| [1] | KABATAPENDIAS A, PENDIAS H K.Trace elements in soils and plants[M].4th Edition.CRC Press,1984:951-974. |
| [2] | 国家环保总局,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,1990:466-467. State Environmental Protection Administration,China National Environmental Monitoring Center. Background value of soil element in China[M].Beijing:China Environmental Science Press,1990:466 -467(in Chinese). |
| [3] | TELFORD K,MAHER W,KRIKOWA F,et al.Bioaccumulation of antimony and arsenic in a highly contaminated stream adjacent to the Hillgrove Mine, NSW, Australia[J].Environmental Chemistry, 2009, 6(2):95-99. |
| [4] | FILELLA M,BELZILE N,CHEN Y W.Antimony in the environment:A review focused onnatural waters:I.Occurrence[J]. Earth Science Reviews,2002,57(1-2):125-176. |
| [5] | QI C,LIU G,CHOU C L,et al.Environmental geochemistry of antimony in Chinesecoals[J].Science of the Total Environment, 2008, 389(2-3):225-234. |
| [6] | PIERATT A,SHAHID M,SEJALON D N,et al. Antimony bioavailability:Knowledge and research perspectives for sustainable agricultures[J]. Journal of Hazardous Materials,2015,289:219-234. |
| [7] | 罗英杰,王小烈,柳群义,等.中国锑资源产业发展形势及对策建议[J].资源与产业,2016,18(1):75-81. LUO Y J,WANG X L,LIU Q Y,etal.Developmentactuality and suggestion of China's antimony industry[J].Resources and Industries,2016,18(1):75-81(in Chinese). |
| [8] | |
| [9] | 项萌,张国平,李玲,等.广西铅锑矿冶炼区土壤剖面及孔隙水中重金属污染分布规律[J].环境科学,2012,33(1):266-272. XIANG M,ZHANG G P,LI L et al.Characteristics of heavy metals in soil profile and pore water around Hechiantimony-lead smelter,Guangxi,China[J].Environmental Science,2012,33(1):266-272(in Chinese). |
| [10] | 郎春燕,王登菊,黄军.成都燃煤电厂周围土壤中砷、锑、铅、锌分布特征及污染评价[J].环境化学,2011, 30(8):1439-1444. LANG C Y,WANG D J,HUANG J.Distributioncharacteristics and pollution evaluation of As,Sb,Pb and Zn in soil around the coal-fired power plant in Chengdu[J].Environmental Chemistry,2011, 30(8):1439-1444(in Chinese). |
| [11] | WHO. Guidelines for drinking-water quality,Volume 2:Health criteria and other supporting information[M].2th Edition. Geneva:World Health Organization,1996. |
| [12] | AINSWORTH N,COOKE J A, JOHNSON M S.Distribution of antimony in contaminated grassland:1-vegetation and soils[J]. Environmental Pollution, 1990, 65(1):65-77. |
| [13] | HAMMEL W,DEBUS R, STEUBING L. Mobility of antimony in soil and its availabilityto plants[J].Chemosphere, 2000,41(11):1791-1798. |
| [14] | OKKENHAUG G,ZHU Y G,LUO L,et al.Distribution, speciation and availability of antimony (Sb) in soils and terrestrial plants from anactive Sb mining area[J].Environmental Pollution,2011,159(10), 2427-2434. |
| [15] | 袁程,张红振,池婷,等.中南某锑矿及其周边农田土壤与植物重金属污染研究[J].土壤,2015, 47(5):960-964. YUAN C,ZHANG H Z,CHI T,et al.Heavymetal and metalloid pollution of soils and plants in typical antimony mining area of central-south China[J].Soils,2015, 47(5):960-964(in Chinese). |
| [16] | 陈秋平,胥思勤,陈洁薇,等.锑矿区土壤重金属污染及植物累积特征[J].环境科技,2014,27(2):1-4. CHEN Q P, XU S Q, CHEN J W,et al.The Pollution of heavymetals in soils and characteristics ofplantsaccumulation in antimony mining Area[J].Environmental Science and Technology,2014,27(2):1-4(in Chinese). |
| [17] | REN J H,MA LQ,SUN H J,et al. Antimony uptake, translocation andspeciation in rice plants exposed to antimonite and antimonate[J].Science of the Total Environment, 2014, 475:83-89. |
| [18] | WU F, FU Z, LIU B, et al. Health risk associated with dietary co-exposure to high levels of antimony and arsenic in the world's largest antimony mine area[J].Science of the Total Environment, 2011, 409(18):3344-3351. |
| [19] | CAI F,REN J,TAO S,et al.Uptake,translocation and transformation of antimony in rice (Oryza sativa L.) seedlings[J]. Environmental Pollution, 2015,209:169-176. |
| [20] | NING Z,XIAO T,XIAO E.Antimony in the soil-plant system in an sb mining/smelting area of southwest China[J].International Journal of Phytoremediation,2015,17(11):1081-1089. |
| [21] | 冯信平,田家金.ICP-MS法测定土壤中有效钼不确定度的研究[J].安徽农业科学,2010,38(36):20698-20700. FENG X P,TIAN J J.Uncertainty evaluation available Mo in soil by ICP-MS[J].Journal of Anhui AgriculturalScience,2010,38(36):20698-20700(in Chinese). |
| [22] | CORRALES I,BAECELO J, BECH J,et al.Antimony accumulation and toxicity tolerance mechanisms in Trifolium species[J].Journal of Geochemical Exploration,2014,147:167-172. |
| [23] | 鲁如坤.土壤农业化学分析方法[M].北京:中国农业科技出版社,2000:146-195. LU R K.Soil agricultural chemical analysis method[M].Beijing:China Agricultural university Press,2000:146 -195(in Chinese). |
| [24] | QIAN Y,GALLAGHER FJ,FENG H,et al.Vanadium uptake and translocation in dominant plant species on an urban coastal brownfield site[J].Science of the Total Environment, 2014, 476-477:696-704. |
| [25] | 齐文启,曹文山.锑(Sb)的土壤环境背景值研究[J].土壤通报,1991,22(5):209-210. QI W Q,CAO W S.Study of soil environmental background value of antimony (Sb)[J].Chinese Journal of Soil Science,1991,22(5):209-210(in Chinese). |
| [26] | HE M C. Distribution and phytoavailability of antimony at an antimony mining and smelting area, Hunan, China[J]. Environmental Geochemistry and Health,2007,29(3):209-219. |
| [27] | HE M C,WANG X Q,WU F C,etal.Antimony pollution in China[J].Science of the Total Environment,2012, 421-422(3):41-50. |
| [28] | THANABALASINGAM P, PICKERING W F. Specific sorption of antimony (Ⅲ) by the hydrous oxides of Mn, Fe and Al[J]. Water, Air and Soil Pollution,1990,49,175-185. |
| [29] | XI J H, HE MC,LIN C Y.Adsorption of antimony(V) on kaolinite as a function of pH, ionic strength and humic acid[J].Environmental Earth Sciences, 2010, 60(4):715-722. |
| [30] | 何孟常,云影.锑矿区土壤中锑的形态及生物有效性[J].环境化学,2003,22(2):126-130. HE M C,YUN Y.The speciation and bioavailability of antimony in the soils near antimony mine area[J].Environmental Chemistry,2003,22(2):126-130(in Chinese). |
| [31] | WILSON S C,LOCKWOOD P V, ASHLEY P M, et al. The chemistry and behaviour of antimony in the soil environment with comparisons to arsenic:A critical review[J].Environmental Pollution, 2010,158(5):1169-1181. |
| [32] | ETTLER V, MIHALJEVIC M, SEBEK O, et al. Antimony availability inhighly polluted soils and sediments - A comparison of single extractions[J]. Chemosphere, 2007, 68(3):455-463. |
| [33] | TIGHE M, ASHLEY P, LOCKWOOD P, et al. Soil, water, and pasture enrichment of antimony and arsenic within a coastal flood plain system[J]. Science of the Total Environment, 2005, 347(1-3):175-186. |
| [34] | CHEN B,KRACHLER M,SHOTYK W.Determination of antimony in plant and peat samples by hydride generation-atomic fluorescence spectrometry (HGAFS)[J].Journalof AnalyticalAtomicSpectrometry,2003,18:1256-1262. |
| [35] | 李玲,张国平,刘虹,等.广西大厂矿区土壤-植物系统中Sb、As的迁移转化特征[J].环境科学学报,2010,30(11):2305-2313. LI L,ZHANG G P,LIU H,et al.Distribution and mobility of Sb and As in topsoils and plants in the Dachangmulti-metalliferous mine area,Guangxi,China[J].Acta Scientiae Circumstantiae,2010,30(11):2305-2313(in Chinese). |
| [36] | HUANG Y, CHEN Z, LIU W. Influence of iron plaque and cultivars on antimony uptake by and translocation in rice (Oryza sativa L.) seedlings exposed to Sb(Ⅲ) or Sb(V)[J]. Plant & Soil, 2012, 352(1-2):41-49. |
| [37] | 何孟常,谢南去,余维德,等.土壤锑对水稻生长的影响及残留积累规律研究[J].农业环境保护,1994,13(1):18-22. HE M C,XIE N Q,YU W D,et al.The influence of soil antimony on the growth of rice and the study of residual accumulation[J].Agricultural Environmental Protection,1994,13(1):18-22(in Chinese). |
| [38] | 向猛, 黄益宗, 蔡立群,等. 水稻吸收积累硅和锑的相互影响水培试验研究[J]. 农业环境科学学报, 2014, 33(11):2090-2097. XIANG M, HUANG Y Z, CAI L Q, et al.Interactive effects of antimony and silicon on their uptake and accumulation by rice seedling in solution culture[J].Journal of Agro-Environment Science, 2014, 1(11):2090-2097(in Chinese). |
| [39] | CHANG A, PAN G, PAGE AL, et al. Developing human health-related chemicalguidelines for reclaimed water and sewage sludge applications in agriculture[R].World Health Organization:Division of Environmental Health,2002:77-78. |
| [40] | USEPA. CASRN 7440-36-0Antimony[S]. Integrated risk information system,1991. |
| [41] | WHO.Guidelinesfor drinking-water quality, third edition,incorporating first and second addenda[M].Geneva:World Health Organization; 2008.a |