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Journal Abstract Search

191 related items for PubMed ID: 10388693

  • 1. Mechanism of pyrite dissolution in the presence of Thiobacillus ferrooxidans.
    Fowler TA, Holmes PR, Crundwell FK.
    Appl Environ Microbiol; 1999 Jul; 65(7):2987-93. PubMed ID: 10388693
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  • 2. Leaching of zinc sulfide by thiobacillus ferrooxidans: experiments with a controlled redox potential indicate No direct bacterial mechanism.
    Fowler TA, Crundwell FK.
    Appl Environ Microbiol; 1998 Oct; 64(10):3570-5. PubMed ID: 9758769
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  • 3. Leaching of zinc sulfide by Thiobacillus ferrooxidans: bacterial oxidation of the sulfur product layer increases the rate of zinc sulfide dissolution at high concentrations of ferrous ions.
    Fowler TA, Crundwell FK.
    Appl Environ Microbiol; 1999 Dec; 65(12):5285-92. PubMed ID: 10583978
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  • 6. Influence of heterotrophic microbial growth on biological oxidation of pyrite.
    Marchand EA, Silverstein J.
    Environ Sci Technol; 2002 Dec 15; 36(24):5483-90. PubMed ID: 12521179
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  • 7. Reasons why 'Leptospirillum'-like species rather than Thiobacillus ferrooxidans are the dominant iron-oxidizing bacteria in many commercial processes for the biooxidation of pyrite and related ores.
    Rawlings DE, Tributsch H, Hansford GS.
    Microbiology (Reading); 1999 Jan 15; 145 ( Pt 1)():5-13. PubMed ID: 10206710
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  • 9. [Oxidation of sulfide minerals by Thiobacillus ferrooxidans].
    Malakhova PT, Chebotarev GM, Kovalenko EV, Volkov IuA.
    Mikrobiologiia; 1981 Jan 15; 50(1):147-55. PubMed ID: 7219212
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  • 10. Characterization of arsenopyrite oxidizing Thiobacillus. Tolerance to arsenite, arsenate, ferrous and ferric iron.
    Collinet MN, Morin D.
    Antonie Van Leeuwenhoek; 1990 May 15; 57(4):237-44. PubMed ID: 2191624
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  • 11. Growth of Thiobacillus ferrooxidans: a Novel Experimental Design for Batch Growth and Bacterial Leaching Studies.
    Harvey PI, Crundwell FK.
    Appl Environ Microbiol; 1997 Jul 15; 63(7):2586-92. PubMed ID: 16535639
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  • 12. Optimal conditions for bio-oxidation of ferrous ions to ferric ions using Thiobacillus ferrooxidans.
    Malhotra S, Tankhiwale AS, Rajvaidya AS, Pandey RA.
    Bioresour Technol; 2002 Dec 15; 85(3):225-34. PubMed ID: 12365488
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  • 13. Suppression of pyrite oxidation by iron 8-hydroxyquinoline.
    Lan Y, Huang X, Deng B.
    Arch Environ Contam Toxicol; 2002 Aug 15; 43(2):168-74. PubMed ID: 12115042
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  • 16. Selective inhibition of the oxidation of ferrous iron or sulfur in Thiobacillus ferrooxidans.
    Harahuc L, Lizama HM, Suzuki I.
    Appl Environ Microbiol; 2000 Mar 15; 66(3):1031-7. PubMed ID: 10698768
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  • 18. Mathematical model of the oxidation of ferrous iron by a biofilm of Thiobacillus ferrooxidans.
    Mesa MM, Macías M, Cantero D.
    Biotechnol Prog; 2002 Mar 15; 18(4):679-85. PubMed ID: 12153298
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  • 19. Manipulation of pyrite colonization and leaching by iron-oxidizing Acidithiobacillus species.
    Bellenberg S, Barthen R, Boretska M, Zhang R, Sand W, Vera M.
    Appl Microbiol Biotechnol; 2015 Feb 15; 99(3):1435-49. PubMed ID: 25381488
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  • 20. Anaerobic, nitrate-dependent oxidation of pyrite nanoparticles by Thiobacillus denitrificans.
    Bosch J, Lee KY, Jordan G, Kim KW, Meckenstock RU.
    Environ Sci Technol; 2012 Feb 21; 46(4):2095-101. PubMed ID: 22142180
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