Relationship and Enrichment of Heavy Metals in Soil of Sewage Irrigation Area in Guangdong Province, China

Guanxing Huang, Jichao Sun, Ji-hong Jing, Jingtao Liu, Yu-xi Zhang, Ying Zhang, Xiaoping Xiang, Haiwei Cui
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引用次数: 1

Abstract

The research reveals the relationship and enrichment of heavy metals in soil of sewage irrigation area in Guangdong province, southern China. Samples were collected from topsoil (0-10cm) and subsoil (30-40cm), and the total concentrations of heavy metals were extracted by HNO3-HF-HClO4. It is concluded that Cu, Zn, Cd, and Pb may be homologous or combined pollution, and Mn and Cr may be also homologous in soil. According to the result of cluster analysis, it is shown that Se and As may have the similar environmental geochemical behavior in topsoil, because the existing forms of them in environment are mainly acid anions. We can conclude that a significant degree of metal pollution exists in soil of sewage irrigation area, particularly for Cd, Cu, Pb and Zn. The degrees of contamination of heavy metals in topsoil (CF of Cd 8.1, Cu 7.0, Zn 5.9, Pb 3.6, Ni 2.1, As 1.8, Cr 1.6, Se 1.5) were higher than that in subsoil (CF of Cd 6.0, Cu 3.4, Zn 3.7, Pb 2.7, Ni 2.0, As 1.6, Cr 1.5, Se 1.4). EF values show deficiency enrichment with Ni, Se, Cr and As, low enrichment with Cu, Zn and Pb, and moderate enrichment with Cd in topsoil in study area, while deficiency enrichment with Ni, Se, Cr, Pb and As, and low enrichment with Cu, Zn and Cd in subsoil in study area.It should be recognized that the hazards posed by food production in sewage irrigation areas may become a common hazard for human.
广东省污水灌区土壤重金属含量与富集关系
研究揭示了广东省污水灌区土壤重金属含量与富集的关系。取表层土壤(0 ~ 10cm)和底土(30 ~ 40cm)样品,采用HNO3-HF-HClO4萃取重金属总浓度。土壤中Cu、Zn、Cd、Pb可能是同源或复合污染,Mn、Cr也可能是同源污染。聚类分析结果表明,硒和砷在表土中的环境地球化学行为可能相似,因为它们在环境中的存在形式主要是酸性阴离子。结果表明,污水灌区土壤存在较大程度的金属污染,特别是Cd、Cu、Pb和Zn。表层土壤重金属污染程度(CF值为Cd 8.1、Cu 7.0、Zn 5.9、Pb 3.6、Ni 2.1、As 1.8、Cr 1.6、Se 1.5)高于底土(CF值为Cd 6.0、Cu 3.4、Zn 3.7、Pb 2.7、Ni 2.0、As 1.6、Cr 1.5、Se 1.4)。EF值显示研究区表层土壤Ni、Se、Cr、As缺乏富集,Cu、Zn、Pb低富集,Cd中等富集;研究区底土Ni、Se、Cr、Pb、As缺乏富集,Cu、Zn、Cd低富集。应该认识到,污水灌溉区粮食生产所造成的危害可能成为人类的共同危害。
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