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Journal Abstract Search

184 related items for PubMed ID: 31655738

  • 1. Dissimilatory reduction of sulfate and zero-valent sulfur at low pH and its significance for bioremediation and metal recovery.
    Johnson DB, Sánchez-Andrea I.
    Adv Microb Physiol; 2019; 75():205-231. PubMed ID: 31655738
    [Abstract] [Full Text] [Related]

  • 2. Realizing high-rate sulfur reduction under sulfate-rich conditions in a biological sulfide production system to treat metal-laden wastewater deficient in organic matter.
    Sun R, Zhang L, Zhang Z, Chen GH, Jiang F.
    Water Res; 2018 Mar 15; 131():239-245. PubMed ID: 29291485
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  • 3. Biodiversity, metabolism and applications of acidophilic sulfur-metabolizing microorganisms.
    Dopson M, Johnson DB.
    Environ Microbiol; 2012 Oct 15; 14(10):2620-31. PubMed ID: 22510111
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  • 6. Hydrogen sulfide: a toxic gas produced by dissimilatory sulfate and sulfur reduction and consumed by microbial oxidation.
    Barton LL, Fardeau ML, Fauque GD.
    Met Ions Life Sci; 2014 Oct 15; 14():237-77. PubMed ID: 25416397
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  • 7. Elemental sulfur-driven sulfidogenic process under highly acidic conditions for sulfate-rich acid mine drainage treatment: Performance and microbial community analysis.
    Sun R, Zhang L, Wang X, Ou C, Lin N, Xu S, Qiu YY, Jiang F.
    Water Res; 2020 Oct 15; 185():116230. PubMed ID: 32784032
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  • 8. Arsenite removal without thioarsenite formation in a sulfidogenic system driven by sulfur reducing bacteria under acidic conditions.
    Sun J, Hong Y, Guo J, Yang J, Huang D, Lin Z, Jiang F.
    Water Res; 2019 Mar 15; 151():362-370. PubMed ID: 30616048
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  • 10. Microbial community functional structure in response to micro-aerobic conditions in sulfate-reducing sulfur-producing bioreactor.
    Yu H, Chen C, Ma J, Xu X, Fan R, Wang A.
    J Environ Sci (China); 2014 May 01; 26(5):1099-107. PubMed ID: 25079640
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  • 12. Sulfate reduction at low pH to remediate acid mine drainage.
    Sánchez-Andrea I, Sanz JL, Bijmans MF, Stams AJ.
    J Hazard Mater; 2014 Mar 30; 269():98-109. PubMed ID: 24444599
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  • 13. pH-dependent biological sulfidogenic processes for metal-laden wastewater treatment: Sulfate reduction or sulfur reduction?
    Guo J, Li Y, Sun J, Sun R, Zhou S, Duan J, Feng W, Liu G, Jiang F.
    Water Res; 2021 Oct 01; 204():117628. PubMed ID: 34507021
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  • 14. The bioenergetics mechanisms and applications of sulfate-reducing bacteria in remediation of pollutants in drainage: A review.
    Li X, Lan SM, Zhu ZP, Zhang C, Zeng GM, Liu YG, Cao WC, Song B, Yang H, Wang SF, Wu SH.
    Ecotoxicol Environ Saf; 2018 Aug 30; 158():162-170. PubMed ID: 29684746
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  • 17. Microbial dissimilatory sulfur cycle in acid mine water.
    Tuttle JH, Dugan PR, Macmillan CB, Randles CI.
    J Bacteriol; 1969 Feb 30; 97(2):594-602. PubMed ID: 5773013
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  • 18. Acidophilic sulphate-reducing bacteria: Diversity, ecophysiology, and applications.
    Valdez-Nuñez LF, Kappler A, Ayala-Muñoz D, Chávez IJ, Mansor M.
    Environ Microbiol Rep; 2024 Oct 30; 16(5):e70019. PubMed ID: 39396517
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  • 19. Competitive Growth of Sulfate-Reducing Bacteria with Bioleaching Acidophiles for Bioremediation of Heap Bioleaching Residue.
    Phyo AK, Jia Y, Tan Q, Sun H, Liu Y, Dong B, Ruan R.
    Int J Environ Res Public Health; 2020 Apr 15; 17(8):. PubMed ID: 32326522
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  • 20. Sulfate reduction and mixotrophic sulfide-utilization denitrification integrated biofilm process for sulfate-laden wastewater treatment and sulfur recovery.
    Li W, Liang X, Lin J, Cao B, Guo P, Liu X, Wang Z.
    Water Sci Technol; 2015 Apr 15; 71(12):1852-8. PubMed ID: 26067506
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