Influence of two polarization potentials on a bioanode microbial community isolated from a hypersaline coastal lagoon of the Yucatan peninsula, in México

Raul Tapia-Tussell; Raul E Valle-Gough; Isaías Peraza-Baeza; Jorge Domínguez-Maldonado; Muriel Gonzalez-Muñoz; Alberto Cortes-Velazquez; Rosa M Leal-Baustista; Liliana Alzate-Gaviria

doi:10.1016/j.scitotenv.2019.05.120

Influence of two polarization potentials on a bioanode microbial community isolated from a hypersaline coastal lagoon of the Yucatan peninsula, in México

Sci Total Environ. 2019 Sep 1:681:258-266. doi: 10.1016/j.scitotenv.2019.05.120. Epub 2019 May 10.

Authors

Raul Tapia-Tussell¹, Raul E Valle-Gough², Isaías Peraza-Baeza³, Jorge Domínguez-Maldonado¹, Muriel Gonzalez-Muñoz¹, Alberto Cortes-Velazquez⁴, Rosa M Leal-Baustista⁵, Liliana Alzate-Gaviria⁶

Affiliations

¹ Renewable Energy, Yucatan Center for Scientific Research (CICY), Carretera Sierra Papacal-Chuburná Puerto, Km 5, Sierra Papacal, Mérida, Yucatán CP 97302, Mexico.
² Instituto Tecnológico Superior de Escárcega, Calle 85 s/n entre 10B, colonia Unidad Esfuerzo y Trabajo I, Escárcega C.P. 24350, Campeche, Mexico.
³ Civil, Environmental & Sustainable Engineering, Biodesign Swette Center for Environmental Biotechnology, Biodesign Institute, Arizona State University, Tempe Zip Code 85281, AZ, USA.
⁴ GeMBio Laboratory, Yucatan Center for Scientist Research, Mérida CP 97205, Mexico.
⁵ Water Research Unit, Yucatan Center for Scientific Research (CICY), calle 8 número 39 Mza 29 S.M. 64 Lote 1 colonia Centro, Cancún C.P. 77500, Q.Roo, Mexico.
⁶ Renewable Energy, Yucatan Center for Scientific Research (CICY), Carretera Sierra Papacal-Chuburná Puerto, Km 5, Sierra Papacal, Mérida, Yucatán CP 97302, Mexico. Electronic address: lag@cicy.mx.

PMID: 31103663
DOI: 10.1016/j.scitotenv.2019.05.120

Abstract

In recent years, halotolerant biofilms have become a subject of interest for its application in Bioelectrochemical systems for wastewater treatment. To determine if the polarization potential affects the microbial community of a halotolerant bioanode, four bioanodes were poised at potentials of +0.34 V/SHE and - 0.16 V/SHE and the 16S rRNA gene was analyzed through a MiSeq (Ilumina) system. Oceanospirillum, Halomonas and Marinobacterium were the most predominant genus; no previous studies have reported the presence of Oceanospirillum in anodic biofilms. The fitness with the dataset for +0.34 V/SHE with a modified Butler Volmer Monod model, gives a value of K₁ was 0.0002 (2.64 A m^-2 and 38% coulombic efficiency), indicating the fastest electrochemical reaction. Whereas that -0.16 V/SHE case, the high value of K₁ (12.2 with 1.82 A m^-2 and 10% coulombic efficiency) indicated that the electron transfer was far from being reversible (Nernstian).

Keywords: Extracellular electron transfer; Halotolerant bioanode; Microbial fuel cell.

MeSH terms

Bioelectric Energy Sources*
Mexico
Microbiota
Salinity
Seawater / microbiology*
Water Microbiology*