Bioprospecting for electrochemically active perchlorate-reducing microorganisms

Bioprospecting for electrochemically active perchlorate-reducing microorganisms

This study evaluated the electrochemical capacity of four perchlorate-reducing microorganisms (PRMs) isolated from an Altiplanic Andean watershed naturally pressured with perchlorate. Three-electrode electrochemical cells were used to test the electrochemical activity of the obtained isolates. Elect...

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Bibliographic Details
Published in:Bioelectrochemistry (Amsterdam, Netherlands) Vol. 147; p. 108171
Main Authors: Torres-Rojas, Felipe, Muñoz, Diana, Pía Canales, Camila, Vargas, Ignacio T.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-10-2022
Elsevier BV
Subjects:
Biocathode
Bioelectrochemical system
Bioprospecting
Chlorate
Electrochemical analysis
Electrochemical cells
Electrochemical impedance spectroscopy
Electrochemically active microorganisms
Electrochemistry
Microorganisms
Perchlorate
Perchloric acid
Reduction
Silver chloride
Spectroscopy
Perchlorate
Biocathode
Electrochemically active microorganisms
Bioelectrochemical system
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Summary:This study evaluated the electrochemical capacity of four perchlorate-reducing microorganisms (PRMs) isolated from an Altiplanic Andean watershed naturally pressured with perchlorate. Three-electrode electrochemical cells were used to test the electrochemical activity of the obtained isolates. Electrochemical evaluation (i.e., cyclic voltammetry, electrochemical impedance spectroscopy, chronoamperometry) revealed that two isolates identified as Dechloromonas sp. CS-1 and Clostridioides sp. CS-2 are electrochemically active PRMs. Bacterial isolates exhibiting cathodic peaks at -651 mV and -303 mV (vs. Ag/AgCl) for CS-1 and CS-2, respectively. Electrotrophic perchlorate removal was demonstrated by a 6-days chronoamperometry with removal rates of 27 and 17 mg L-1 day-1 and cathodic efficiencies of 93% and 45%, for CS-1 and CS-2, respectively. Chemical and electrochemical results suggest two different mechanisms of electrotrophic perchlorate removal, a complete eight-electron bio-reduction (i.e., perchlorate to chloride) for CS-1 and a partial two-electron bio-reduction (i.e., perchlorate to chlorate) for CS-2. The observed differences could be linked to their enzymatic differences, as in their membrane compositions. Thus, the results of this work increase the limited number of known electrotrophic microorganisms and expand the application of bioelectrochemical systems to develop new perchlorate treatment and remediation technologies.
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ISSN:1567-5394
1878-562X
DOI:10.1016/j.bioelechem.2022.108171