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  1. 1
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  2. 2
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  3. 3
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  4. 4
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  5. 5
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  6. 6
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  7. 7
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  8. 8
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  9. 9
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  10. 10
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  11. 11
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  13. 13
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  14. 14
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  15. 15
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  16. 16
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  17. 17
    B.R. Mohapatra, O. Dinardo, W.D. Gould, D.W. Koren, Reference Module in Earth Systems and Environmental Sciences, 2014,

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  18. 18
    I.M. Cozzarelli, J.R. Mckelvie, A.L. Baehr, Treatise on Geochemistry, 2014,

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  19. 19
    J.P. Megonigal, M.E. Hines, P.T. Visscher, Treatise on Geochemistry, 2014,

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  20. 20
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    CrossRef

  21. 21
    B. Dhal, H.N. Thatoi, N.N. Das, B.D. Pandey, Chemical and microbial remediation of hexavalent chromium from contaminated soil and mining/metallurgical solid waste: A review, Journal of Hazardous Materials, 2013, 250-251, 272

    CrossRef

  22. 22
    Diego Salamanca, Niko Strunk, Karl-Heinrich Engesser, Chromate Reduction in Anaerobic Systems by Bacterial Strain Pseudomonas aeruginosa CRM100, Chemie Ingenieur Technik, 2013, 85, 10
  23. 23
    M. Narayani, K. Vidya Shetty, Chromium-Resistant Bacteria and Their Environmental Condition for Hexavalent Chromium Removal: A Review, Critical Reviews in Environmental Science and Technology, 2013, 43, 9, 955

    CrossRef

  24. 24
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    CrossRef

  25. 25
    S. Krishnamurthi, S. Spring, P. A. Kumar, S. Mayilraj, H.-P. Klenk, K. Suresh, Desulfotomaculum defluvii sp. nov., a sulfate-reducing bacterium isolated from the subsurface environment of a landfill, INTERNATIONAL JOURNAL OF SYSTEMATIC AND EVOLUTIONARY MICROBIOLOGY, 2013, 63, Pt 6, 2290

    CrossRef

  26. 26
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    CrossRef

  27. 27
    Irene Sánchez-Andrea, Alfons J. M. Stams, Ricardo Amils, José Luis Sanz, Enrichment and isolation of acidophilic sulfate-reducing bacteria from Tinto River sediments, Environmental Microbiology Reports, 2013, 5, 5
  28. 28
    X.L. Zhang, S. Yan, R.D. Tyagi, R.Y. Surampalli, Odor control in lagoons, Journal of Environmental Management, 2013, 124, 62

    CrossRef

  29. 29
    Ludovic Giloteaux, Robert Duran, Corinne Casiot, Odile Bruneel, Françoise Elbaz-Poulichet, Marisol Goñi-Urriza, Three-year survey of sulfate-reducing bacteria community structure in Carnoulès acid mine drainage (France), highly contaminated by arsenic, FEMS Microbiology Ecology, 2013, 83, 3
  30. 30
    Chih-Ching Chien, Applications of Microbial Engineering, 2013,

    CrossRef

  31. 31
    Laurent Quillet, Ludovic Besaury, Milka Popova, Sandrine Paissé, Julien Deloffre, Baghdad Ouddane, Abundance, Diversity and Activity of Sulfate-Reducing Prokaryotes in Heavy Metal-Contaminated Sediment from a Salt Marsh in the Medway Estuary (UK), Marine Biotechnology, 2012, 14, 3, 363

    CrossRef

  32. 32
    Matthew Coggon, Caryl Ann Becerra, Klaus Nüsslein, Karen Miller, Richard Yuretich, Sarina J. Ergas, Bioavailability of jarosite for stimulating acid mine drainage attenuation, Geochimica et Cosmochimica Acta, 2012, 78, 65

    CrossRef

  33. 33
    Ian T. Burke, Robert J. G. Mortimer, Shanmugam Palaniyandi, Robert A. Whittleston, Cindy L. Lockwood, David J. Ashley, Douglas I. Stewart, Biogeochemical Reduction Processes in a Hyper-Alkaline Leachate Affected Soil Profile, Geomicrobiology Journal, 2012, 29, 9, 769

    CrossRef

  34. 34
    Zhan Wei, Stephen Hillier, Geoffrey M. Gadd, Biotransformation of manganese oxides by fungi: solubilization and production of manganese oxalate biominerals, Environmental Microbiology, 2012, 14, 7
  35. 35
    Xiaoqi (Jackie) Zhang, Factors Influencing Iron Reduction–Induced Phosphorus Precipitation, Environmental Engineering Science, 2012, 29, 6, 511

    CrossRef

  36. 36
    Kim M. Handley, Kelly C. Wrighton, Yvette M. Piceno, Gary L. Andersen, Todd Z. DeSantis, Kenneth H. Williams, Michael J. Wilkins, A. Lucie N'Guessan, Aaron Peacock, John Bargar, Philip E. Long, Jillian F. Banfield, High-density PhyloChip profiling of stimulated aquifer microbial communities reveals a complex response to acetate amendment, FEMS Microbiology Ecology, 2012, 81, 1
  37. 37
    Yiguo Hong, Peng Wu, Wenru Li, Jiguang Gu, Shunshan Duan, Humic analog AQDS and AQS as an electron mediator can enhance chromate reduction by Bacillus sp. strain 3C3, Applied Microbiology and Biotechnology, 2012, 93, 6, 2661

    CrossRef

  38. 38
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    CrossRef

  39. 39
    Kelly Cho, Alma Zholi, Dylan Frabutt, Matthew Flood, Dalton Floyd, Sonia M. Tiquia, Linking bacterial diversity and geochemistry of uranium-contaminated groundwater, Environmental Technology, 2012, 33, 14, 1629

    CrossRef

  40. 40
    Nelson Durán, Amedea B. Seabra, Metallic oxide nanoparticles: state of the art in biogenic syntheses and their mechanisms, Applied Microbiology and Biotechnology, 2012, 95, 2, 275

    CrossRef

  41. 41
    D. LIU, H. DONG, M. E. BISHOP, J. ZHANG, H. WANG, S. XIE, S. WANG, L. HUANG, D. D. EBERL, Microbial reduction of structural iron in interstratified illite-smectite minerals by a sulfate-reducing bacterium, Geobiology, 2012, 10, 2
  42. 42
    Raymond Atta-Fynn, Donald F. Johnson, Eric J. Bylaska, Eugene S. Ilton, Gregory K. Schenter, Wibe A. de Jong, Structure and Hydrolysis of the U(IV), U(V), and U(VI) Aqua Ions from Ab Initio Molecular Simulations, Inorganic Chemistry, 2012, 51, 5, 3016

    CrossRef

  43. 43
    Ji-Dong Gu, Handbook of Environmental Degradation of Materials, 2012,

    CrossRef

  44. 44
    Sourish Karmakar, Arka Kundu, Kanika Kundu, Subir Kundu, Wastewater Treatment, 2012,

    CrossRef

  45. 45
    Pankaj Kumar Srivastava, Aradhana Vaish, Sanjay Dwivedi, Debasis Chakrabarty, Nandita Singh, Rudra Deo Tripathi, Biological removal of arsenic pollution by soil fungi, Science of The Total Environment, 2011, 409, 12, 2430

    CrossRef

  46. 46
    Yu. N. Vodyanitskii, Chemical aspects of uranium behavior in soils: A review, Eurasian Soil Science, 2011, 44, 8, 862

    CrossRef

  47. 47
    Hong Chen, Xiaojuan Li, Zhiwei Xu, Cr(VI) remediation by enriched sediment with anthraquinone-2,6-disulfonate as electron shuttles, Physics and Chemistry of the Earth, Parts A/B/C, 2011, 36, 9-11, 451

    CrossRef

  48. 48
    Hyeng-Sik Son, Hee-Jong Son, Mi-A Kim, Sang-Joon Lee, Distribution of Electrochemically Active Bacteria in Activated Sludge Characteristics, KSBB Journal, 2011, 26, 5, 407

    CrossRef

  49. 49
    Chun-Hua Li, Chun Ye, Yuk-Shan Wong, Nora Fung-Yee Tam, Effect of Mn(IV) on the biodegradation of polycyclic aromatic hydrocarbons under low-oxygen condition in mangrove sediment slurry, Journal of Hazardous Materials, 2011, 190, 1-3, 786

    CrossRef

  50. 50
    YuXing Sheng, HongBin Cao, YuPing Li, Yi Zhang, Effects of sulfide on sulfate reducing bacteria in response to Cu(II), Hg(II) and Cr(VI) toxicity, Chinese Science Bulletin, 2011, 56, 9, 862

    CrossRef

  51. 51
    Hyo-Taek Chon, Jin-Soo Lee, Jong-Un Lee, Heavy Metal Contamination of Soil, Its Risk Assessment and Bioremediation, Geosystem Engineering, 2011, 14, 4, 191

    CrossRef

  52. 52
    V. Somasundaram, Ligy Philip, S. Murty Bhallamudi, Laboratory scale column studies on transport and biotransformation of Cr(VI) through porous media in presence of CRB, SRB and IRB, Chemical Engineering Journal, 2011, 171, 2, 572

    CrossRef

  53. 53
    Jinjun Kan, Yanbing Wang, Anna Obraztsova, Gunther Rosen, James Leather, Kirk G. Scheckel, Kenneth H. Nealson, Y. Meriah Arias-Thode, Marine microbial community response to inorganic and organic sediment amendments in laboratory mesocosms, Ecotoxicology and Environmental Safety, 2011, 74, 7, 1931

    CrossRef

  54. 54
    Pilar Junier, Elena Dalla Vecchia, Rizlan Bernier-Latmani, The Response ofDesulfotomaculum reducensMI-1 to U(VI) Exposure: A Transcriptomic Study, Geomicrobiology Journal, 2011, 28, 5-6, 483

    CrossRef

  55. 55
    B.R. Mohapatra, O. Dinardo, W.D. Gould, D.W. Koren, Comprehensive Biotechnology, 2011,

    CrossRef

  56. 56
    Mark A. Lever, Verena B. Heuer, Yuki Morono, Noriaki Masui, Frauke Schmidt, Marc J. Alperin, Fumio Inagaki, Kai-Uwe Hinrichs, Andreas Teske, Acetogenesis in Deep Subseafloor Sediments of The Juan de Fuca Ridge Flank: A Synthesis of Geochemical, Thermodynamic, and Gene-based Evidence, Geomicrobiology Journal, 2010, 27, 2, 183

    CrossRef

  57. 57
    Bidyut R. Mohapatra, Orlando Dinardo, W. Douglas Gould, David W. Koren, Biochemical and genomic facets on the dissimilatory reduction of radionuclides by microorganisms – A review, Minerals Engineering, 2010, 23, 8, 591

    CrossRef

  58. 58
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    CrossRef

  59. 59
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    CrossRef

  60. 60
    David Christian, Edmund Wong, Ronald L. Crawford, I. Francis Cheng, Thomas F. Hess, Heavy metals removal from mine runoff using compost bioreactors, Environmental Technology, 2010, 31, 14, 1533

    CrossRef

  61. 61
    Amparo Mauricio Gutiérrez, Juan José Peña Cabriales, María Maldonado Vega, Isolation and Characterization of Hexavalent Chromium-Reducing Rhizospheric Bacteria From a Wetland, International Journal of Phytoremediation, 2010, 12, 4, 317

    CrossRef

  62. 62
    G. M. Gadd, Metals, minerals and microbes: geomicrobiology and bioremediation, Microbiology, 2010, 156, 3, 609

    CrossRef

  63. 63
    Katrin Wendt-Potthoff, Elke Bozau, René Frömmichen, Jutta Meier, Matthias Koschorreck, Microbial iron reduction during passive in situ remediation of an acidic mine pit lake mesocosm, Limnologica - Ecology and Management of Inland Waters, 2010, 40, 2, 175

    CrossRef

  64. 64
    Timothy S. Magnuson, Michael W. Swenson, Andrzej J. Paszczynski, Lee A. Deobald, David Kerk, David E. Cummings, Proteogenomic and functional analysis of chromate reduction in Acidiphilium cryptum JF-5, an Fe(III)-respiring acidophile, BioMetals, 2010, 23, 6, 1129

    CrossRef

  65. 65
    N. G. Kuimova, A. P. Sorokin, Scope of bacterial concentration of gold in technogenic placers of upper priamurye, Doklady Earth Sciences, 2010, 430, 1, 43

    CrossRef

  66. 66
    Pilar Junier, Thomas Junier, Sheila Podell, David R. Sims, John C. Detter, Athanasios Lykidis, Cliff S. Han, Nicholas S. Wigginton, Terry Gaasterland, Rizlan Bernier-Latmani, The genome of the Gram-positive metal- and sulfate-reducing bacterium Desulfotomaculum reducens strain MI-1, Environmental Microbiology, 2010, 12, 10
  67. 67
    Xiluo Hao, Kwunlun Leung, Rucheng Wang, Weidong Sun, Yiliang Li, The geomicrobiology of bauxite deposits, Geoscience Frontiers, 2010, 1, 1, 81

    CrossRef

  68. 68
    Casey Hubert, Carol Arnosti, Volker Brüchert, Alexander Loy, Verona Vandieken, Bo Barker Jørgensen, Thermophilic anaerobes in Arctic marine sediments induced to mineralize complex organic matter at high temperature, Environmental Microbiology, 2010, 12, 4
  69. 69
    Elena Dalla Vecchia, Harish Veeramani, Elena I. Suvorova, Nicholas S. Wigginton, John R. Bargar, Rizlan Bernier-Latmani, U(VI) reduction by spores of Clostridium acetobutylicum, Research in Microbiology, 2010, 161, 9, 765

    CrossRef

  70. 70
    Anne-Catherine Lehours, Isabelle Batisson, Annie Guedon, Gilles Mailhot, Gerard Fonty, Diversity of Culturable Bacteria, from the Anaerobic Zone of the Meromictic Lake Pavin, Able to Perform Dissimilatory-Iron Reduction in Different in Vitro Conditions, Geomicrobiology Journal, 2009, 26, 3, 212

    CrossRef

  71. 71
    Joy D. Van Nostrand, Wei-Min Wu, Liyou Wu, Ye Deng, Jack Carley, Sue Carroll, Zhili He, Baohua Gu, Jian Luo, Craig S. Criddle, David B. Watson, Philip M. Jardine, Terence L. Marsh, James M. Tiedje, Terry C. Hazen, Jizhong Zhou, GeoChip-based analysis of functional microbial communities during the reoxidation of a bioreduced uranium-contaminated aquifer, Environmental Microbiology, 2009, 11, 10
  72. 72
    E. J. Beal, C. H. House, V. J. Orphan, Manganese- and Iron-Dependent Marine Methane Oxidation, Science, 2009, 325, 5937, 184

    CrossRef

  73. 73
    Pilar Junier, Manon Frutschi, Nicholas S. Wigginton, Eleanor J. Schofield, John R. Bargar, Rizlan Bernier-Latmani, Metal reduction by spores of Desulfotomaculum reducens, Environmental Microbiology, 2009, 11, 12
  74. 74
    Larry L. Barton, Guy D. Fauque, 2009,

    CrossRef

  75. 75
    Yongjun Liu, Marcell Nikolausz, Pengkang Jin, Abundance and diversity of sulphate-reducing bacteria within a crude oil gathering and transferring system in China, Annals of Microbiology, 2008, 58, 4, 611

    CrossRef

  76. 76
    Mark D. Redwood, Kevin Deplanche, Victoria S. Baxter-Plant, Lynne E. Macaskie, Biomass-supported palladium catalysts on Desulfovibrio desulfuricans and Rhodobacter sphaeroides, Biotechnology and Bioengineering, 2008, 99, 5
  77. 77
    S.M. Tiquia, DIVERSITY OF SULFATE-REDUCING GENES (dsrAB) IN SEDIMENTS FROM PUGET SOUND, Environmental Technology, 2008, 29, 10, 1095

    CrossRef

  78. 78
    Hyung Soo Park, Shiping Lin, Gerrit Voordouw, Ferric iron reduction by Desulfovibrio vulgaris Hildenborough wild type and energy metabolism mutants, Antonie van Leeuwenhoek, 2008, 93, 1-2, 79

    CrossRef

  79. 79
    Geoffrey J. Puzon, Yan Huang, Alice Dohnalkova, Luying Xun, Isolation and characterization of an NAD+-degrading bacterium PTX1 and its role in chromium biogeochemical cycle, Biodegradation, 2008, 19, 3, 417

    CrossRef

  80. 80
    Martha I. Ramírez-Díaz, César Díaz-Pérez, Eréndira Vargas, Héctor Riveros-Rosas, Jesús Campos-García, Carlos Cervantes, Mechanisms of bacterial resistance to chromium compounds, BioMetals, 2008, 21, 3, 321

    CrossRef

  81. 81
    Sadhna Tiwari, Babita Kumari, S.N. Singh, Microbe-induced changes in metal extractability from fly ash, Chemosphere, 2008, 71, 7, 1284

    CrossRef

  82. 82
    Sung-Eun Lee, Jong-Un Lee, Hyo-Taek Chon, Jin-Soo Lee, Microbiological reduction of hexavalent chromium by indigenous chromium-resistant bacteria in sand column experiments, Environmental Geochemistry and Health, 2008, 30, 2, 141

    CrossRef

  83. 83
    B. E. Rotter, D. A. Barry, J. I. Gerhard, J. S. Small, Modeling U(VI) biomineralization in single- and dual-porosity porous media, Water Resources Research, 2008, 44, 8
  84. 84
    Peng Wang, Xiang Xiao, Haiyan Zhang, Fengping Wang, Molecular survey of sulphate-reducing bacteria in the deep-sea sediments of the west Pacific Warm Pool, Journal of Ocean University of China, 2008, 7, 3, 269

    CrossRef

  85. 85
    Demet Çetin, Sedat Dönmez, Gönül Dönmez, The treatment of textile wastewater including chromium(VI) and reactive dye by sulfate-reducing bacterial enrichment, Journal of Environmental Management, 2008, 88, 1, 76

    CrossRef

  86. 86
    Philip M. Jardine, 2008,

    CrossRef

  87. 87
    Alex O. Schwarz, Bruce E. Rittmann, A biogeochemical framework for metal detoxification in sulfidic systems, Biodegradation, 2007, 18, 6, 675

    CrossRef

  88. 88
    Alex O. Schwarz, Bruce E. Rittmann, Analytical-modeling analysis of how pore-water gradients of toxic metals confer community resistance, Advances in Water Resources, 2007, 30, 6-7, 1562

    CrossRef

  89. 89
    Vita Ratri CAHYANI, Jun MURASE, Eiji ISHIBASHI, Susumu ASAKAWA, Makoto KIMURA, Bacterial communities in manganese nodules in rice field subsoils: Estimation using PCR-DGGE and sequencing analyses, Soil Science & Plant Nutrition, 2007, 53, 5
  90. 90
    In Seop Chang, Byung Hong Kim, Effect of sulfate reduction activity on biological treatment of hexavalent chromium [Cr(VI)] contaminated electroplating wastewater under sulfate-rich condition, Chemosphere, 2007, 68, 2, 218

    CrossRef

  91. 91
    Lainie Edwards, Kirsten Küsel, Harold Drake, Joel E. Kostka, Electron flow in acidic subsurface sediments co-contaminated with nitrate and uranium, Geochimica et Cosmochimica Acta, 2007, 71, 3, 643

    CrossRef

  92. 92
    C. Oze, D. K. Bird, S. Fendorf, Genesis of hexavalent chromium from natural sources in soil and groundwater, Proceedings of the National Academy of Sciences, 2007, 104, 16, 6544

    CrossRef

  93. 93
    Zhili He, Terry J Gentry, Christopher W Schadt, Liyou Wu, Jost Liebich, Song C Chong, Zhijian Huang, Weimin Wu, Baohua Gu, Phil Jardine, Craig Criddle, Jizhong Zhou, GeoChip: a comprehensive microarray for investigating biogeochemical, ecological and environmental processes, The ISME Journal, 2007, 1, 1, 67

    CrossRef

  94. 94
    Robert A. Sanford, Qingzhong Wu, Youlboong Sung, Sara H. Thomas, Benjamin K. Amos, Emily K. Prince, Frank E. Löffler, Hexavalent uranium supports growth of Anaeromyxobacter dehalogenans and Geobacter spp. with lower than predicted biomass yields, Environmental Microbiology, 2007, 9, 11
  95. 95
    K.H. Cheung, Ji-Dong Gu, Mechanism of hexavalent chromium detoxification by microorganisms and bioremediation application potential: A review, International Biodeterioration & Biodegradation, 2007, 59, 1, 8

    CrossRef

  96. 96
    Tyrone L. Daulton, Brenda J. Little, Joanne Jones-Meehan, Douglas A. Blom, Lawrence F. Allard, Microbial reduction of chromium from the hexavalent to divalent state, Geochimica et Cosmochimica Acta, 2007, 71, 3, 556

    CrossRef

  97. 97
    G. B. Slobodkina, E. A. Bonch-Osmolovskaya, A. I. Slobodkin, Reduction of chromate, selenite, tellurite, and iron (III) by the moderately thermophilic bacterium Bacillus thermoamylovorans SKC1, Microbiology, 2007, 76, 5, 530

    CrossRef

  98. 98
    F. Battaglia-Brunet, C. Michel, C. Joulian, B. Ollivier, I. Ignatiadis, Relationship Between Sulphate Starvation and Chromate Reduction in a H2-fed Fixed-film Bioreactor, Water, Air, and Soil Pollution, 2007, 183, 1-4, 341

    CrossRef

  99. 99
    Frank Reith, Maggy F Lengke, Donna Falconer, David Craw, Gordon Southam, The geomicrobiology of gold, The ISME Journal, 2007, 1, 7, 567

    CrossRef

  100. 100
    G.T. Kim, G. Webster, J.W.T. Wimpenny, B.H. Kim, H.J. Kim, A.J. Weightman, Bacterial community structure, compartmentalization and activity in a microbial fuel cell, Journal of Applied Microbiology, 2006, 101, 3
  101. 101
    Roumen Zlatev, Jean-Pierre Magnin, Patrick Ozil, Margarita Stoytcheva, Bacterial sensors based on Acidithiobacillus ferrooxidans, Biosensors and Bioelectronics, 2006, 21, 8, 1501

    CrossRef

  102. 102
    A.C. Humphries, I.P. Mikheenko, L.E. Macaskie, Chromate reduction by immobilized palladized sulfate-reducing bacteria, Biotechnology and Bioengineering, 2006, 94, 1
  103. 103
    Stéphane Audry, Gérard Blanc, Jörg Schäfer, Gwénaëlle Chaillou, Sébastien Robert, Early diagenesis of trace metals (Cd, Cu, Co, Ni, U, Mo, and V) in the freshwater reaches of a macrotidal estuary, Geochimica et Cosmochimica Acta, 2006, 70, 9, 2264

    CrossRef

  104. 104
    S.E. Lee, J.-U. Lee, J.S. Lee, H.T. Chon, Effects of indigenous bacteria on Cr(VI) reduction in Cr-contaminated sediment with industrial wastes, Journal of Geochemical Exploration, 2006, 88, 1-3, 41

    CrossRef

  105. 105
    Christopher E. Bagwell, Xuaduan Liu, Liyou Wu, Jizhong Zhou, Effects of legacy nuclear waste on the compositional diversity and distributions of sulfate-reducing bacteria in a terrestrial subsurface aquifer, FEMS Microbiology Ecology, 2006, 55, 3
  106. 106
    C. R. ANDERSON, R. E. JAMES, E. C. FRU, C. B. KENNEDY, K. PEDERSEN, In situ ecological development of a bacteriogenic iron oxide-producing microbial community from a subsurface granitic rock environment, Geobiology, 2006, 4, 1
  107. 107
    Yi-Liang Li, Hojatollah Vali, John Yang, Tommy J. Phelps, Chuanlun L. Zhang, Reduction of Iron Oxides Enhanced by a Sulfate-Reducing Bacterium and Biogenic H2S, Geomicrobiology Journal, 2006, 23, 2, 103

    CrossRef

  108. 108
    Michael J. Wilkins, Francis R. Livens, David J. Vaughan, Jonathan R. Lloyd, The Impact of Fe(III)-reducing Bacteria on Uranium Mobility, Biogeochemistry, 2006, 78, 2, 125

    CrossRef

  109. 109
    Judy D. Wall, Lee R. Krumholz, Uranium Reduction, Annual Review of Microbiology, 2006, 60, 1, 149

    CrossRef

  110. 110
    Thilo Behrends, Philippe Van Cappellen, Competition between enzymatic and abiotic reduction of uranium(VI) under iron reducing conditions, Chemical Geology, 2005, 220, 3-4, 315

    CrossRef

  111. 111
    Wei-Min Wu, Baohua Gu, Matthew W. Fields, Margaret Gentile, Yee-Kyoung Ku, Hui Yan, Sonia Tiquias, Tingfen Yan, Jennifer Nyman, Jizhong Zhou, Phillip M. Jardine, Craig S. Criddle, Uranium (VI) Reduction by Denitrifying Biomass, Bioremediation Journal, 2005, 9, 1, 49

    CrossRef

  112. 112
    Ji-Dong Gu, Handbook of Environmental Degradation of Materials, 2005,

    CrossRef

  113. 113
    F. Battaglia-Brunet, S. Foucher, A. Denamur, M. Marggraff, D. Morin, I. Ignatiadis, Chromate reduction at low sulphate concentration in hydrogen-fed bioreactors, Environmental Technology, 2004, 25, 1, 101

    CrossRef

  114. 114
    Christopher Oze, Scott Fendorf, Dennis K. Bird, Robert G. Coleman, Chromium Geochemistry of Serpentine Soils, International Geology Review, 2004, 46, 2, 97

    CrossRef

  115. 115
    Yohey Suzuki, Shelly D. Kelly, Ken M. Kemner, Jillian F. Banfield, Enzymatic U(VI) reduction byDesulfosporosinusspecies, Radiochimica Acta, 2004, 92, 1-2004, 11

    CrossRef

  116. 116
    Yi-Liang Li, Hojatollah Vali, S.Kelly Sears, John Yang, Baolin Deng, Chuanlun L Zhang, Iron reduction and alteration of nontronite NAu-2 by a sulfate-reducing bacterium, Geochimica et Cosmochimica Acta, 2004, 68, 15, 3251

    CrossRef

  117. 117
    Geoffrey M. Gadd, Microbial influence on metal mobility and application for bioremediation, Geoderma, 2004, 122, 2-4, 109

    CrossRef

  118. 118
    R.K. Sani, B.M. Peyton, J.E. Amonette, G.G. Geesey, Reduction of uranium(VI) under sulfate-reducing conditions in the presence of Fe(III)-(hydr)oxides, Geochimica et Cosmochimica Acta, 2004, 68, 12, 2639

    CrossRef

  119. 119
    Derek R. Lovley, Dawn E. Holmes, Kelly P. Nevin, 2004,

    CrossRef

  120. 120
    Cuong Anh Pham, Sung Je Jung, Nguyet Thu Phung, Jiyoung Lee, In Seop Chang, Byung Hong Kim, Hana Yi, Jongsik Chun, A novel electrochemically active and Fe(III)-reducing bacterium phylogenetically related to Aeromonas hydrophila, isolated from a microbial fuel cell, FEMS Microbiology Letters, 2003, 223, 1
  121. 121
    Caroline Michel, Fabienne Battaglia-Brunet, Canh Tran Minh, Mireille Bruschi, Ioannis Ignatiadis, Amperometric cytochrome c3-based biosensor for chromate determination, Biosensors and Bioelectronics, 2003, 19, 4, 345

    CrossRef

  122. 122
    Jonathan R. Lloyd, Microbial reduction of metals and radionuclides, FEMS Microbiology Reviews, 2003, 27, 2-3
  123. 123
    Y. Meriah Arias, Anna Obraztsova, Bradley M. Tebo, Carlos Green-Ruiz, Natural Attenuation of Cr(VI) Contamination in Laboratory Mesocosms, Geomicrobiology Journal, 2003, 20, 4, 389

    CrossRef

  124. 124
    K.H. Cheung, Ji-Dong Gu, Reduction of chromate (CrO42−) by an enrichment consortium and an isolate of marine sulfate-reducing bacteria, Chemosphere, 2003, 52, 9, 1523

    CrossRef

  125. 125
    C.M. Hansel, B.W. Wielinga, Scott Fendorf, Structural and compositional evolution of Cr/Fe solids after indirect chromate reduction by dissimilatory iron-reducing bacteria, Geochimica et Cosmochimica Acta, 2003, 67, 3, 401

    CrossRef

  126. 126
    Eric A. Marchand, Joann Silverstein, The Role of Enhanced Heterotrophic Bacterial Growth on Iron Oxidation by Acidithiobacillus ferrooxidans, Geomicrobiology Journal, 2003, 20, 3, 231

    CrossRef

  127. 127
    Jonathan R Lloyd, Derek R Lovley, Lynne E Macaskie, Advances in Applied Microbiology Volume 53, 2003,

    CrossRef

  128. 128
    I.M. Cozzarelli, A.L. Baehr, Treatise on Geochemistry, 2003,

    CrossRef

  129. 129
    J.P. Megonigal, M.E. Hines, P.T. Visscher, Treatise on Geochemistry, 2003,

    CrossRef

  130. 130
    Oliver J. Hao, Handbook of Water and Wastewater Microbiology, 2003,

    CrossRef

  131. 131
    Geoffrey J. Puzon, James N. Petersen, Arthur G. Roberts, David M. Kramer, Luying Xun, A bacterial flavin reductase system reduces chromate to a soluble chromium(III)–NAD+ complex, Biochemical and Biophysical Research Communications, 2002, 294, 1, 76

    CrossRef

  132. 132
    B. Chardin, F. Chaspoul, P. Gallice, M. Bruschi, CHROMIUM SPECIATION IN BACTERIAL CULTURE MEDIUM BY COMBINING STRONG ANION EXCHANGE LIQUID CHROMATOGRAPHY WITH INDUCTIVELY COUPLED PLASMA MASS SPECTROMETRY. APPLICATION TO THE REDUCTION OF CR(VI) BY SULFATE-REDUCING BACTERIA, Journal of Liquid Chromatography & Related Technologies, 2002, 25, 6, 877

    CrossRef

  133. 133
    Shelley A Haveman, Karsten Pedersen, Microbially mediated redox processes in natural analogues for radioactive waste, Journal of Contaminant Hydrology, 2002, 55, 1-2, 161

    CrossRef

  134. 134
    Jeremy B. Fein, David A. Fowle, Joshua Cahill, Ken Kemner, Maxim Boyanov, Bruce Bunker, Nonmetabolic Reduction of Cr(VI) by Bacterial Surfaces Under Nutrient-Absent Conditions, Geomicrobiology Journal, 2002, 19, 3, 369

    CrossRef

  135. 135
    Jon R. Lloyd, Lynne E. Macaskie, Interactions of Microorganisms with Radionuclides, 2002,

    CrossRef

  136. 136
    Katherine Morris, Rob Raiswell, Interactions of Microorganisms with Radionuclides, 2002,

    CrossRef

  137. 137
    Anderson Robert T., Derek R. Lovley, Interactions of Microorganisms with Radionuclides, 2002,

    CrossRef

  138. 138
    Hyung Soo Park, Byung Hong Kim, Hyo Suk Kim, Hyung Joo Kim, Gwang Tae Kim, Mia Kim, In Seop Chang, Yong Keun Park, Hyo Ihl Chang, A Novel Electrochemically Active and Fe(III)-reducing Bacterium Phylogenetically Related to Clostridium butyricum Isolated from a Microbial Fuel Cell, Anaerobe, 2001, 7, 6, 297

    CrossRef

  139. 139
    J.R. Lloyd, A.N. Mabbett, D.R. Williams, L.E. Macaskie, Metal reduction by sulphate-reducing bacteria: physiological diversity and metal specificity, Hydrometallurgy, 2001, 59, 2-3, 327

    CrossRef

  140. 140
    Geoffrey Michael Gadd, Bioremedial potential of microbial mechanisms of metal mobilization and immobilization, Current Opinion in Biotechnology, 2000, 11, 3, 271

    CrossRef

  141. 141
    Scott Fendorf, Bruce W. Wielinga, Colleen M. Hansel, Chromium Transformations in Natural Environments: The Role of Biological and Abiological Processes in Chromium(VI) Reduction, International Geology Review, 2000, 42, 8, 691

    CrossRef

  142. 142
    Roy Wade, Thomas J DiChristina, Isolation of U(VI) reduction-deficient mutants of Shewanella putrefaciens, FEMS Microbiology Letters, 2000, 184, 2
  143. 143
    Temel Oguz, Hugh W. Ducklow, Paola Malanotte-Rizzoli, Modeling distinct vertical biogeochemical structure of the Black Sea: Dynamical coupling of the oxic, suboxic, and anoxic layers, Global Biogeochemical Cycles, 2000, 14, 4
  144. 144
    Hector F. Castro, Norris H. Williams, Andrew Ogram, Phylogeny of sulfate-reducing bacteria, FEMS Microbiology Ecology, 2000, 31, 1
  145. 145
    Paul S. Dobbin, Jon P. Carter, Carlos García-Salamanca San Juan, Marc Hobe, Anne K. Powell, David J. Richardson, Dissimilatory Fe(III) reduction by Clostridium beijerinckii isolated from freshwater sediment using Fe(III) maltol enrichment, FEMS Microbiology Letters, 1999, 176, 1
  146. 146
    Huifang Xu, Larry L. Barton, Pengchu Zhang, Yifeng Wang, TEM Investigation of U6+ and Re7+ Reduction by Desulfovibrio desulfuricans, a Sulfate-Reducing Bacterium, MRS Proceedings, 1999, 608,

    CrossRef

  147. 147
    Xu Han, Ji-Dong Gu, Sorption and Transformation of Toxic Metals by Microorganisms,
  148. 148
    Larry L. Barton, Richard M. Plunkett, Sulfate-Reducing Bacteria: Environmental and Technological Aspects, Encyclopedia of Environmental Microbiology,