利用克里金插值法和多因素分析法对上海某浅层地下水中氯代脂肪烃及环境变量进行表征

Characterization of Chlorinated Aliphatic Hydrocarbons and Environmental Variables in a Shallow Groundwater in Shanghai Using Kriging Interpolation and Multifactorial Analysis.

作者信息

Lu Qiang, Luo Qi Shi, Li Hui, Liu Yong Di, Gu Ji Dong, Lin Kuang Fei

机构信息

State Environmental Protection Key Laboratory of Environmental Risk Assessment and Control on Chemical Process, School of Resource and Environmental Engineering, East China University of Science and Technology, Shanghai 200237, P.R. China.

Shanghai Engineering Research Center of Contaminated Sites Remediation, Shanghai Institute for Design & Research on Environmental Engineering, Shanghai 200237, P.R. China.

出版信息

PLoS One. 2015 Nov 13;10(11):e0142241. doi: 10.1371/journal.pone.0142241. eCollection 2015.

DOI:10.1371/journal.pone.0142241

PMID:26565796

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4643907/

Abstract

CAHs, as a cleaning solvent, widely contaminated shallow groundwater with the development of manufacturing in China's Yangtze River Delta. This study focused on the distribution of CAHs, and correlations between CAHs and environmental variables in a shallow groundwater in Shanghai, using kriging interpolation and multifactorial analysis. The results showed that the overall CAHs plume area (above DIV) was approximately 9,000 m(2) and located in the 2-4 m underground, DNAPL was accumulated at an area of approximately 1,400 m(2) and located in the 6-8m sandy silt layer on the top of the muddy silty clay. Heatmap of PPC for CAHs and environmental variables showed that the correlation between "Fe(2+)" and most CAHs such as "1,1,1-TCA", "1,1-DCA", "1,1-DCE" and "%TCA" were significantly positive (p<0.001), but "%CA" and/or "%VC" was not, and "Cl-" was significantly positive correlated with "1,1-DCA" and "1,1-DCE" (p<0.001). The PCA demonstrated that the relative proportions of CAHs in groundwater were mostly controlled by the sources and the natural attenuation. In conclusion, the combination of geographical and chemometrics was helpful to establishing an aerial perspective of CAHs and identifying reasons for the accumulation of toxic dechlorination intermediates, and could become a useful tool for characterizing contaminated sites in general.

摘要

随着中国长江三角洲地区制造业的发展，作为一种清洗溶剂，氯代脂肪烃（CAHs）广泛污染了浅层地下水。本研究以上海某浅层地下水中CAHs的分布及其与环境变量之间的相关性为重点，采用克里金插值法和多因素分析法进行研究。结果表明，CAHs羽流总面积（高于检出限）约为9000平方米，位于地下2 - 4米处，重质非水相液体（DNAPL）在约1400平方米的区域积聚，位于淤泥质粉质黏土顶部6 - 8米的砂质粉土层中。CAHs与环境变量的主成分分析热图显示，“Fe(2+)”与大多数CAHs如“1,1,1 - 三氯乙烷（1,1,1 - TCA）”、“1,1 - 二氯乙烷（1,1 - DCA）”、“1,1 - 二氯乙烯（1,1 - DCE）”和“%TCA”之间的相关性显著为正（p<0.001），但与“%CA”和/或“%VC”的相关性并非如此，且“Cl-”与“1,1 - DCA”和“1,1 - DCE”显著正相关（p<0.001）。主成分分析（PCA）表明，地下水中CAHs的相对比例主要受来源和自然衰减的控制。总之，地理信息与化学计量学的结合有助于从空间角度了解CAHs，并识别有毒脱氯中间体积累的原因，总体上可成为表征污染场地的有用工具。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3cfd/4643907/b8b503e4c73b/pone.0142241.g001.jpg

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利用克里金插值法和多因素分析法对上海某浅层地下水中氯代脂肪烃及环境变量进行表征

Characterization of Chlorinated Aliphatic Hydrocarbons and Environmental Variables in a Shallow Groundwater in Shanghai Using Kriging Interpolation and Multifactorial Analysis.

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