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土壤剖面中粉煤灰垂向迁移的磁响应
引用本文:闫海涛, 胡守云, E.Appel, V.Hoffmann, 朱育新. 土壤剖面中粉煤灰垂向迁移的磁响应[J]. 地球物理学报, 2005, 48(6): 1392-1399,
作者姓名:闫海涛  胡守云  E. Appel  V. Hoffmann  朱育新
作者单位:1 南京地理与湖泊研究所,南京 210008 2 中国科学院研究生院,北京 100039 3 德国图宾根大学地质与古生物研究所,图宾根 72076
基金项目:中国科学院南京地理与湖泊研究所创新课题“西苕溪流域重金属污染时空分布的磁学机理研究”(CXNIGLAS-A02-07),国家重点基础研究发展计划“湖泊富营养化过程与蓝藻水华暴发机理研究”(2002CB412300),国家基金委面上项目“湖泊流域重金属污染时空分布的磁学研究”(NSFC40172102)资助
摘    要:对浙江省安吉县梅溪发电厂粉煤灰贮灰场附近的土壤短剖面进行环境磁学、元素含量及粒度研究.借助模糊聚类分析,分辨出粉煤灰原位堆积、富集、迁移深度及未受污染土壤特征.剖面上部0~14cm为粉煤灰的原位反映,多畴磁铁矿主导了该段样品磁性.其中11~14cm处磁性矿物和金属元素有所富集.14~21cm为粉煤灰在土壤中的迁移深度.迁移段土壤中亚铁磁性矿物及Pb、Zn等金属含量介于底部未污染土壤与上部粉煤灰原位堆积层之间.单畴斜交反铁磁性矿物及来源于上部粉煤灰的多畴磁铁矿共同主导了该段土壤的磁性特征.21cm以下土壤基本未受粉煤灰污染,单畴斜交反铁磁性矿物是其主要磁性矿物.指标聚类分析表明,亚铁磁性矿物主要赋存在粗粉砂中,单畴磁晶粒主要存在于细粉砂中.χ、ARM、SIRM与Cu、Mn、Pb、Zn呈显著相关.结合多元统计分析,磁参数可用于追踪、识别粉煤灰在土壤剖面中的垂向迁移.

关 键 词:环境磁学  粉煤灰  土壤  重金属  粒度  污染
文章编号:0001-5733(2005)06-1392-08
收稿时间:2004-07-30
修稿时间:2004-07-302005-03-13

Magnetic responses to vertical migration of fly ash in a soil profile
YAN Hai-Tao, HU Shou-Yun, E.Appel, V. Hoffmann, ZHU Yu-Xin. Magnetic responses to vertical migration of fly ash in a soil profile[J]. Chinese Journal of Geophysics (in Chinese), 2005, 48(6): 1392-1399,
Authors:YAN Hai-Tao  HU Shou-Yun  E. Appel  V. Hoffmann  ZHU Yu-Xin
Affiliation:1 Nanjing Institute of Geography and Limnology, Chinese Academy of Sciences, Nanjing 210008, China 2 Graduate School of the Chinese Academy of Sciences, Beijing 100039,China 3 Institute of Geology and Paleontology, University of Tuebingen, 72076 Tuebingen
Abstract:Five short profiles were investigated nearby a store site for fly ash of the Meixi power plant in Anji, Zhejiang province, China. All the profiles were measured, and almost the same results were got. Profile T361 of 26cm length is presented in this paper as an example. Magnetic measurements and thermomagnetic κ T curves show that multidomain magnetite from fly ash is a dominant magnetic mineral above 14cm, and anti ferromagnetic mineral increases gradually with depth below 12 cm. Geochemical and grain size analyses also show the difference. Fuzzy C means clustering shows that fly ash sedimentates on the soil surface with depth of 14cm, and accumulates at 11~14cm, then migrates into soil from 14 to 21cm. Below 21cm, soil is not polluted. In the migrating part, multidomain magnetite and fine anti ferromagnetic mineral coexist, and the content of Pb and Zn is lower than the top and higher than the bottom of the profile. Factor clustering reveals a positive correlation between χ, ARM, SIRM and concentration of grain from 32 to 63 μm, that is, most of the ferrimagnetic components are contained in this range of grain. Strong correlation between χ, ARM, SIRM and Cu, Mn, Pb, and Zn also were found. Magnetic measurements can reveal the polluting process of fly ash in soil profiles with help of clustering analysis.
Keywords:Environmental magnetism  Fly ash  Soil  Heavy metal  Grain size  Pollution
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