xian(朱绅玉，杨继贤). Geology of Inner Mongolia(内蒙古地质)，1998，(2)：29.
[5] FAN Bin(樊斌). Inner Mongolia Meteorological(内蒙古气象)，2010，(1)：36.
[6] WANG Xi-kuan, ZHU Suo, LIU Dong, et al(王喜宽，朱锁，刘东，等). Geoscience(现代地质)，2008, 22(6): 1065.
[7] XIU Lian-cun，ZHENG Zhi-zhong，YU Zheng-kui，et al(修连存，郑志忠，俞正奎，等). Acta Geologica Sinica(地质学报)，2007, 81(11): 1584.
[8] Kloprogge J T，Ruan H D，Frost R L. Journal of Materials Science，2001, 36：603.
[9] WU Zheng-quan，CAO Jian-jin, WEI Xiao-jun, et al(吴政权，曹建劲，韦潇君，等). Spectroscopy and Spectral Analysis(光谱学与光谱分析)，2013，33(10)：2666.
[10] SUI Shi-jiang, YE Xin, JUAN Ying-hua(隋世江，叶鑫，隽英华). Fujian Analysis & Testing(福建分析测试)，2012，(1): 14.
[11] MENG Kai, SHEN Jun-feng, QING Min, et al(孟恺，申俊峰，卿敏，等). Bulletin of Mineralogy, Petrology and Geochemistry(矿物岩石地球化学通报)，2009，28(2)：147.
[12] ZHANG Shao-nan, DING Xiao-qi, WAN You-li, et al(张哨楠，丁晓琪，万友利，等) Journal of Southwest Petroleum University·Science & Technology Edition(西南石油大学学报·自然科学版)，2012, 34(3)，174.
[13] PENG Run-min, ZHAI Yu-sheng(彭润民，翟裕生). Earth Science Frontiers(地学前缘)，2004, 11(1)：259.
[14] SU Hong-wei, KANG Ming, LIU Huan-lin(苏宏伟, 康明, 刘还林). Journal of Earth Sciences and Environment(地球科学与环境学报), 2010, 32(4): 339.