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PUBMED FOR HANDHELDS

Journal Abstract Search


246 related items for PubMed ID: 20022155

  • 1.
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  • 2. High aromatic ring-cleavage diversity in birch rhizosphere: PAH treatment-specific changes of I.E.3 group extradiol dioxygenases and 16S rRNA bacterial communities in soil.
    Sipilä TP, Keskinen AK, Akerman ML, Fortelius C, Haahtela K, Yrjälä K.
    ISME J; 2008 Sep; 2(9):968-81. PubMed ID: 18563190
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  • 4. Effect of birch (Betula spp.) and associated rhizoidal bacteria on the degradation of soil polyaromatic hydrocarbons, PAH-induced changes in birch proteome and bacterial community.
    Tervahauta AI, Fortelius C, Tuomainen M, Akerman ML, Rantalainen K, Sipilä T, Lehesranta SJ, Koistinen KM, Kärenlampi S, Yrjälä K.
    Environ Pollut; 2009 Jan; 157(1):341-6. PubMed ID: 18675498
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  • 5. Diversity of 16S rRNA and dioxygenase genes detected in coal-tar-contaminated site undergoing active bioremediation.
    Kumar M, Khanna S.
    J Appl Microbiol; 2010 Apr; 108(4):1252-62. PubMed ID: 19796097
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  • 6. Influence of vegetation on the in situ bacterial community and polycyclic aromatic hydrocarbon (PAH) degraders in aged PAH-contaminated or thermal-desorption-treated soil.
    Cébron A, Beguiristain T, Faure P, Norini MP, Masfaraud JF, Leyval C.
    Appl Environ Microbiol; 2009 Oct; 75(19):6322-30. PubMed ID: 19633127
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  • 9. Strong impact on the polycyclic aromatic hydrocarbon (PAH)-degrading community of a PAH-polluted soil but marginal effect on PAH degradation when priming with bioremediated soil dominated by mycobacteria.
    Johnsen AR, Schmidt S, Hybholt TK, Henriksen S, Jacobsen CS, Andersen O.
    Appl Environ Microbiol; 2007 Mar; 73(5):1474-80. PubMed ID: 17209064
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  • 10. Assessment of the efficiency of in situ bioremediation techniques in a creosote polluted soil: change in bacterial community.
    Simarro R, González N, Bautista LF, Molina MC.
    J Hazard Mater; 2013 Nov 15; 262():158-67. PubMed ID: 24025312
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  • 12. Shifts in microbial community structure during in situ surfactant-enhanced bioremediation of polycyclic aromatic hydrocarbon-contaminated soil.
    Wang L, Li F, Zhan Y, Zhu L.
    Environ Sci Pollut Res Int; 2016 Jul 15; 23(14):14451-61. PubMed ID: 27068902
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  • 14. Changes in bacterial populations and in biphenyl dioxygenase gene diversity in a polychlorinated biphenyl-polluted soil after introduction of willow trees for rhizoremediation.
    de Cárcer DA, Martín M, Karlson U, Rivilla R.
    Appl Environ Microbiol; 2007 Oct 15; 73(19):6224-32. PubMed ID: 17693557
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  • 15. The Bacterial and Fungal Diversity of an Aged PAH- and Heavy Metal-Contaminated Soil is Affected by Plant Cover and Edaphic Parameters.
    Bourceret A, Cébron A, Tisserant E, Poupin P, Bauda P, Beguiristain T, Leyval C.
    Microb Ecol; 2016 Apr 15; 71(3):711-24. PubMed ID: 26440298
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  • 16. Effects of polycyclic aromatic hydrocarbons on microbial community structure and PAH ring hydroxylating dioxygenase gene abundance in soil.
    Sawulski P, Clipson N, Doyle E.
    Biodegradation; 2014 Nov 15; 25(6):835-47. PubMed ID: 25095739
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  • 17. Evolution of bacterial community during bioremediation of PAHs in a coal tar contaminated soil.
    Lors C, Ryngaert A, Périé F, Diels L, Damidot D.
    Chemosphere; 2010 Nov 15; 81(10):1263-71. PubMed ID: 20943246
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  • 18. Guild Composition of Root-Associated Bacteria Changes with Increased Soil Contamination.
    Ely CS, Smets BF.
    Microb Ecol; 2019 Aug 15; 78(2):416-427. PubMed ID: 30701285
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  • 19. Betaproteobacteria dominance and diversity shifts in the bacterial community of a PAH-contaminated soil exposed to phenanthrene.
    Martin F, Torelli S, Le Paslier D, Barbance A, Martin-Laurent F, Bru D, Geremia R, Blake G, Jouanneau Y.
    Environ Pollut; 2012 Mar 15; 162():345-53. PubMed ID: 22243884
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  • 20. Reconstructed metagenomes reveal changes of microbial functional profiling during PAHs degradation along a rice (Oryza sativa) rhizosphere gradient.
    Ma B, Lyu XF, Zha T, Gong J, He Y, Xu JM.
    J Appl Microbiol; 2015 Apr 15; 118(4):890-900. PubMed ID: 25619404
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