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Journal Abstract Search

282 related items for PubMed ID: 21166348

  • 1. Large-area experiment on uptake of metals by twelve plants growing in soils contaminated with multiple metals.
    Lai HY, Juang KW, Chen ZS.
    Int J Phytoremediation; 2010; 12(8):785-97. PubMed ID: 21166348
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  • 2. Phytoextraction of zinc, copper, nickel and lead from a contaminated soil by different species of Brassica.
    Purakayastha TJ, Viswanath T, Bhadraray S, Chhonkar PK, Adhikari PP, Suribabu K.
    Int J Phytoremediation; 2008; 10(1):61-72. PubMed ID: 18709932
    [Abstract] [Full Text] [Related]

  • 3. Accumulation of Pb, Cu, and Zn in native plants growing on a contaminated Florida site.
    Yoon J, Cao X, Zhou Q, Ma LQ.
    Sci Total Environ; 2006 Sep 15; 368(2-3):456-64. PubMed ID: 16600337
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  • 4. Sensitivity of Mediterranean woody seedlings to copper, nickel and zinc.
    Fuentes D, Disante KB, Valdecantos A, Cortina J, Vallejo VR.
    Chemosphere; 2007 Jan 15; 66(3):412-20. PubMed ID: 16870229
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  • 5. Enhanced uptake of As, Zn, and Cu by Vetiveria zizanioides and Zea mays using chelating agents.
    Chiu KK, Ye ZH, Wong MH.
    Chemosphere; 2005 Sep 15; 60(10):1365-75. PubMed ID: 16054905
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  • 6. Strategies to use phytoextraction in very acidic soil contaminated by heavy metals.
    Pedron F, Petruzzelli G, Barbafieri M, Tassi E.
    Chemosphere; 2009 May 15; 75(6):808-14. PubMed ID: 19217142
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  • 7. Enhanced phytoextraction: II. Effect of EDTA and citric acid on heavy metal uptake by Helianthus annuus from a calcareous soil.
    Lesage E, Meers E, Vervaeke P, Lamsal S, Hopgood M, Tack FM, Verloo MG.
    Int J Phytoremediation; 2005 May 15; 7(2):143-52. PubMed ID: 16128445
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  • 8. The EDTA effect on phytoextraction of single and combined metals-contaminated soils using rainbow pink (Dianthus chinensis).
    Lai HY, Chen ZS.
    Chemosphere; 2005 Aug 15; 60(8):1062-71. PubMed ID: 15993153
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  • 10. Absorption and translocation of copper, zinc and chromium by Sesbania virgata.
    Branzini A, González RS, Zubillaga M.
    J Environ Manage; 2012 Jul 15; 102():50-4. PubMed ID: 22425878
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  • 11. The use of NTA and EDDS for enhanced phytoextraction of metals from a multiply contaminated soil by Brassica carinata.
    Quartacci MF, Irtelli B, Baker AJ, Navari-Izzo F.
    Chemosphere; 2007 Aug 15; 68(10):1920-8. PubMed ID: 17418884
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  • 14. Ability of Agrogyron elongatum to accumulate the single metal of cadmium, copper, nickel and lead and root exudation of organic acids.
    Yang H, Wong JW, Yang ZM, Zhou LX.
    J Environ Sci (China); 2001 Jul 15; 13(3):368-75. PubMed ID: 11590773
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  • 15. Effect of biosolid incorporation to mollisol soils on Cr, Cu, Ni, Pb, and Zn fractionation, and relationship with their bioavailability.
    Guerra P, Ahumada I, Carrasco A.
    Chemosphere; 2007 Aug 15; 68(11):2021-7. PubMed ID: 17418882
    [Abstract] [Full Text] [Related]

  • 16. Influence of electrical fields (AC and DC) on phytoremediation of metal polluted soils with rapeseed (Brassica napus) and tobacco (Nicotiana tabacum).
    Bi R, Schlaak M, Siefert E, Lord R, Connolly H.
    Chemosphere; 2011 Apr 15; 83(3):318-26. PubMed ID: 21237480
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  • 19. Aided phytoextraction of Cu, Pb, Zn, and As in copper-contaminated soils with tobacco and sunflower in crop rotation: Mobility and phytoavailability assessment.
    Hattab-Hambli N, Motelica-Heino M, Mench M.
    Chemosphere; 2016 Feb 15; 145():543-50. PubMed ID: 26706463
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  • 20. Uptake and distribution of zinc, cadmium, lead and copper in Brassica napus var. oleífera and Helianthus annus grown in contaminated soils.
    Herrero EM, López-Gonzálvez A, Ruiz MA, Lucas-García JA, Barbas C.
    Int J Phytoremediation; 2003 Feb 15; 5(2):153-67. PubMed ID: 12929497
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