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Biofouling
The Journal of Bioadhesion and Biofilm Research
Volume 27, 2011 - Issue 5
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Original Articles

Influence of EPS isolated from thermophilic sulphate-reducing bacteria on carbon steel corrosion

Ze Hua Dong School of Chemistry and Chemical Engineering, Huazhong University of Science and Technology, Wuhan, 430074, China
,
Tao Liu School of Chemistry and Chemical Engineering, Huazhong University of Science and Technology, Wuhan, 430074, China
&
Hong Fang Liu School of Chemistry and Chemical Engineering, Huazhong University of Science and Technology, Wuhan, 430074, ChinaCorrespondence[email protected] [email protected]
Pages 487-495 | Received 25 Jun 2010, Accepted 15 Apr 2011, Published online: 20 May 2011

References

  • Abu , G O , Weiner , R M , Rice , J and Colwell , R R . 1991 . Properties of an extracellular adhesive polymer from the marine bacterium, Shewanella colwelliana . Biofouling , 3 : 69 – 84 .
  • Beech , I B and Cheung , C WS . 1995 . Interactions of exopolymers produced by sulphate-reducing bacteria with metal ions . Int Biodeterior Biodegr , 35 : 59 – 72 .
  • Beech , I B and Sunner , J . 2004 . Biocorrosion: towards understanding interactions between biofilms and metals . Curr Opin Biotechnol , 15 : 181 – 186 .
  • Beech , I B , Sunner , J A and Hiraoka , K . 2005 . Microbe-surface interactions in biofouling and biocorrosion processes . Int Microbiol , 8 : 157 – 168 .
  • Beech , I B , Zinkevich , V , Tapper , R , Gubner , R and Avci , R . 1999 . Study of the interaction of sulphate-reducing bacteria exopolymers with iron using X-ray photoelectron spectroscopy and time-of-flight secondary ionisation mass spectrometry . J Microbiol Methods , 36 : 3 – 10 .
  • Bradford , M M . 1976 . A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding . Anal Biochem , 72 : 248 – 254 .
  • Castaneda , H and Benetton , X D . 2008 . SRB-biofilm influence in active corrosion sites formed at the steel-electrolyte interface when exposed to artificial seawater conditions . Corros Sci , 50 : 1169 – 1183 .
  • Chongdar , S , Gunasekaran , G and Kumar , P . 2005 . Corrosion inhibition of mild steel by aerobic biofilm . Electrochim Acta , 50 : 4655 – 4665 .
  • Dubois , M , Gilles , K A , Hamilton , J K and Rebers , P A . 1956 . Colorimetric method for determination of sugars and related substances . Anal Chem , 28 : 350 – 356 .
  • Franklin , M J , White , D C , Little , B , Ray , R and Pope , R . 2000 . The role of bacteria in pit propagation of carbon steel . Biofouling , 15 : 13 – 23 .
  • Fude , L , Harris , B , Urrutia , M M and Beveridge , T J . 1994 . Reduction of Cr(VI) by a consortium of sulfate-reducing bacteria (SRB III) . Appl Environ Microbiol , 60 : 1525 – 1531 .
  • Grooters , M , Harneit , K , Wollbrink , M , Sand , W , Stadler , R and Furbeth , W . 2007 . Novel steel corrosion protection by microbial extracellular polymeric substances (EPS) – biofilm-induced corrosion inhibition . Biometallurgy , 20–21 : 375 – 378 .
  • Gubner , R and Beech , I B . 2000 . The effect of extracellular polymeric substances on the attachment of Pseudomonas NCIMB 2021 to AISI 304 and 316 stainless steel . Biofouling , 15 : 25 – 36 .
  • Guibaud , G , Tixier , N , Bouju , A and Baudu , M . 2003 . Relation between extracellular polymers' composition and its ability to complex Cd, Cu and Pb . Chemosphere , 52 : 1701 – 1710 .
  • Hsu , C H and Mansfeld , F . 2001 . Concerning the conversion of the constant phase element parameter Y0 into a capacitance . Corrosion , 57 : 747 – 748 .
  • Ilhan-Sungur , E and Cotuk , A . 2005 . Characterization of sulfate reducing bacteria isolated from cooling towers . Environ Monit Assess , 104 : 211 – 219 .
  • Jahn , A and Nielsen , P H . 1998 . Cell biomass and exopolymer composition in sewer biofilms . Water Sci Technol , 37 : 17 – 24 .
  • Kelly , R G , Scully , J R , Shoesmith , D W and Buchheit , R G . 2003 . “ Electrochemical techniques in corrosion science and engineering ” . 41–43 New York : CRC Press .
  • Lee , A K , Buehler , M G and Newman , D K . 2006 . Influence of a dual-species biofilm on the corrosion of mild steel . Corros Sci , 48 : 165 – 178 .
  • Lee , W and Characklis , W G . 1993 . Corrosion of mild steel under anaerobic biofilm . Corrosion , 49 : 186 – 198 .
  • Lee , W , Lewandowski , Z , Nielsen , P H and Hamilton , W A . 1995 . Role of sulfate-reducing bacteria in corrosion of mild steel: a review . Biofouling , 8 : 165 – 194 .
  • Liu , H and Fang , H HP . 2002 . Characterization of electrostatic binding sites of extracellular polymers by linear programming analysis of titration data . Biotechnol Bioeng , 80 : 806 – 811 .
  • Liu , H , Xu , L and Zeng , J . 2000 . Role of corrosion products in biofilms in microbiologically induced corrosion of carbon steel . Br Corros J , 35 : 131 – 135 .
  • Liu , H , Huang , L , Huang , Z and Zheng , J . 2007 . Specification of sulfate reducing bacteria biofilms accumulation effects on corrosion initiation . Mater Corros , 58 : 44 – 48 .
  • Lowry , O H , Rosebrough , N J , Farr , A L and Randall , R J . 1951 . Protein measurement with the Folin phenol reagent . J Biol Chem , 193 : 265 – 275 .
  • Mansfeld , F . 2007 . The interaction of bacteria and metal surfaces . Electrochim Acta , 52 : 7670 – 7680 .
  • Okada , T . 1984 . Halide Nuclei Theory of pit initiation in passive metals . J Electrochem Soc , 131 : 241 – 247 .
  • Perry , Klepac-Ceraj , V , Zhang , X V , McNamara , C J , Polz , M F , Martin , S T , Berke , N and Mitchell , R . 2005 . Binding of harvested bacterial exopolymers to the surface of calcite . Environ Sci Technol , 39 : 8770 – 8775 .
  • Postgate , J R . 1979 . “ The sulfate-reducing bacteria ” . 32–35 Cambridge, UK : Cambridge University Press .
  • Rohwerder , T , Gehrke , T , Kinzler , K and Sand , W . 2003 . Bioleaching review part A: progress in bioleaching: fundamentals and mechanisms of bacterial metal sulfide oxidation . Appl Microbiol Biotechnol , 63 : 239 – 248 .
  • Stadler , R , Wei , L , Fürbeth , W , Grooters , M and Kuklinski , A . 2010 . Influence of bacterial exopolymers on cell adhesion of Desulfovibrio vulgaris on high alloyed steel: corrosion inhibition by extracellular polymeric substances (EPS) . Mater Corros , 61 : 1008 – 1016 .
  • Stadler , R , Fuerbeth , W , Harneit , K , Grooters , M , Woellbrink , M and Sand , W . 2008 . First evaluation of the applicability of microbial extracellular polymeric substances for corrosion protection of metal substrates . Electrochim Acta , 54 : 91 – 99 .
  • Syrett , B C , Arps , P J , Earthman , J C , Mansfeld , F and Wood , T K . 2001 . Corrosion control using regenerative biofilms (CCURB): an update . Metall Ital , 93 : 39 – 44 .
  • Tamura , H , Goto , K , Yotsuyanagi , T and Nagayama , M . 1974 . Spectrophotometric determination of iron(II) with 1,10-phenanthroline in the presence of large amounts of iron(III) . Talanta , 21 : 314 – 318 .
  • Videla , H A . 1996 . “ Manual of bicorrosion ” . 121–135 Boca Raton, FL : CRC Press, Inc .
  • Videla , H A . 2002 . Prevention and control of biocorrosion . Int Biodeterior Biodegr , 49 : 259 – 270 .
  • Xu , C , Santschi , P H , Schwehr , K A and Hung , C-C . 2009 . Optimized isolation procedure for obtaining strongly actinide binding exopolymeric substances (EPS) from two bacteria (Sagittula stellata and Pseudomonas fluorescens Biovar II) . Bioresour Technol , 100 : 6010 – 6021 .
  • Yuan , S J , Choong , A MF and Pehkonen , S O . 2007 . The influence of the marine aerobic Pseudomonas strain on the corrosion of 70/30 Cu–Ni alloy . Corros Sci , 49 : 4352 – 4385 .

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