Abstract

MORA COLLAZOS, Alexander  and  BRAVO MONTANO, Enrique. Isolation of Electrogenic Microorganisms with Potential to Reduce Hexavalent Chromium. Acta biol.Colomb. [online]. 2017, vol.22, n.1, pp.27-36. ISSN 0120-548X.  https://doi.org/10.15446/abc.v22n1.57189.

ABSTRACT Isolation of cultivable microorganisms was made from the biofilm formed on the anode of a microbial fuel cell put into operation for 30 days; isolated microorganisms were evaluated for their ability to produce energy and reduce the hexavalent chromium Cr (VI). Five microorganisms were isolated, which were characterized by analysis of 16S rRNA gene, placing them in four bacterial genera: Exiguobacterium (CrMFC1), Acinetobacter (CrMFC2), Aeromonas (CrMFC3 and CrMFC5) and Serratia (CrMFC4). All isolates showed electrogenic activity and ability to reduce hexavalent chromium; the Acinetobacter CrMFC1 strain showed the best electrochemical performance registering a maximum power density of 18.61 mW/m²; the other strains showed values of maximum power density between 4.6 mW/m² and 7.1 mW/m². Strains Aeromonas CrMFC5 and Exiguobacterium CrMFC1 showed the best rates of chromium reduction being able to reduce 100 % of the Cr (VI) in less than 24 hours, the Aeromonas CrMFC5 strain was the most efficient, reducing 100 % of Cr (VI) in 10 hours; the other strains reduced 100% of the contaminant after 28 to 30 hours. The microorganisms isolated in this study are hardly known for their electrogenic capacity and for reducing Cr (VI); however, show promise for their use in combined systems involving energy production system coupled to bioremediation of chromium contaminated water.

Keywords : 16S rRNA; bioremediation; microbial fuel cell; chromium reduction.

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