兰山区大气降尘重金属环境特征分析
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摘要
为探究大气降尘中重金属污染程度,在临沂市兰山区设置15个采样点采集大气降尘,分析降尘重金属含量。结果表明,兰山区大气降尘中Cr,Ni,Cu,Hg含量平均值分别为38.40,61.46,36.15,0.76 mg/kg;兰山区大气降尘重金属含量的变异程度较大,空间分布极不均匀;除大气降尘中Hg均值低于相应土壤均值外,其他均高于土壤。大气降尘重金属样品的分析表明Cu,Hg为一类,主要受交通和工业污染的影响;Ni为一类,主要受交通活动的影响。
In order to evaluate the contamination of heavy metals from atmospheric deposition in Lanshan district of Linyi city,samples of atmospheric deposition were collected from 15 sampling sites respectively and their concentrations of heavy metals were determined. The results showed that the average contents of Cr,Ni,Cu,Hg were38.40,61.46,36.15,0.76 mg/kg;the content of heavy metals in all the atmospheric dust samples had a large degree of variation and uneven spatial;except for Hg in atmospheric dust,the contents of all the heavy metals in atmospheric dust were higher than the ones in soil distribution. The experimental results about atmospheric dust samples show that heavy metals such as Cu,Hg fall into one category,and their contents mainly originated from traffic and industrial emission. Ni belong to another category,which mainly originated from traffic emissions.
In order to evaluate the contamination of heavy metals from atmospheric deposition in Lanshan district of Linyi city,samples of atmospheric deposition were collected from 15 sampling sites respectively and their concentrations of heavy metals were determined. The results showed that the average contents of Cr,Ni,Cu,Hg were38.40,61.46,36.15,0.76 mg/kg;the content of heavy metals in all the atmospheric dust samples had a large degree of variation and uneven spatial;except for Hg in atmospheric dust,the contents of all the heavy metals in atmospheric dust were higher than the ones in soil distribution. The experimental results about atmospheric dust samples show that heavy metals such as Cu,Hg fall into one category,and their contents mainly originated from traffic and industrial emission. Ni belong to another category,which mainly originated from traffic emissions.
引文
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[3]鲁安怀.环境矿物材料在土壤水体大气污染治理中的应用[J].岩石矿物学杂志,1999,18(4):292-300.
[4]王明仕,曹景丽,李晗,等.焦作市采暖期降尘中重金属生态风险评价与源解析[J].生态环境学报,2017,26(5):824-830.
[5]姜伟,张卫东.重庆主城降尘中六种金属及其化学形态研究[D].重庆:西南大学,2008.
[6]张春荣,吴正龙,田红,等.青岛市区大气降尘重金属的特征和来源分析[J]. 2014,33(7):1187-1193.
[7]Andersen A,Hovmand MF,Johnsen I. Atmospheric heavy metal deposition in the Copenhagen area[J]. Environmental Pollution,1970,17(2):133-155.
[8]中国环境监测总站.中国土壤元素背景值[M].北京:中国环境科学出版社,1990:334-379.
[9]李萍,薛粟尹,王胜利.兰州市大气降尘重金属污染评价及健康风险评价[J].环境科学,2014(3):1021-1028.
[10]Huang S,Tu J. Liu H Y,et al. Multivariate analysis of traceelement concentrations in atmospheric deposition in the YangtzeR iver Delta,East China[J]. Atmospheric Environment,2009,43(36):5781-5790.
[11]倪刘建,张甘霖,阮心玲,等.南京市不同功能区大气降尘的沉降通量及污染特征[J].中国环境科学,2007,27(1):2-6.
[12]赵莉斯,于瑞莲,胡恭任,等.厦门市大气降尘中重金属形态分布及生物有效性[J].环境化学,2017,36(4):805-811.
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