EU (1976).129-18/05/1976.Council Directive 76/464/EEC of 4 May 1976 on pollution caused by certain dangerous substances discharged into the aquatic environment of the Community.Official Journal L
[3]
EU (1998). 330-05/12/1998. Council Directive 98/83/EC of 3 November 1998 on the quality of water intended for human consumption.Official Journal L
[4]
Feng RW, Wei CY, Tu SX, Tang SR, Wu FC (2009). Antimony accumulation and antioxidative responses in four fern plants. Plant Soil 317, 93-101
Andreae MO, Froelich PN.Arsenic, antimony, and germanium biogeochemistry in the Baltic Sea[J].Tellus,1984,36:101-117
[12]
Baroni F, Boscagli A, Protano G, Riccobono F (2000).Antimony accumulation in Achillea ageratum, Plantago lanceolata and Silene vulgaris growing in an old Sb-mining area.Environ Pollut 109, 347-352
[13]
Benson AA.Antimony metabolites in marine algae[J].In: Craig PJ, Glocking F (Eds), The Biological Alkylation of Heavy Elements Spec. Publ Royal Society of Chemistry,1988,66:135-137
[14]
Brochu C, Wang J, Roy G, Messier N, Wang XY, Saravia NG,Ouellette M.Antimony uptake systems in the protozoan parasite Leishmania and accumulation differences in antimony resistant parasites[J].Antimicrob Agents Chemother,2003,47:3073-3079
[15]
Decuypere S, Rijal S, Yardley V, DeDoncker S, Laurent T, Khanal B, Chappuis F, Dujardin J C.Gene expression analysis of the mechanism of natural Sb(V) resistance in Leishmania donovani isolates from Nepal[J].Antimicrob Agents Chemoter,2005,49:4616-4621
[16]
Feng RW, Wei CY, Tu SX, Tang SR, Wu FC (2011a). Detoxification of antimony by selenium and their interaction in paddy rice under hydroponic conditions. Microchem J 97(1), 57-61
[17]
Feng RW, Wei CY, Tu SX, Tang SR, Wu FC (2011b). Simultaneous hyperaccumulation of arsenic and antimony in Cretan brake fern: evidence of plant uptake and subcelluar distributions. Microchem J 97(1), 38-43
[18]
Filella M, Belzile N, Chen YW (2002).Antimony in the environment: a review focused on natural waters: I Occurrence.Earth Sci Rev 57, 125-176
[19]
Filella M, Belzile N, Lett MC (2007).Antimony in the environment: A review focused on natural waters III Microbiota relevant interactions.Earth Sci Rev 80, 195-217
[20]
Gourbal B, Sonuc N, Bhattacharjee H, Legare D, Sundar S, Ouellette M, Rosen BP, Mukhopadhyay R.Drug uptake and modulation of drug resistance in Leishmania by an aquaglyceroporin[J].J Biol Chem,2004,279:31010-31017
[21]
Hammel W.[J].Debus R, Steubing L (2000). Mobility of antimony in soil and its availability to plants.Chemosphere,1791,41:-
[22]
He M, Yang J (1999). Effects of different forms of antimony on rice during the period of germination and growth and antimony concentration in rice t.Sci Total Environ 243-244, 149-155
[23]
He MC (2007).Distribution and phytoavailability of antimony at an antimony mining and smelting area, Hunan, China.Environ Geochem Hlth 29, 209-219
[24]
Jenkins RO, Craig PJ, Goessler W, Miller D, Ostah N, Irgolic KJ (1998).Biomethylation of inorganic antimony compounds by an aerobic fungus: Scopulariopsis brevicaulis.Environ Sci Technol 32, 882-885
[25]
Kabata-Pendias A, Pendias H(2001).Trace elements in soils and plants.3nd edn.Boca Raton, FL, USA: CRC Press
[26]
Kantin R.Chemical speciation of antimony in marine algae[J].Limnol Oceanogr,1983,28:165-168
[27]
Maeda S, Fukuyama H, Yokoyama E, Kuroiwa T, Ohki A, Naka K.Bioaccumulation of antimony by Chlorella vulgaris and the association mode of antimony in the cell[J].Appl Organomet Chem,1997,11:393-396
[28]
Maeda S, Ohki A.Bioaccumulation and biotransformation of arsenic, antimony, and bismuth compounds by freshwater algae[J].In: Wong YS, Tam NFY (Eds), Wastewater Treatment with Algae. Springer-Verlag and Landes,1998,Bioscience:73-92
[29]
Meng YL.[J].Liu ZJ, Rosen BP(2004).As(III) and Sb(III) uptake by GlpF and efflux by ArsB in Escherichia coli.J Biol Chem,1833,279:4-
[30]
Pan XL, Zhang DY, Chen X, Bao AM, Li LH (2011). Antimony Accumulation, Growth Performance, Antioxidant Defense System and Photosynthesis of Zea mays in Response to Antimony Pollution in Soil. Water Air Soil Poll 215(1-4), 517-523
[31]
Sanders OI, Rensing C, Kuroda M, Mitra B, Rosen BP.Antimonite is accumulated by the glycerol facilitator GlpF in Escherichia coli[J].J Bacteriol,1997,179:3365-3367
[32]
Shotyk W.[J].Krachler M, Chen B (2005). Antimony: global environmental contaminant.J Environ Monitor 7(12,1135,:-
[33]
Shtangeeva I, Bali R, Harris A (2011). Bioavailability and toxicity of antimony. J Geochem Explor 110(1), 40-45
[34]
Tschan M, Robinson B, Schulin R (2009). Antimony uptake by different plant species from nutrient solution, agar and soil. Environ Chem 6(2), 144-152
[35]
USEPA (1979). EP-440/4-79-029A Water Related Fate of the 129 Priority Pollutants, vol 1 USEPA.Washington DC, USA, USEPA
[36]
USEPA (1999). Doc 810-F-94-001 National Primary Drinking Water Standards.Washington, DC, USA, USEPA Office of Water
[37]
Wysocki R, Chery CC, Wawrzycka D, Van Hulle M, Cornelis R, Thevelein JM, Tamas MJ.The glycerol channel Fps1p mediates the uptake of arsenite and antimonite in Saccharomyces cerevisiae[J].Mol Microbio,2001,l40:1391-1401
[38]
Wysocki R, Clemens S, Augustyniak D, Golik P, Maciaszczyk E, Tamás MJ, Dziadkowiec D.Metalloid tolerance based on phytochelatins is not functionally equivalent to the arsenite transporter Acr3p[J].Biochem Biophys Res Com,2003,304:293-300
[39]
Zhang DY,Pan XL,Mu GJ,Wang JL (2010). Toxic effects of antimony on photosystem II of Synechocystis sp as probed by in vivo chlorophyll fluorescence. J Appl Phycol 22(4), 479-488
