| Literature DB >> 30144991 |
Dolly Margot Revelo Romo1, Nelson Humberto Hurtado Gutiérrez2, Jaime Orlando Ruiz Pazos3, Lizeth Vanessa Pabón Figueroa4, Leidy Alejandra Ordóñez Ordóñez4.
Abstract
Although Cr(VI)-reducing and/or tolerant microorganisms have been investigated, there is no detailed information on the composition of the microbial community of the biocathode microbial fuel cell for Cr(VI) reduction. In this investigation, the bacterial diversity of a biocathode was analyzed using 454 pyrosequencing of the 16S rRNA gene. It was found that most bacteria belonged to phylum Proteobacteria (78.8%), Firmicutes (7.9%), Actinobacteria (6.6%) and Bacteroidetes (5.5%), commonly present in environments contaminated with Cr(VI). The dominance of the genus Pseudomonas (34.87%), followed by the genera Stenotrophomonas (5.8%), Shinella (4%), Papillibacter (3.96%), Brevundimonas (3.91%), Pseudochrobactrum (3.54%), Ochrobactrum (3.49%), Hydrogenophaga (2.88%), Rhodococcus (2.88%), Fluviicola (2.35%), and Alcaligenes (2.3%), was found. It is emphasized that some genera have not previously been associated with Cr(VI) reduction. This biocathode from waters contaminated with tannery effluents was able to remove Cr(VI) (97.83%) in the cathodic chamber. Additionally, through use of anaerobic sludge in the anodic chamber, the removal of 76.6% of organic matter (glucose) from synthetic waste water was achieved. In this study, an efficient biocathode for the reduction of Cr(VI) with future use in bioremediation, was characterized.Entities:
Keywords: 16S rRNA pyrosequencing; Bacterial diversity; Biocathode; Biocátodo; Celda de Combustible Microbiana; Diversidad bacteriana; Microbial Fuel Cell; Pirosecuenciación 16S rRNA; Reducción de Cr(VI); Reduction of Cr(VI)
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Year: 2018 PMID: 30144991 DOI: 10.1016/j.ram.2018.04.005
Source DB: PubMed Journal: Rev Argent Microbiol ISSN: 0325-7541 Impact factor: 1.852