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Biofouling
The Journal of Bioadhesion and Biofilm Research
Volume 3, 1991 - Issue 1
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Original Articles

Inhibition of metal corrosion by bacteria

Amelie Pedersen Department of General and Marine Microbiology, University of Göteborg, Carl Skottsbergs gata 22, Sweden
&
Malte Hermansson Department of General and Marine Microbiology, University of Göteborg, Carl Skottsbergs gata 22, Sweden
Pages 1-11 | Received 23 Apr 1990, Accepted 16 May 1990, 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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Hans‐Peter Volkland, Hauke Harms, Karl Knopf, Oskar Wanner & AlexanderJ B Zehnder. (2000) Corrosion inhibition of mild steel by bacteria. Biofouling 15:4, pages 287-297.
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T S Rao, M S Eswaran, V P Venugopalan, K V K Nair & P K Mathur. (1993) Fouling and corrosion in an open recirculating cooling system. Biofouling 6:3, pages 245-259.
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N Sasikumar, K V K Nair & Jayapaul Azariah. (1992) Response of barnacles to chlorine and heat treatment: An experimental study for power plant biofouling control. Biofouling 6:1, pages 69-79.
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M B Deshmukh, I Akhtar, R B Srivastava & A A Karande. (1992) Marine aerobic and anaerobic bacteria inducing corrosion of 304 stainless steel. Biofouling 6:1, pages 13-32.
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Articles from other publishers (38)

Temitope Alaba Oshin, Bamidele Sunday Fakinle & Olamide Oyewole. (2023) The role of microbes in the inhibition of the atmospheric corrosion of steel caused by air pollutants. Corrosion Reviews 41:6, pages 635-647.
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Baluchamy Tamilselvi, Durvas Seshian Bhuvaneshwari, Periyakaruppan Karuppasamy, Sethuramasamy Padmavathy, Santhosh Nikhil, Surendra Boppanahalli Siddegowda & H C Ananda Murthy. (2023) Investigation of Corrosion Inhibition of Mild Steel in 0.5 M H 2 SO 4 with Lachancea fermentati Inhibitor Extracted from Rotten Grapefruits ( Vitis vinifera ): Adsorption, Thermodynamic, Electrochemical, and Quantum Chemical Studies . ACS Physical Chemistry Au.
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Padmalatha Rao & Lavanya Mulky. (2023) Microbially Influenced Corrosion and its Control Measures: A Critical Review. Journal of Bio- and Tribo-Corrosion 9:3.
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Anwar Sadek, Sai Prasanna Chinthala, John M. Senko & Chelsea N. Monty. (2023) Effects of Hydrodynamic Environment on the Interaction of Shewanella oneidensis with Low Carbon Steel and the Impacts on Corrosion . Corrosion 79:8, pages 957-963.
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Peike Gao & Keyan Fan. (2023) Sulfur-oxidizing bacteria (SOB) and sulfate-reducing bacteria (SRB) in oil reservoir and biological control of SRB: a review. Archives of Microbiology 205:5.
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Xiaoxi Ruan, Linlin Yang, Yan Wang, Yizhe Dong, Dake Xu & Mingxing Zhang. (2023) Biofilm-Induced Corrosion Inhibition of Q235 Carbon Steel by Tenacibaculum mesophilum D-6 and Bacillus sp. Y-6. Metals 13:4, pages 649.
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Baluchamy Tamilselvi, Durvas Seshian Bhuvaneshwari, Sethuramasamy Padmavathy & Pandian Bothi Raja. (2022) Corrosion inhibition of Pichia sp. biofilm against mild steel corrosion in 1 M H2SO4. Journal of Molecular Liquids 359, pages 119359.
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Yuntian Lou, Weiwei Chang, Tianyu Cui, Jinke Wang, Hongchang Qian, Lingwei Ma, Xiangping Hao & Dawei Zhang. (2021) Microbiologically influenced corrosion inhibition mechanisms in corrosion protection: A review. Bioelectrochemistry 141, pages 107883.
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Shishir Mundra & John L. Provis. (2021) Mechanisms of passivation and chloride-induced corrosion of mild steel in sulfide-containing alkaline solutions. Journal of Materials Science 56:26, pages 14783-14802.
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S. Noyel Victoria, Akansha Sharma & R. Manivannan. (2021) Metal corrosion induced by microbial activity – Mechanism and control options. Journal of the Indian Chemical Society 98:6, pages 100083.
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M. Saleem Khan, Chunguang Yang, Ying Zhao, Haobo Pan, Jinlong Zhao, M. Babar Shahzad, Sharafadeen Kunle Kolawole, Ihsan Ullah & Ke Yang. (2020) An induced corrosion inhibition of X80 steel by using marine bacterium Marinobacter salsuginis. Colloids and Surfaces B: Biointerfaces 189, pages 110858.
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Basma A. Omran & Mohamed Omar Abdel-SalamBasma A. Omran & Mohamed Omar Abdel-Salam. 2020. A New Era for Microbial Corrosion Mitigation Using Nanotechnology. A New Era for Microbial Corrosion Mitigation Using Nanotechnology 47 99 .
Jiahua Wang, Yong Lu & Xiaohong Shao. (2019) First-Principles Calculation for the Influence of C and O on the Mechanical Properties of γ-TiAl Alloy at High Temperature. Metals 9:2, pages 262.
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Yusuf Cagatay Ersan. 2019. Ecological Wisdom Inspired Restoration Engineering. Ecological Wisdom Inspired Restoration Engineering 19 45 .
Daniel C. Volke & Pablo I. Nikel. (2018) Getting Bacteria in Shape: Synthetic Morphology Approaches for the Design of Efficient Microbial Cell Factories. Advanced Biosystems 2:11, pages 1800111.
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Jing Guo, Shaojun Yuan, Wei Jiang, Li Lv, Bin Liang & Simo O. Pehkonen. (2018) Polymers for Combating Biocorrosion. Frontiers in Materials 5.
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Meixia Zhang, Haixia Liu, Santosh Kr. Karn, Jizhou Duan, Fang Guan, Xiaofan Zhai, Shengjun Zhao, Ke Li & Baorong Hou. (2017) Corrosion Behavior of Q235 Carbon Steel in Presence of H2S Producing Bacillus sp. and a Consortium of Microbes Isolated from Inner Rust Layer. International Journal of Electrochemical Science 12:3, pages 2315-2328.
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A. Seyeux & P. Marcus. (2016) Analysis of the chemical or bacterial origin of iron sulfides on steel by time of flight secondary ion mass spectrometry (ToF-SIMS). Corrosion Science 112, pages 728-733.
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Leila Abdoli, Jing Huang & Hua Li. (2016) Electrochemical corrosion behaviors of aluminum-based marine coatings in the presence of Escherichia coli bacterial biofilm. Materials Chemistry and Physics 173, pages 62-69.
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Masoumeh Moradi, Tao Xiao & Zhenlun Song. (2015) Investigation of corrosion inhibitory process of marine Vibrio neocaledonicus sp. bacterium for carbon steel. Corrosion Science 100, pages 186-193.
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Mokhamad F. Ulum, Ahmad K. Nasution, Abdul H. Yusop, Andril Arafat, Mohammed Rafiq A. Kadir, Vetnizah Juniantito, Deni Noviana & Hendra Hermawan. (2015) Evidences of in vivo bioactivity of Fe-bioceramic composites for temporary bone implants . Journal of Biomedical Materials Research Part B: Applied Biomaterials 103:7, pages 1354-1365.
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M.A. Javed, P.R. Stoddart & S.A. Wade. (2015) Corrosion of carbon steel by sulphate reducing bacteria: Initial attachment and the role of ferrous ions. Corrosion Science 93, pages 48-57.
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Nardy Kip & Johannes A van Veen. (2014) The dual role of microbes in corrosion. The ISME Journal 9:3, pages 542-551.
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Masoumeh Moradi, Zhenlun Song & Xiao Tao. (2015) Introducing a novel bacterium, Vibrio neocaledonicus sp., with the highest corrosion inhibition efficiency. Electrochemistry Communications 51, pages 64-68.
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. 2015. Corrosion in the Petrochemical Industry. Corrosion in the Petrochemical Industry 45 61 .
M.A. Javed, P.R. Stoddart, E.A. Palombo, S.L. McArthur & S.A. Wade. (2014) Inhibition or acceleration: Bacterial test media can determine the course of microbiologically influenced corrosion. Corrosion Science 86, pages 149-158.
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Dharmarajan Sridharan, Chandrasekaran Karthikeyan, Sundaram Maruthamuthu, Subbiah Manoharan & Narayanan Palaniswamy. (2013) Impact of Mixed Inhibitor on Electrochemical Behavior of Inland Water Biofilm Formed on 316L Stainless Steel. Industrial & Engineering Chemistry Research 52:46, pages 16175-16181.
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Charlene Pillay & Johnson Lin. (2013) Metal corrosion by aerobic bacteria isolated from stimulated corrosion systems: Effects of additional nitrate sources. International Biodeterioration & Biodegradation 83, pages 158-165.
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Hector A. Videla & Liz Karen Herrera. (2009) Understanding microbial inhibition of corrosion. A comprehensive overview. International Biodeterioration & Biodegradation 63:7, pages 896-900.
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Brenda J. Little & Jason S. Lee. 2000. Kirk-Othmer Encyclopedia of Chemical Technology. Kirk-Othmer Encyclopedia of Chemical Technology.
S. Mohanan,S. Maruthamuthu,S. Ponmariappan,G. Venkatachari,N. Palaniswamy,. (2005) MICROBIOLOGICALLY INDUCED CORROSION OF COPPER. Corrosion Reviews 23:2-3, pages 233-245.
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Brenda J. Little, Florian B. Mansfeld, Peggy J. Arps & James C. Earthman. 2007. Encyclopedia of Electrochemistry. Encyclopedia of Electrochemistry.
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Hans-Peter Volkland, Hauke Harms, Karin Kaufmann, Oskar Wanner & Alexander J.B Zehnder. (2001) Repair of damaged vivianite coatings on mild steel using bacteria. Corrosion Science 43:11, pages 2135-2146.
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Hans-Peter Volkland, Hauke Harms, Beat Müller, Gernot Repphun, Oskar Wanner & Alexander J. B. Zehnder. (2000) Bacterial Phosphating of Mild (Unalloyed) Steel. Applied and Environmental Microbiology 66:10, pages 4389-4395.
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Brenda Little, Patricia Wagner & Florian Mansfeld. (1992) An overview of microbiologically influenced corrosion. Electrochimica Acta 37:12, pages 2185-2194.
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Amelie Pedersen & Malte Hermansson. (1991) Bacterial corrosion of iron in seawater in situ, and in aerobic and anaerobic model systems. FEMS Microbiology Letters 86:2, pages 139-148.
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Amelie Pedersen & Malte Hermansson. (1991) Bacterial corrosion of iron in seawater in situ, and in aerobic and anaerobic model systems. FEMS Microbiology Ecology 9:2, pages 139-147.
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