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Journal Abstract Search

171 related items for PubMed ID: 28672697

  • 21. Assessing the transformation of chlorinated ethenes in aquifers with limited potential for natural attenuation: added values of compound-specific carbon isotope analysis and groundwater dating.
    Amaral HI, Aeppli C, Kipfer R, Berg M.
    Chemosphere; 2011 Oct; 85(5):774-81. PubMed ID: 21741066
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  • 22. The effects of hydraulic/pneumatic fracturing-enhanced remediation (FRAC-IN) at a site contaminated by chlorinated ethenes: A case study.
    Lhotský O, Kukačka J, Slunský J, Marková K, Němeček J, Knytl V, Cajthaml T.
    J Hazard Mater; 2021 Sep 05; 417():125883. PubMed ID: 33971551
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  • 23. Reductive dechlorination of tetrachloroethene in marine sediments: Biodiversity and dehalorespiring capabilities of the indigenous microbes.
    Matturro B, Presta E, Rossetti S.
    Sci Total Environ; 2016 Mar 01; 545-546():445-52. PubMed ID: 26748009
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  • 24. Chlorinated ethene plume evolution after source thermal remediation: Determination of degradation rates and mechanisms.
    Murray AM, Ottosen CB, Maillard J, Holliger C, Johansen A, Brabæk L, Kristensen IL, Zimmermann J, Hunkeler D, Broholm MM.
    J Contam Hydrol; 2019 Dec 01; 227():103551. PubMed ID: 31526529
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  • 25. Do CSIA data from aquifers inform on natural degradation of chlorinated ethenes in aquitards?
    Thouement HAA, Kuder T, Heimovaara TJ, van Breukelen BM.
    J Contam Hydrol; 2019 Oct 01; 226():103520. PubMed ID: 31377464
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  • 26. Review of reactive kinetic models describing reductive dechlorination of chlorinated ethenes in soil and groundwater.
    Chambon JC, Bjerg PL, Scheutz C, Baelum J, Jakobsen R, Binning PJ.
    Biotechnol Bioeng; 2013 Jan 01; 110(1):1-23. PubMed ID: 22926627
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  • 27. Impact of sorption processes on PCE concentrations in organohalide-respiring aquifer sediment samples.
    Leitner S, Reichenauer TG, Watzinger A.
    Sci Total Environ; 2018 Feb 15; 615():1061-1069. PubMed ID: 29751409
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  • 28. Organohalide Respiration with Chlorinated Ethenes under Low pH Conditions.
    Yang Y, Cápiro NL, Marcet TF, Yan J, Pennell KD, Löffler FE.
    Environ Sci Technol; 2017 Aug 01; 51(15):8579-8588. PubMed ID: 28665587
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  • 30. Processes controlling the fate of chloroethenes emanating from DNAPL aged sources in river-aquifer contexts.
    Puigserver D, Cortés A, Viladevall M, Nogueras X, Parker BL, Carmona JM.
    J Contam Hydrol; 2014 Nov 01; 168():25-40. PubMed ID: 25278314
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  • 34. A switch of chlorinated substrate causes emergence of a previously undetected native Dehalobacter population in an established Dehalococcoides-dominated chloroethene-dechlorinating enrichment culture.
    Puentes Jácome LA, Edwards EA.
    FEMS Microbiol Ecol; 2017 Dec 01; 93(12):. PubMed ID: 29088371
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  • 36. Dual carbon-chlorine stable isotope investigation of sources and fate of chlorinated ethenes in contaminated groundwater.
    Wiegert C, Aeppli C, Knowles T, Holmstrand H, Evershed R, Pancost RD, Macháčková J, Gustafsson Ö.
    Environ Sci Technol; 2012 Oct 16; 46(20):10918-25. PubMed ID: 22989309
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  • 40. Biostimulation of indigenous communities for the successful dechlorination of tetrachloroethene (perchloroethylene)-contaminated groundwater.
    Patil SS, Adetutu EM, Aburto-Medina A, Menz IR, Ball AS.
    Biotechnol Lett; 2014 Jan 16; 36(1):75-83. PubMed ID: 24101252
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