Successful decolorization of azo dyes(Orange II,Amido Black 10,Reactive Black 5,and Reactive Red 120)and industrial textile dye influents and effluents with sulfate-reducing bacteria from within a biosulfidogenic reactor was achieved with decolorizations ranging from 96% to 49% over 144 h.Concomitant with the decrease in absorbance of the dye in the visible region(480- 620 nm)was an increase in the absorbance at 280 nm,over 48 h,suggesting an increase in concentration of single aromatic amines.With an extended period of time there was a subsequent decrease in the absorbance at 280 nm indicating that the aromatic amines had been degraded.The anthraquinone dye,Reactive Blue 2,remained unchanged after 144 h of incubation in the biosulfidogenic reactor and was only rapidly decolored at 192 h,implying that certain factors are induced in the reactor to break down this non-azo dye.The fastest decolorization/degradation rates and highest hydrogenase enzyme production were observed with Orange n,while the slowest decolorization/degradation rate and least enzyme production were with Reactive Blue 2,suggesting that these processes are controlled,to a certain degree,by an enzymatic mechanism.With sulfate-reducing bacteria that had been cultured on a lactate medium,there was complete decolorization of both authentic dyes and industrial influents and effluents as monitored by the decrease of absorbance in the visible region(480-620 nm).There was,however,very little breakdown of the single aromatic compounds as the absorbance at 280 nm remained fairly significant.This supports the suggestion that,within the biosulfidogenic reactor,there are factors other than the identified hydrogenases that are responsible for degradation of the aromatic compounds.
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