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97215 THE ROLE OF METAL-REDUCING BACTERIA IN MICROBIOLOGICALLY INFLUENCED CORROSION

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Product Number: 51300-97215-SG
ISBN: 97215 1997 CP
Author: Brenda Little, Patricia Wagner, Kevin Hart, Richard Ray, Dennis Lavoie, Kenneth Nealson, Carmen Agui
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Synthetic iron oxides (goethite, aFeO-OH; hematite, Fe2O3; and ferrihydrite, Fe(OH)3) were used as model compounds to simulate the mineralogy of passivating films on carbon steel. Dissolution of these oxides exposed to pure cultures of the metal-reducing bacterium, Shewanella putrefaciens, was followed by direct atomic absorption spectroscopy measurement of ferrous iron coupled with microscopic analyses using confocal laser scanning and environmental scanning electron microcopies. During an 8-day exposure the organism colonized mineral surfaces and reduced solid ferric oxides to soluble ferrous ions. Elemental composition, as monitored by energy dispersive x-ray spectroscopy, indicated mineral replacement reactions with both ferrihydrite and goethite as iron reduction occurred. When carbon steel electrodes were exposed to S. putrefaciens, microbiologically influenced corrosion was demonstrated electrochemically and microscopically. Keywords: metal-reducing bacteria, Shewanella putrefacietrs, microbiologically influenced corrosion, carbon steel, goethite, hematite, ferrihydrite
Synthetic iron oxides (goethite, aFeO-OH; hematite, Fe2O3; and ferrihydrite, Fe(OH)3) were used as model compounds to simulate the mineralogy of passivating films on carbon steel. Dissolution of these oxides exposed to pure cultures of the metal-reducing bacterium, Shewanella putrefaciens, was followed by direct atomic absorption spectroscopy measurement of ferrous iron coupled with microscopic analyses using confocal laser scanning and environmental scanning electron microcopies. During an 8-day exposure the organism colonized mineral surfaces and reduced solid ferric oxides to soluble ferrous ions. Elemental composition, as monitored by energy dispersive x-ray spectroscopy, indicated mineral replacement reactions with both ferrihydrite and goethite as iron reduction occurred. When carbon steel electrodes were exposed to S. putrefaciens, microbiologically influenced corrosion was demonstrated electrochemically and microscopically. Keywords: metal-reducing bacteria, Shewanella putrefacietrs, microbiologically influenced corrosion, carbon steel, goethite, hematite, ferrihydrite
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