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北京市菜地土壤和蔬菜镍含量及其健康风险
A Survey of Nickel Concentrations in Vegetables and Vegetable Soils of Beijing and Their Healthy Risk

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文摘 通过对北京市蔬菜和菜地土壤镍含量状况进行大规模调查,研究蔬菜和土壤镍含量及其健康风险,并筛选出抗镍污染能力强的蔬菜品种。根据蔬菜的消费量同时兼顾品种多样性的原则,在北京市规模化蔬菜栽培基地(采集蔬菜及土壤样品)和蔬菜批发市场(蔬菜样品)共采集97种蔬菜412个样品和54个土壤样品。研究发现:北京市菜地土壤镍含量呈正态分布,其含量范围、算术均值和中值分别为2.8-46.5、25.89和25.75mg/kg。均远低于《土壤环境质量标准》中的农业土壤标准(pH〉7.5时,250mg/kg);北京市蔬菜镍含量范围、算术均值、几何均值和Box-Cox均值分别为0.7~1689.0、91.3、53.0和55.41μg/kg;瓜果类蔬菜的镍平均含量显著高于叶菜类,其它类型差异不显著;北京市本地产蔬菜与市售外地产蔬菜的镍含量没有显著差异;裸露地蔬菜镍含量显著高于设施栽培蔬菜;云架豆镍富集系数较高,黄瓜、小白菜、萝卜,甘蓝、辣椒、大白菜和冬瓜次之,而大葱、叶甜菜、茄子、西红柿和部分特菜等镍富集系数最低。北京市居民从蔬菜中摄人镍的量为99.5μg/(人·d),蔬菜镍对北京市部分人群存在一定的健康风险。
其他语种文摘 In order to assess healthy risk of nickel in vegetables and to with high pollutant-resistance,a large scale survey on nickel concentrations select vegetable variety in vegetable lands and vegetables planted or sold in Beijing,were carried out.A total of 54 soil samples were collected from vegetable lands and their nickel concentrations were determined using Graphite Furnace Atomic Absorption Spectrometry (GF-AAS).In addition,97 varieties with 412 fresh samples of vegetables were obtained from vegetable bases,supermarkets and wholesale markets,with sampling principle of taking both consumption and diversity of vegetables into account.The results showed that the nickel concentrations in vegetable lands ranged from 2.8 to 46.5mg·kg^-1,with median, arithmetical means (AM)and arithmetical standard deviation (SD)of 25.75,25.89 and 7.33mg ·kg^-1, respectively.Compared with the background concentrations of soil nickel in Beijing, nickel was found to be accumulated not significantly in the vegetable lands.Nickel concentrations in the vegetables ranged from 0.7 to 1689.01μg ·kg^-1 fresh weight,with arithmetical and geometrical and Box-Cox means of 91.3μg· kg^-1,53.0μg· kg^-1 and 55.4μg· kg^-1fresh weight,respectively.Nickel in most of the samples (97.38%)was below the limit, 3.0mgμg· kg^-1 and 0.3mgμg· kg^-1 fresh weight pulse vegetables and other vegetables,respectively,set by Tolerance Limit of Nickel in Foods for the maximum permissible concentration of nickel in vegetables.The highest nickel concentration, 1689.0μg· kg^-1,was found in a green soybean(maodou)sample,followed by a cowpea (Vigna ungiculata)and soybean sprouts sample,992.7 and 965.8μg· kg^-1,respectively,and then pea (Pisum sativum),celery (Apium graveolens)and horse bean (Vicia faba),745.3,704.3 and 697.4μg· kg^-2, respectively.The nickel concentration of vegetables planted in the open field was significantly higher than those planted in greenhouse.Results of hierarchical cluster analysis on bioconcentration factor (BCF)of nickel in vegetables showed that beans round trellis (Vigna ungtticulata)can be classified into one group with higher bioconcentration factors of nickel,and hence its nickel- resistant was lower;followed by cucumber (Cucumls sat/vus),pakchoi (Brassica chinesis),Chinese cabbage(Brassica pekinensis),radish(Raphanus),cabbage(Brassica oleracea),chili(Capsicum annuum) and wax gourd (Beninacasa hispida),which can be classified into one group;and the others were clustered to be a group with the lowest bioconcentration factor of nickel,including eggplant (Solanum),welsh onion(A llium fistulosum),swiss chard(Beta vulgaris The average intake of nickel from vegetables was 99.5μg/in )and tomato(Lycopersicon esculentum). dividual/day for people of Beijing,and some vegetables with high nickel concentration may lead to a little of healthy risk for local people.
来源 自然资源学报 ,2006,21(3):349-361 【核心库】
关键词 北京市 ; 蔬菜 ; ; 健康风险 ; 抗污染品种
地址

中国科学院地理科学与资源研究所环境修复研究中心, 北京, 100101

语种 中文
文献类型 研究性论文
ISSN 1000-3037
学科 农业基础科学;环境质量评价与环境监测
基金 国家自然科学基金国家杰出青年科学基金 ;  国家自然科学基金重点项目 ;  北京市自然科学基金
文献收藏号 CSCD:2445583

参考文献 共 43 共3页

1.  Kasprzak K S. Mutation Research Fundamental and Molecular Mechanisms of Mutagenesis,2003,533:67-97 CSCD被引 30    
2.  Bartolozzi M. Hydrometallurgical recovery process for nickel-cadmium spent batteries. Journal of Power Sources,1995,55(2):247-250 CSCD被引 5    
3.  廖自基. 环境中微量重金属元素的污染危害与迁移转化,1989:140-162,271-280 CSCD被引 4    
4.  Denkhaus E. Nickel essentiality toxicity and carcinogenicity. Critical Reviews in Oncology/Hematology,2002,42(1):35-56 CSCD被引 44    
5.  Shi Z C. Nickel carbonyl:toxicity and human health. The Science of the Total Environment,1994,148:293-298 CSCD被引 1    
6.  韦朝阳. 重金属污染植物修复技术的研究与应用现状. 地球科学进展,2002,17(6):833-839 CSCD被引 48    
7.  Yusuf A A. copper and nickel levels in vegetables from industrial and residential areas of Lagos City Nigeria. Food and Chemical Toxicology,2003,41(3):375-378 CSCD被引 12    
8.  Onianwa P C. Cadmium and nickel composition of Nigerian foods. Journal of Food Composition and Analysis,2000,13(6):961-969 CSCD被引 2    
9.  Cui Y J. Exposure to metal mixtures and human health impacts in a contaminated area in Nanning China. Environment Interantional,2005,31(6):784-790 CSCD被引 21    
10.  郑袁明. 北京市近郊区土壤镍的空间结构及分布特征. 地理学报,2003,58(3):470-476 CSCD被引 45    
11.  北京市统计局. 北京统计年鉴,2002:72,173 CSCD被引 3    
12.  刘明池. 关于首都蔬菜生产现状和发展的思考. 北京农业科学,2002(1):1-4 CSCD被引 6    
13.  陈同斌. 北京市菜地土壤和蔬菜铅含量及其健康风险分析. 中国农业科学 CSCD被引 1    
14.  陈同斌. 北京市蔬菜和菜地土壤砷含量及其健康风险分析. 地理学报,2006,61(3):297-310 CSCD被引 63    
15.  宋波. 北京市菜地土壤和蔬菜镉含量及其健康风险分析. 环境科学学报 CSCD被引 2    
16.  宋波. 北京市菜地土壤和蔬菜铬含量及其健康风险分析. 环境科学学报 CSCD被引 2    
17.  郑袁明. 北京市菜地土壤和蔬菜铜含量及其健康风险. 农业环境科学学报 CSCD被引 1    
18.  黄泽春. 北京市菜地土壤和蔬菜锌含量及其健康风险评估. 地理研究 CSCD被引 1    
19.  郑袁明. 北京市不同土地利用类型的土壤镉含量特征. 地理研究,2005,24(4):542-548 CSCD被引 64    
20.  郑袁明. 北京市不同土地利用方式下土壤铬和镍的积累. 资源科学,2005,27(6):162-166 CSCD被引 31    
引证文献 23

1 陈同斌 北京市菜地土壤和蔬菜铅含量及其健康风险评估 中国农业科学,2006,39(8):1589-1597
CSCD被引 53

2 宋波 北京市菜地土壤和蔬菜铬含量及其健康风险评估 环境科学学报,2006,26(10):1707-1715
CSCD被引 31

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