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Journal Abstract Search

216 related items for PubMed ID: 7219212

  • 1. [Oxidation of sulfide minerals by Thiobacillus ferrooxidans].
    Malakhova PT, Chebotarev GM, Kovalenko EV, Volkov IuA.
    Mikrobiologiia; 1981; 50(1):147-55. PubMed ID: 7219212
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  • 5. [Effect of Fe3+ ions on Thiobacillus ferrooxidans oxidation of ferrous oxide at various temperatures].
    Kovalenko TV, Karavaĭko GI, Piskunov VP.
    Mikrobiologiia; 1982; 51(1):156-60. PubMed ID: 7070305
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  • 6. Effect of particle-particle shearing on the bioleaching of sulfide minerals.
    Chong N, Karamanev DG, Margaritis A.
    Biotechnol Bioeng; 2002 Nov 05; 80(3):349-57. PubMed ID: 12226868
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  • 7. 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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  • 8. Microbiological leaching of a chalcopyrite concentrate by Thiobacillus ferrooxidans.
    Sakaguchi H, Silver M.
    Biotechnol Bioeng; 1976 Aug 15; 18(8):1091-1101. PubMed ID: 953169
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  • 9. 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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  • 10. [Attachment of Sulfobacillus thermosulfidooxidans cells to the surface of sulfide minerals].
    Golovacheva RS.
    Mikrobiologiia; 1979 May 15; 48(3):528-33. PubMed ID: 381851
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  • 11. 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 15; 65(12):5285-92. PubMed ID: 10583978
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  • 12. Bacterial leaching of a sulfide ore by Thiobacillus ferrooxidans and Thiobacillus thiooxidans: I. Shake flask studies.
    Lizama HM, Suzuki I.
    Biotechnol Bioeng; 1988 Jun 20; 32(1):110-6. PubMed ID: 18584725
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  • 13. Pyrite oxidation by Thiobacillus ferrooxidans with special reference to the sulphur moiety of the mineral.
    Arkesteyn GJ.
    Antonie Van Leeuwenhoek; 1979 Jun 20; 45(3):423-35. PubMed ID: 45294
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  • 14. Mineral and iron oxidation at low temperatures by pure and mixed cultures of acidophilic microorganisms.
    Dopson M, Halinen AK, Rahunen N, Ozkaya B, Sahinkaya E, Kaksonen AH, Lindström EB, Puhakka JA.
    Biotechnol Bioeng; 2007 Aug 01; 97(5):1205-15. PubMed ID: 17187443
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  • 15. Effect of applied potentials on the activity and growth of Thiobacillus ferrooxidans.
    Natarajan KA.
    Biotechnol Bioeng; 1992 Apr 15; 39(9):907-13. PubMed ID: 18601028
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  • 16. Mechanism of pyrite dissolution in the presence of Thiobacillus ferrooxidans.
    Fowler TA, Holmes PR, Crundwell FK.
    Appl Environ Microbiol; 1999 Jul 15; 65(7):2987-93. PubMed ID: 10388693
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  • 17. Bioleaching of zinc sulfide concentrate by Thiobacillus ferrooxidans.
    Konishi Y, Kubo H, Asai S.
    Biotechnol Bioeng; 1992 Jan 05; 39(1):66-74. PubMed ID: 18600888
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  • 18. [Dependence of the rate of ferrous oxide oxidation by a Thiobacillus ferrooxidans culture on its concentration].
    Kovrov BG, Denisov GV, Sekacheva LG.
    Mikrobiologiia; 1978 Jan 05; 47(3):400-2. PubMed ID: 672678
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  • 19. Kinetics of pyrite, pyrrhotite, and chalcopyrite dissolution by Acidithiobacillus ferrooxidans.
    Kocaman AT, Cemek M, Edwards KJ.
    Can J Microbiol; 2016 Aug 05; 62(8):629-42. PubMed ID: 27332502
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  • 20. Role of Thiobacillus ferrooxidans in the oxidation of sulfide minerals.
    Duncan DW, Landesman J, Walden CC.
    Can J Microbiol; 1967 Apr 05; 13(4):397-403. PubMed ID: 6034412
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