中国土壤与肥料
中國土壤與肥料
중국토양여비료
SOIL AND FERTILIZER SCIENCES IN CHINA
2014年
6期
44-51
,共8页
闫姣%张永清%宋智萍%张志霞
閆姣%張永清%宋智萍%張誌霞
염교%장영청%송지평%장지하
村级尺度%农业土壤%重金属污染%空间分布%原因分析
村級呎度%農業土壤%重金屬汙染%空間分佈%原因分析
촌급척도%농업토양%중금속오염%공간분포%원인분석
village-scale%agricultural soil%heavy metal pollution%spatial distribution%sources assessment
通过检测运城市南薛村农业土壤8种重金属( Cu、 Zn、 Cr、 Cd、 Pb、 Ni、 As、 Hg)含量,分析研究区内重金属空间分布特征和原因。与国家土壤环境标准的二级标准相比, Hg 和 Ni 的超标率分别为16.50%和12.62%, Cd、 Pb、 As均未超标。按单项污染指数进行评价,主要污染物是Hg,污染指数为1.58,处于轻度污染级别,其余重金属的单项污染指数均小于1,处在安全域内。按内梅罗综合污染指数评价,61.65%的农业土壤重金属污染程度处于安全水平,18.45%的土壤处在警戒线上,15.53%的土壤为中度污染和严重污染,只有个别土壤属轻污染。 Zn、 Cr、 Ni和As的块金效应介于25%~75%之间,同时受农药、化肥和母质因素的影响; Cu、Cd、 Pb和Hg的块金效应大于75%,分别受粪肥、污水、汽车尾气和居民生活的影响。8种重金属含量空间分布差异显著,主要原因是不同地块间的生产方式不同,该研究对于试验区农业资源的合理配置、农业生产的科学管理和农产品的安全生产具有重要的指导意义。
通過檢測運城市南薛村農業土壤8種重金屬( Cu、 Zn、 Cr、 Cd、 Pb、 Ni、 As、 Hg)含量,分析研究區內重金屬空間分佈特徵和原因。與國傢土壤環境標準的二級標準相比, Hg 和 Ni 的超標率分彆為16.50%和12.62%, Cd、 Pb、 As均未超標。按單項汙染指數進行評價,主要汙染物是Hg,汙染指數為1.58,處于輕度汙染級彆,其餘重金屬的單項汙染指數均小于1,處在安全域內。按內梅囉綜閤汙染指數評價,61.65%的農業土壤重金屬汙染程度處于安全水平,18.45%的土壤處在警戒線上,15.53%的土壤為中度汙染和嚴重汙染,隻有箇彆土壤屬輕汙染。 Zn、 Cr、 Ni和As的塊金效應介于25%~75%之間,同時受農藥、化肥和母質因素的影響; Cu、Cd、 Pb和Hg的塊金效應大于75%,分彆受糞肥、汙水、汽車尾氣和居民生活的影響。8種重金屬含量空間分佈差異顯著,主要原因是不同地塊間的生產方式不同,該研究對于試驗區農業資源的閤理配置、農業生產的科學管理和農產品的安全生產具有重要的指導意義。
통과검측운성시남설촌농업토양8충중금속( Cu、 Zn、 Cr、 Cd、 Pb、 Ni、 As、 Hg)함량,분석연구구내중금속공간분포특정화원인。여국가토양배경표준적이급표준상비, Hg 화 Ni 적초표솔분별위16.50%화12.62%, Cd、 Pb、 As균미초표。안단항오염지수진행평개,주요오염물시Hg,오염지수위1.58,처우경도오염급별,기여중금속적단항오염지수균소우1,처재안전역내。안내매라종합오염지수평개,61.65%적농업토양중금속오염정도처우안전수평,18.45%적토양처재경계선상,15.53%적토양위중도오염화엄중오염,지유개별토양속경오염。 Zn、 Cr、 Ni화As적괴금효응개우25%~75%지간,동시수농약、화비화모질인소적영향; Cu、Cd、 Pb화Hg적괴금효응대우75%,분별수분비、오수、기차미기화거민생활적영향。8충중금속함량공간분포차이현저,주요원인시불동지괴간적생산방식불동,해연구대우시험구농업자원적합리배치、농업생산적과학관리화농산품적안전생산구유중요적지도의의。
Heavy metal concentrations including Cu, Zn, Cr, Cd, Pb, Ni, As, Hg in agricultural soil of Nanxue village, Yuncheng city were investigated to analyze its spatial distribution and pollution sources. Compared with the provided standards in the level 2 of China Soil Environment Quality Standards, the percentages of soil Hg and Ni contents were 16. 50% and 12. 62% higher respectively, while the soil Cd, Pb, As contents were below the thresholds of the soils quality standards. Ac-cording to the single pollution index evaluation results, the major pollutant was Hg, and its pollution index was 1. 58 which reached a slight pollution level. The single pollution index of other heavy metals were less than 1, which were safe. According to the Nemerow integrated pollution index evaluation, 61. 65% of the heavy metal contents in agricultural soils was in a safe level, 18. 45% was in the cordon, 15. 53% was in moderate or severe pollution, and only a little soil was in light pollution. The nugget effects of soil Zn, Cr, Ni and As contents were between 25% and 75%, which indicated that the spatial distribu-tion of soil Zn, Cr, Ni and As contents were influenced by pesticides, fertilizer and material factors together. Meanwhile, the nugget effects of soil Cu, Cd, Pb and Hg contents were larger than 75% which indicated that the spatial distribution of soil Cu, Cd, Pb and Hg contents were primarily controlled by manure, sewage, automobile exhaust and residents living. Differ-ent ways of agricultural production among different regions can cause the significant difference of spatial distribution of heavy metal concentrations, which is of great significance on guiding the rational allocation of resource, scientific management of ag-ricultural production and crops security.
