Advanced search
Publication Cover
Biofouling
The Journal of Bioadhesion and Biofilm Research
Volume 7, 1993 - Issue 3
Submit an article Journal homepage
78
Views
48
CrossRef citations to date
0
Altmetric
Original Articles

Corrosion of mild steel underneath aerobic biofilms containing sulfate‐reducing bacteria part II: At high 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
,
Mike Morrison 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 Avci Physics Department, Montana State University, Bozeman, MT, 59717, USA
&
Per H Nielsen Environmental Engineering Laboratory, University of Aalborg, Denmark
Pages 217-239 | Received 01 Sep 1992, Accepted 20 Mar 1993, Published online: 09 Jan 2009

Citations (48)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (7)

B.B. Kjellerup, K.U. Kjeldsen, F. Lopes, L. Abildgaard, K. Ingvorsen, B. Frølund, K.R. Sowers & P.H. Nielsen. (2009) Biocorrosion and biofilm formation in a nutrient limited heating system subjected to alternating microaerophilic conditions. Biofouling 25:8, pages 727-737.
Read now
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.
Read now
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.
Read now
W. Allan Hamilton. (1998) Sulfate‐reducing bacteria: Physiology determines their environmental impact. Geomicrobiology Journal 15:1, pages 19-28.
Read now
Whonchee Lee & Dirk de Beer. (1995) Oxygen and pH microprofiles above corroding mild steel covered with a biofilm. Biofouling 8:4, pages 273-280.
Read now
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.
Read now
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.
Read now

Articles from other publishers (41)

J Knisz, R Eckert, L M Gieg, A Koerdt, J S Lee, E R Silva, T L Skovhus, B A An Stepec & S A Wade. (2023) Microbiologically influenced corrosion—more than just microorganisms. FEMS Microbiology Reviews 47:5.
Crossref
Min Qin, Guoxi He, Kexi Liao, Qing Zou, Shuai Zhao, Xinhui Jiang & Shijian Zhang. (2022) CO2-O2-SRB-Cl− Multifactor Synergistic Corrosion in Shale Gas Pipelines at a Low Liquid Flow Rate. Journal of Materials Engineering and Performance 31:6, pages 4820-4835.
Crossref
Larry L. Barton & Guy D. FauqueLarry L. Barton & Guy D. Fauque. 2022. Sulfate-Reducing Bacteria and Archaea. Sulfate-Reducing Bacteria and Archaea 427 462 .
Abdulhaqq Ibrahim, Kelly Hawboldt, Christina Bottaro & Faisal Khan. (2021) Simulation of sour‐oxic‐nitrite chemical environment in oil and gas facilities. The Canadian Journal of Chemical Engineering 99:S1.
Crossref
Hoang C. Phan, Linda L. Blackall & Scott A. Wade. (2021) Effect of Multispecies Microbial Consortia on Microbially Influenced Corrosion of Carbon Steel. Corrosion and Materials Degradation 2:2, pages 133-149.
Crossref
M. E. Emetere, S. A. Afolalu, L. M. Amusan & A. Mamudu. (2021) Role of Atmospheric Aerosol Content on Atmospheric Corrosion of Metallic Materials. International Journal of Corrosion 2021, pages 1-15.
Crossref
Tangqing Wu, Cheng Sun, Maocheng Yan, Jin Xu & Fucheng Yin. (2019) Sulfate-reducing bacteria-assisted cracking. Corrosion Reviews 37:3, pages 231-244.
Crossref
Paresh Kumar Samantaray, Giridhar Madras & Suryasarathi Bose. 2019. Next Generation Biomanufacturing Technologies. Next Generation Biomanufacturing Technologies 321 351 .
Muhammad Wasim, Shahrukh Shoaib, N. M. Mubarak, Inamuddin & Abdullah M. Asiri. (2018) Factors influencing corrosion of metal pipes in soils. Environmental Chemistry Letters 16:3, pages 861-879.
Crossref
Ji-Dong Gu. 2018. Handbook of Environmental Degradation of Materials. Handbook of Environmental Degradation of Materials 273 298 .
Hao Zhang & Hui-qing Lan. (2017) A review of internal corrosion mechanism and experimental study for pipelines based on multiphase flow. Corrosion Reviews 35:6, pages 425-444.
Crossref
S.A. Wade, M.A. Javed, E.A. Palombo, S.L. McArthur & P.R. Stoddart. (2017) On the need for more realistic experimental conditions in laboratory-based microbiologically influenced corrosion testing. International Biodeterioration & Biodegradation 121, pages 97-106.
Crossref
Volkan Cicek. 2017. Corrosion Engineering and Cathodic Protection Handbook. Corrosion Engineering and Cathodic Protection Handbook 317 338 .
Volkan Cicek. 2017. Corrosion Engineering and Cathodic Protection Handbook. Corrosion Engineering and Cathodic Protection Handbook 203 211 .
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.
Crossref
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.
Crossref
Yajie Chen, Rebecca Howdyshell, Stanford Howdyshell & Lu-Kwang Ju. (2014) Characterizing Pitting Corrosion Caused by a Long-Term Starving Sulfate-Reducing Bacterium Surviving on Carbon Steel and Effects of Surface Roughness. CORROSION 70:8, pages 767-780.
Crossref
Volkan Cicek. 2014. Corrosion Engineering. Corrosion Engineering 231 261 .
Dennis Enning & Julia Garrelfs. (2014) Corrosion of Iron by Sulfate-Reducing Bacteria: New Views of an Old Problem. Applied and Environmental Microbiology 80:4, pages 1226-1236.
Crossref
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.
Crossref
Volkan Cicek. 2013. Cathodic Protection. Cathodic Protection 309 326 .
A. Almaguer-Flores. 2013. Bio-Tribocorrosion in Biomaterials and Medical Implants. Bio-Tribocorrosion in Biomaterials and Medical Implants 169 186 .
Ji-Dong Gu & Ralph Mitchell. 2013. The Prokaryotes. The Prokaryotes 309 341 .
Ji-Dong Gu. 2012. Handbook of Environmental Degradation of Materials. Handbook of Environmental Degradation of Materials 243 282 .
D. Çetin, S. Bilgiç, S. Dönmez & G. Dönmez. (2007) Determination of biocorrosion of low alloy steel by sulfate-reducingDesulfotomaculum sp. isolated from crude oil field. Materials and Corrosion 58:11, pages 841-847.
Crossref
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.
Crossref
Iwona B. Beech & Jan A. Sunner. 2009. Sulphate-Reducing Bacteria. Sulphate-Reducing Bacteria 459 482 .
Ji-Dong Gu & Ralph Mitchell. 2006. The Prokaryotes. The Prokaryotes 864 903 .
M. M. Al-Darbi, K. Agha & M. R. Islam. (2008) Comprehensive Modelling of the Pitting Biocorrosion of Steel. The Canadian Journal of Chemical Engineering 83:5, pages 872-881.
Crossref
Xiutong Wang, Jizhou Duan, Yan Li, Jie Zhang, Shide Ma & Baorong Hou. (2005) Corrosion of steel structures in sea-bed sediment. Bulletin of Materials Science 28:2, pages 81-85.
Crossref
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. 2010. Encyclopedia of Electrochemistry. Encyclopedia of Electrochemistry.
Iwona B. Beech. 2003. Encyclopedia of Environmental Microbiology. Encyclopedia of Environmental Microbiology.
Brenda J. Little & Patricia A. Wagner. 2002. Modern Aspects of Electrochemistry. Modern Aspects of Electrochemistry 205 246 .
B.J. Little, R.I. Ray & R.K. Pope. 2001. Encyclopedia of Materials: Science and Technology. Encyclopedia of Materials: Science and Technology 533 537 .
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.
Crossref
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.
Crossref
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.
Crossref
W. Allan Hamilton & Whonchee Lee. 1995. Sulfate-Reducing Bacteria. Sulfate-Reducing Bacteria 243 264 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.