Abstract
A screening of twenty-two marine isolates was made to examine their effects on corrosion of carbon steel ASTM A619. In batch cultures, sixteen of the isolates gave a lower corrosion than the control. Aerobic and anaerobic biofilm populations were formed by immersing iron coupons in natural seawater under aerobic and anaerobic conditions. The effects of the biofilms depended on a balance between the presence of oxygen and the type of population. An anaerobic population attached to the surface increased the corrosion rate if immersed in a suspension of Vibrio sp. DW1. The vibrio population probably ‘protected’ the anaerobic population from oxygen and may have provided nutrients, thereby creating conditions that allowed production of corrosive metabolites close to the metal. In contrast, coupons without a biofilm showed a decrease in the corrosion when immersed in the same vibrio suspension. The protective effect of a dense suspension of bacteria found earlier [5,6] was tested in situ in seawater. Iron coupons were immersed in dialysis bags with a suspension of Vibrio sp. DW1. Coupons immersed in dialysis bags with DW1 showed a lower degree of corrosion than coupons immersed in bags with seawater.
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