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Biofouling
The Journal of Bioadhesion and Biofilm Research
Volume 7, 1993 - Issue 3
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Original Articles

Corrosion of mild steel underneath aerobic biofilms containing sulfate‐reducing bacteria part I: At low dissolved oxygen concentration

Whonchee Lee Center for Interfacial Microbial Process Engineering, Montana State University, Bozeman, MT, 59717, USA
,
Zbigniew Lewandowski Center for Interfacial Microbial Process Engineering, Montana State University, Bozeman, MT, 59717, USA
,
Sathoshi Okabe Center for Interfacial Microbial Process Engineering, Montana State University, Bozeman, MT, 59717, USA
,
William G Characklis Center for Interfacial Microbial Process Engineering, Montana State University, Bozeman, MT, 59717, USA
&
Recep Avcl Physics Department, Montana State University, Bozeman, MT, 59717, USA
Pages 197-216 | Received 01 Sep 1992, Accepted 20 Mar 1993, Published online: 09 Jan 2009

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Brenda Little, Jason Lee & Richard Ray. (2007) A review of ‘green’ strategies to prevent or mitigate microbiologically influenced corrosion. Biofouling 23:2, pages 87-97.
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W A Hamilton. (2003) Microbially Influenced Corrosion as a Model System for the Study of Metal Microbe Interactions: A Unifying Electron Transfer Hypothesis. Biofouling 19:1, pages 65-76.
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HectorA Videla. (2000) An overview of mechanisms by which sulphate‐reducing bacteria influence corrosion of steel in marine environments. Biofouling 15:1-3, pages 37-47.
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W. Allan Hamilton. (1998) Sulfate‐reducing bacteria: Physiology determines their environmental impact. Geomicrobiology Journal 15:1, pages 19-28.
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S Okabe, P H Nielsen, W L Jones & W G Characklis. (1995) Rate and stoichiometry of microbial sulfate reduction by Desulfovibrio desulfuricans in biofilms. Biofouling 9:1, pages 63-83.
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Whonchee Lee & Dirk de Beer. (1995) Oxygen and pH microprofiles above corroding mild steel covered with a biofilm. Biofouling 8:4, pages 273-280.
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Whonchee Lee, Zbigniew Lewandowski, PerH Nielsen & W Allan Hamilton. (1995) Role of sulfate‐reducing bacteria in corrosion of mild steel: A review. Biofouling 8:3, pages 165-194.
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Per Halkjær Nielsen, Whonchee Lee, Zbigniew Lewandowski, Mike Morison & WilliamG Characklis. (1993) Corrosion of mild steel in an alternating oxic and anoxic biofilm system. Biofouling 7:4, pages 267-284.
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Whonchee Lee, Zbigniew Lewandowski, Mike Morrison, WilliamG Characklis, Recep Avci & PerH Nielsen. (1993) Corrosion of mild steel underneath aerobic biofilms containing sulfate‐reducing bacteria part II: At high dissolved oxygen concentration. Biofouling 7:3, pages 217-239.
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Articles from other publishers (35)

Woo Hyoung Lee, David G. Wahman, Darren A. Lytle, Jonathan G. Pressman & Jongik Chung. (2023) Microelectrode evaluation of in situ oxidant reactivity and pH variability at new ductile iron and copper coupon surfaces. Water Research 243, pages 120352.
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Larry L. Barton & Guy D. FauqueLarry L. Barton & Guy D. Fauque. 2022. Sulfate-Reducing Bacteria and Archaea. Sulfate-Reducing Bacteria and Archaea 427 462 .
Hongwei Liu & Y. Frank Cheng. (2020) Corrosion of X52 pipeline steel in a simulated soil solution with coexistence of Desulfovibrio desulfuricans and Pseudomonas aeruginosa bacteria. Corrosion Science 173, pages 108753.
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Blake W. Stamps, Caitlin L. Bojanowski, Carrie A. Drake, Heather S. Nunn, Pamela F. Lloyd, James G. Floyd, Katelyn A. Emmerich, Abby R. Neal, Wendy J. Crookes-Goodson & Bradley S. Stevenson. (2020) In situ Linkage of Fungal and Bacterial Proliferation to Microbiologically Influenced Corrosion in B20 Biodiesel Storage Tanks. Frontiers in Microbiology 11.
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Ji-Dong Gu. 2018. Handbook of Environmental Degradation of Materials. Handbook of Environmental Degradation of Materials 273 298 .
Keukeu K. Rosada, Navisan Najia, Rahma Widya Ningrum, Dea Indriani Astuti, Gede Suantika & Pingkan Aditiawati. (2016) The Ability of Biofilm Community Sampled from Metal Surfaces at Saguling Hydro Power in Utilizing Carbon Sources by Using Biolog EcoPlateTM. Journal of Biological Sciences 17:1, pages 11-20.
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Jiajia Wu, Dun Zhang, Peng Wang, Yong Cheng, Shimei Sun, Yan Sun & Shiqiang Chen. (2016) The influence of Desulfovibrio sp. and Pseudoalteromonas sp. on the corrosion of Q235 carbon steel in natural seawater. Corrosion Science 112, pages 552-562.
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John R. Lawrence, Thomas R. Neu, Armelle Paule, Darren R. Korber & Gideon M. Wolfaardt. 2016. Manual of Environmental Microbiology. Manual of Environmental Microbiology 4.2.3-1 4.2.3-33 .
Balakrishnan Anandkumar, Rani P. George, Sundaram Maruthamuthu, Natarajan Parvathavarthini & Uthandi Kamachi Mudali. (2016) Corrosion characteristics of sulfate-reducing bacteria (SRB) and the role of molecular biology in SRB studies: an overview. Corrosion Reviews 34:1-2, pages 41-63.
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Yajie Chen, Qiong Tang, John M. Senko, Gang Cheng, Bi-min Zhang Newby, Homero Castaneda & Lu-Kwang Ju. (2015) Long-term survival of Desulfovibrio vulgaris on carbon steel and associated pitting corrosion. Corrosion Science 90, pages 89-100.
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K.M. Usher, A.H. Kaksonen, I. Cole & D. Marney. (2014) Critical review: Microbially influenced corrosion of buried carbon steel pipes. International Biodeterioration & Biodegradation 93, pages 84-106.
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Kimberly L. Keller, Barbara J. Rapp-Giles, Elizabeth S. Semkiw, Iris Porat, Steven D. Brown & Judy D. Wall. (2014) New Model for Electron Flow for Sulfate Reduction in Desulfovibrio alaskensis G20. Applied and Environmental Microbiology 80:3, pages 855-868.
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B.J. Little, R.I. Ray & J.S. Lee. 2014. Understanding Biocorrosion. Understanding Biocorrosion 329 340 .
Tristan Rees-WhiteRichard BeavenWilliam PowrieDarren Cole. (2013) Investigating clogging failure mechanisms of leachate extraction wells in landfills. Canadian Geotechnical Journal 50:11, pages 1179-1187.
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Ji-Dong Gu & Ralph Mitchell. 2013. The Prokaryotes. The Prokaryotes 309 341 .
Juan Di Wang & Wei Zhong Gan. (2012) Risk Evaluation of Steel Structure Corrosion in Soft Foundation in the East Coast of Zhejiang. Applied Mechanics and Materials 256-259, pages 1912-1918.
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Ji-Dong Gu. 2012. Handbook of Environmental Degradation of Materials. Handbook of Environmental Degradation of Materials 243 282 .
J. S. Lee, R. I. Ray & B. J. Little. (2010) Technical Note: Influence of Experimental Conditions on the Outcome of Laboratory Investigations Using Natural Coastal Seawaters . CORROSION 66:1, pages 015001-015001-6.
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Leonardo De Silva Muñoz, Alain Bergel & Régine Basséguy. (2007) Role of the reversible electrochemical deprotonation of phosphate species in anaerobic biocorrosion of steels. Corrosion Science 49:10, pages 3988-4004.
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Iwona B. Beech & Jan A. Sunner. 2009. Sulphate-Reducing Bacteria. Sulphate-Reducing Bacteria 459 482 .
Yu. A. Nikolaev & V. K. Plakunov. (2007) Biofilm—“City of microbes” or an analogue of multicellular organisms?. Microbiology 76:2, pages 125-138.
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J. J. Santana Rodríguez & J. E. González González. (2006) Identification and formation of green rust 2 as an atmospheric corrosion product of carbon steel in marine atmospheres. Materials and Corrosion 57:5, pages 411-417.
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Ji-Dong Gu & Ralph Mitchell. 2006. The Prokaryotes. The Prokaryotes 864 903 .
Casey Hubert, Mehdi Nemati, Gary Jenneman & Gerrit Voordouw. (2005) Corrosion risk associated with microbial souring control using nitrate or nitrite. Applied Microbiology and Biotechnology 68:2, pages 272-282.
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Ji-Dong Gu. 2005. Handbook of Environmental Degradation of Materials. Handbook of Environmental Degradation of Materials 179 206 .
Brenda J. Little, Florian B. Mansfeld, Peggy J. Arps & James C. Earthman. 2007. Encyclopedia of Electrochemistry. Encyclopedia of Electrochemistry.
Iwona B. Beech. 2003. Encyclopedia of Environmental Microbiology. Encyclopedia of Environmental Microbiology.
Ralf Cord-Ruwisch. 2000. Environmental Microbe-Metal Interactions. Environmental Microbe-Metal Interactions 159 173 .
D. Starosvetsky, O. Khaselev, J. Starosvetsky, R. Armon & J. Yahalom. (2000) Effect of iron exposure in SRB media on pitting initiation. Corrosion Science 42:2, pages 345-359.
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Satoshi Okabe, Tsukasa Itoh, Hisashi Satoh & Yoshimasa Watanabe. (1999) Analyses of Spatial Distributions of Sulfate-Reducing Bacteria and Their Activity in Aerobic Wastewater Biofilms. Applied and Environmental Microbiology 65:11, pages 5107-5116.
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Hisashi SATOH, Satoshi OKABE, Tsukasa ITOH & Yoshimasa WATANABE. (1998) Microelectrode Measurements of Sulfate Reduction in Microaerobic Biofilms. Journal of Japan Society on Water Environment 21:6, pages 367-375.
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D E Nivens, R J PalmerJrJr & D C White. (1995) Continuous nondestructive monitoring of microbial biofilms: A review of analytical techniques. Journal of Industrial Microbiology 15:4, pages 263-276.
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G A James, L Beaudette & J W Costerton. (1995) Interspecies bacterial interactions in biofilms. Journal of Industrial Microbiology 15:4, pages 257-262.
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W. Allan Hamilton & Whonchee Lee. 1995. Sulfate-Reducing Bacteria. Sulfate-Reducing Bacteria 243 264 .
Paul Stoodley, Dirk deBeer & Zbigniew Lewandowski. (1994) Liquid Flow in Biofilm Systems. Applied and Environmental Microbiology 60:8, pages 2711-2716.
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