Bioremediation of organometallic compounds by bacterial degradation.

The use of organometallic compounds in the environment is constantly increasing with increased technology and progress in scientific research. But since these compounds are fairly stable, as metallic bonds are stable, they are difficult to degrade or decompose naturally. The aim of this work was to isolate and characterize heterotrophic bacteria that can degrade organometallic compounds (in this case 'ferrocene' and its derivatives). A Gram-negative coccobacillus was isolated from a rusting iron pipe draining into a freshwater lake, which could utilize ferrocene as a sole source of carbon. Phylogenetic analysis based on 16S rDNA sequence suggested that the isolated organism resembled an environmental isolate of Bordetella. Ferrocene degradation was confirmed by plotting the growth curve of the bacterium in a medium with ferrocene as the sole source of carbon. Further confirmation of degradation of ferrocene and its derivatives was done using Gas Chromatography Mass Spectroscopy. Since the bacterium degraded organometallic compounds and released the metal in liquid medium, it could be suggested that this organism can also be used for extracting metal ions from organo-metal containing wastes.