OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

化学进展 2004

环境中锑的分布、存在形态及毒性和生物有效性*

何孟常,万红艳

Keywords: 锑污染,分布,形态,毒性,生物有效性

Full-Text Cite this paper Add to My Lib

Abstract:

由于自然过程及人类活动的影响,锑及其化合物在环境中普遍存在,环境中锑的污染也日益严重.近年来,国外对锑污染的研究日益重视.锑不是植物必需的,但能够被植物根系吸收.已有证据表明锑对生物及人体产生毒性.本文主要对环境中锑的分布和存在形态,及对动物和人体的毒性和对生物有效性研究进展进行评述。

References

[1]	[ 1 ] Ren Z F , Qing Z X, Chen Z Y1 World Nonferrous Metals , 2002 ,7 : 23 —25
[2]	[ 2 ] Watanabe N , Inoue S , Ito H. Chemosphere , 1999 , 39 (10) :1689 —1698
[3]	[ 4 ] Velzen D , Langenkamp H , Herb G. Waste Manage. Res. , 1998 ,16 (1) : 32 —40
[4]	[ 5 ] Filella M, Belzile N , Chen YW. Earth-Science Reviews , 2002 ,57 : 125 —176
[5]	[ 8 ] Lintschinger J , Koch I , Serves S , et al . Fresenius’J . Anal .Chem. , 1997 , 359 : 481 —491
[6]	[ 9 ] 何孟常(He M C) , 云影(Yun Y) . 环境化学( Environmental Chemistry) , 2003 , 22 (2) : 127 —131
[7]	Zheng J . Ohata M. Furuta N. Analyst , 2000 , 125 :1025
[8]	Dodd M, Pergantis S A , Cullen WR , et al . Analyst , 1996 , 121 :223 —228
[9]	Deutsche Forschungs Gemeinschalt (DFG) . Analyses of Hazardous Substances in Biological Materials , VCH Weinheim , 1994 , 51
[10]	De Wolft F A. British Medical Journal . 1995 , 310 : 1216 —1217
[11]	Jones R D. Occupational and Environmental Medicine , 1994 , 51 :772 —776
[12]	[ 3 ] Reimann D O. Kurzberich. UOI/539A/AM, 1995
[13]	[ 6 ] He M C , Yang J R. The Science of the Total Environment , 1999 ,243/244 : 149 —155
[14]	[ 7 ] 何孟常(He M C) , 季海冰(Ji H B) , 赵承易(Zhao C Y) 等.北京师范大学学报(自然科学版) (Journal of Beijing Normal University , Natural Science) , 2002 , 38 (3) : 417 —420
[15]	Krupp E M, Grumping R , Furchtabr U R R , et al . Fresenius’J .Anal . Chem. 1996 , 354 : 546 —549
[16]	Andrewes P , Cullen W R , Polishchuk E. Chemosphere , 2000 ,41 : 1717 —1725
[17]	Feldmann J , Koch L , Cullen W R. Analyst , 1998 , 123 : 815
[18]	Al-Khawajah A , Larbi E B , Al-Gindan Y, et al . Toxicology ,1992 , 11 : 283 —288
[19]	Poon R. Toxicology , 1998 , 36 : 21 —35
[20]	Cutter G A , Cutter L S. Mar. Chem. , 1998 , 61 : 25 —36
[21]	Takayanagi K. Toxicol . , 2001 , 66 : 808 —813
[22]	Parisis N E. Toxicological and Environmental Chemistry , 1992 ,36 : 205 —216
[23]	Baroni F , Boscagli A , Protano G, et al . Environmental Pollution ,2000 , 109 : 147 —352
[24]	Hammel W, Debus R , Steubing L. Chemosphere. 2000 , 41 :1791 —1798
[25]	Crommentuijn T, Polder M D , van de Plasche E J . RIVM Report No. 601 501 001 , National Institute of Public Health and the En vironment , Bilthoven , The Netherlands. 1997
[26]	USEPA. National Primary Drinking in Water Standards. USEPA.Office of Water. Washington DC , USA. Doc. 810-F-94-001 , 1999
[27]	California Environmental Protection Agency. Public Health Goal for Antimony in Drinking Water Ⅱ, December 1997
[28]	Huang H , Shu S C , Shih J H , et al . Toxicology , 1998 , 129 :113 —123
[29]	Poon R , Chu I. Toxicology , 1998 , 36 : 21 —35
[30]	Thron V , Bedeutung Von. Antimony in : Die Trinkwassereer or Drung , 3rd ed. ( eds. Aurand K, et al . ) . Berlin , Germany :Erich Schmidt . 1991
[31]	Council of the European Union (CEU) Council Directive 98/83/EC of 3 November , 1998 on the quality of water intended for human consumption. Official Journal L 330. 05/12/1998. . 32 —54

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133