Abstract
Anaerobic microbial reductive dechlorination of PCBs is important because it removes the chlorine substituents that block aerobic metabolism and it reduces PCB toxicity. Although this process occurs widely in nature, its extent is often limited to dechlorination of some of the chlorines in the meta positions of biphenyl. In this report we demonstrate the ability to achieve nearly complete meta plus para dechlorination of Aroclor 1242. This involves the additions of FeSO4 to PCB contaminated sediments and results in ∼90 mol % of the total PCBs being converted to aerobically degradable ortho-substituted mono- and dichlorinated congeners. We propose that iron sulfate provides two mutually beneficial effects leading to its stimulation of anaerobic PCB dechlorination. Sulfate stimulates growth of sulfate reducing organisms responsible for PCB dechlorination, while Fe2+ reduces sulfide bioavailability and hence toxicity by forming the insoluble precipitate FeS. Ferrous sulfate is an inexpensive, innocuous compo...
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