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PUBMED FOR HANDHELDS

Journal Abstract Search


734 related items for PubMed ID: 19619889

  • 1. Effects of willow stands on heavy metal concentrations and top soil properties of infrastructure spoil landfills and dredged sediment-derived sites.
    Vandecasteele B, Quataert P, Genouw G, Lettens S, Tack FM.
    Sci Total Environ; 2009 Oct 01; 407(20):5289-97. PubMed ID: 19619889
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  • 2. Availability of heavy metals for uptake by Salix viminalis on a moderately contaminated dredged sediment disposal site.
    Meers E, Lamsal S, Vervaeke P, Hopgood M, Lust N, Tack FM.
    Environ Pollut; 2005 Sep 01; 137(2):354-64. PubMed ID: 15963374
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  • 3. Foliar concentrations of volunteer willows growing on polluted sediment-derived sites versus sites with baseline contamination levels.
    Vandecasteele B, Quataert P, De Vos B, Tack FM, Muys B.
    J Environ Monit; 2004 Apr 01; 6(4):313-21. PubMed ID: 15054540
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  • 4. The potential of willow for remediation of heavy metal polluted calcareous urban soils.
    Jensen JK, Holm PE, Nejrup J, Larsen MB, Borggaard OK.
    Environ Pollut; 2009 Mar 01; 157(3):931-7. PubMed ID: 19062141
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  • 5. Differences in Cd and Zn bioaccumulation for the flood-tolerant Salix cinerea rooting in seasonally flooded contaminated sediments.
    Vandecasteele B, Laing GD, Quataert P, Tack FM.
    Sci Total Environ; 2005 Apr 01; 341(1-3):251-63. PubMed ID: 15833256
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  • 6. Tree species effect on the redistribution of soil metals.
    Mertens J, Van Nevel L, De Schrijver A, Piesschaert F, Oosterbaan A, Tack FM, Verheyen K.
    Environ Pollut; 2007 Sep 01; 149(2):173-81. PubMed ID: 17360090
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  • 7. Hydroponic screening for metal resistance and accumulation of cadmium and zinc in twenty clones of willows and poplars.
    Dos Santos Utmazian MN, Wieshammer G, Vega R, Wenzel WW.
    Environ Pollut; 2007 Jul 01; 148(1):155-65. PubMed ID: 17241723
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  • 8. Uptake of Cd, Zn and Mn by willow increases during terrestrialisation of initially ponded polluted sediments.
    Vandecasteele B, Quataert P, Tack FM.
    Sci Total Environ; 2007 Jul 15; 380(1-3):133-43. PubMed ID: 17207520
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  • 11. Heavy metal concentrations in a soil-plant-snail food chain along a terrestrial soil pollution gradient.
    Notten MJ, Oosthoek AJ, Rozema J, Aerts R.
    Environ Pollut; 2005 Nov 15; 138(1):178-90. PubMed ID: 16005127
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  • 14. Field trial setup for heavy metal removal from dredged sediments using intensive cultures of the willow Salix viminalis.
    Meers E, Vervaeke P, Tack FM, Lust N, Verloo MG.
    Meded Rijksuniv Gent Fak Landbouwkd Toegep Biol Wet; 2001 Nov 15; 66(4):141-6. PubMed ID: 15954279
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  • 15. Impact of dewatering and afforestation of contaminated dredged sediment on metal fractionation and mobility.
    Vervaeke P, Meers E, Tack FM, Lust N, Verloo MG.
    Meded Rijksuniv Gent Fak Landbouwkd Toegep Biol Wet; 2001 Nov 15; 66(4):135-9. PubMed ID: 15954278
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  • 16. Influence of tidal regime on the distribution of trace metals in a contaminated tidal freshwater marsh soil colonized with common reed (Phragmites australis).
    Teuchies J, de Deckere E, Bervoets L, Meynendonckx J, van Regenmortel S, Blust R, Meire P.
    Environ Pollut; 2008 Sep 15; 155(1):20-30. PubMed ID: 18158203
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  • 17. Heavy metal accumulation in trees growing on contaminated sites in Central Europe.
    Unterbrunner R, Puschenreiter M, Sommer P, Wieshammer G, Tlustos P, Zupan M, Wenzel WW.
    Environ Pollut; 2007 Jul 15; 148(1):107-14. PubMed ID: 17224228
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  • 18. Heavy metal contamination in surface sediments of Yangtze River intertidal zone: an assessment from different indexes.
    Zhang W, Feng H, Chang J, Qu J, Xie H, Yu L.
    Environ Pollut; 2009 May 15; 157(5):1533-43. PubMed ID: 19217701
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