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Journal Abstract Search

498 related items for PubMed ID: 25495931

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  • 3. 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; 148(1):155-65. PubMed ID: 17241723
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  • 4. Growth, physiology, and phytoextraction potential of poplar and willow established in soils amended with heavy-metal contaminated, dredged river sediments.
    Pilipović A, Zalesny RS, Rončević S, Nikolić N, Orlović S, Beljin J, Katanić M.
    J Environ Manage; 2019 Jun 01; 239():352-365. PubMed ID: 30921754
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  • 6. Phytoscreening and phytoextraction of heavy metals at Danish polluted sites using willow and poplar trees.
    Algreen M, Trapp S, Rein A.
    Environ Sci Pollut Res Int; 2014 Jun 01; 21(15):8992-9001. PubMed ID: 24014198
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  • 8. Sulfur-aided phytoextraction of Cd and Zn by Salix smithiana combined with in situ metal immobilization by gravel sludge and red mud.
    Iqbal M, Puschenreiter M, Oburger E, Santner J, Wenzel WW.
    Environ Pollut; 2012 Nov 01; 170():222-31. PubMed ID: 22842051
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  • 11. Effects of urban wastewater application on growth, biomass, nutrition, and heavy-metal accumulation of Populus nigra L. "62/154," P. alba L. "20/45," P. euramericana (Dode) Guinier "92/40," and Salix excelsa S.G. Gmel grown in heavy-metal contaminated soil.
    Salehi A, Zalesny RS, Calagari M.
    Int J Phytoremediation; 2023 Nov 01; 25(10):1371-1383. PubMed ID: 36597801
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  • 13. Effects of phytoextraction on heavy metal concentrations and pH of pore-water of biosolids determined using an in situ sampling technique.
    Huynh TT, Laidlaw WS, Singh B, Gregory D, Baker AJ.
    Environ Pollut; 2008 Dec 01; 156(3):874-82. PubMed ID: 18586368
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  • 14. Short rotation coppice culture of willows and poplars as energy crops on metal contaminated agricultural soils.
    Ruttens A, Boulet J, Weyens N, Smeets K, Adriaensen K, Meers E, Van Slycken S, Tack F, Meiresonne L, Thewys T, Witters N, Carleer R, Dupae J, Vangronsveld J.
    Int J Phytoremediation; 2011 Dec 01; 13 Suppl 1():194-207. PubMed ID: 22046760
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  • 15. Field evaluation of willow under short rotation coppice for phytomanagement of metal-polluted agricultural soils.
    Van Slycken S, Witters N, Meiresonne L, Meers E, Ruttens A, Van Peteghem P, Weyens N, Tack FM, Vangronsveld J.
    Int J Phytoremediation; 2013 Dec 01; 15(7):677-89. PubMed ID: 23819267
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  • 16. Can liming change root anatomy, biomass allocation and trace element distribution among plant parts of Salix × smithiana in trace element-polluted soils?
    Vondráčková S, Tlustoš P, Száková J.
    Environ Sci Pollut Res Int; 2017 Aug 01; 24(23):19201-19210. PubMed ID: 28664494
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  • 17. Differential uptake of silver, copper and zinc suggests complementary species-specific phytoextraction potential.
    Desjardins D, Pitre FE, Nissim WG, Labrecque M.
    Int J Phytoremediation; 2016 Aug 01; 18(6):598-604. PubMed ID: 26361089
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  • 18. 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 01; 148(1):107-14. PubMed ID: 17224228
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  • 19. Influence of Ca/Mg ratio on phytoextraction properties of Salix viminalis I. The effectiveness of Cd, Cu, Pb, and Zn bioaccumulation and plant growth.
    Mleczek M, Kozlowska M, Kaczmarek Z, Chadzinikolau T, Golinski P.
    Int J Phytoremediation; 2012 Jan 01; 14(1):75-88. PubMed ID: 22567696
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  • 20. Phytoextraction potential of poplar (Populus alba L. var. pyramidalis Bunge) from calcareous agricultural soils contaminated by cadmium.
    Hu Y, Nan Z, Jin C, Wang N, Luo H.
    Int J Phytoremediation; 2014 Jan 01; 16(5):482-95. PubMed ID: 24912230
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