Formate-Dependent Microbial Conversion of CO(2) and the Dominant Pathways of Methanogenesis in Production Water of High-temperature Oil Reservoirs Amended with Bicarbonate

CO(2) sequestration in deep-subsurface formations including oil reservoirs is a potential measure to reduce the CO(2) concentration in the atmosphere. However, the fate of the CO(2) and the ecological influences in carbon dioxide capture and storage (CDCS) facilities is not understood clearly. In th...

Descripción completa

Detalles Bibliográficos
Autores principales: Yang, Guang-Chao, Zhou, Lei, Mbadinga, Serge M., Liu, Jin-Feng, Yang, Shi-Zhong, Gu, Ji-Dong, Mu, Bo-Zhong
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2016
Materias:
Microbiology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4801891/
https://www.ncbi.nlm.nih.gov/pubmed/27047478
http://dx.doi.org/10.3389/fmicb.2016.00365
_version_ 1782422635883266048
author Yang, Guang-Chao
Zhou, Lei
Mbadinga, Serge M.
Liu, Jin-Feng
Yang, Shi-Zhong
Gu, Ji-Dong
Mu, Bo-Zhong
author_facet Yang, Guang-Chao
Zhou, Lei
Mbadinga, Serge M.
Liu, Jin-Feng
Yang, Shi-Zhong
Gu, Ji-Dong
Mu, Bo-Zhong
author_sort Yang, Guang-Chao
collection PubMed
description CO(2) sequestration in deep-subsurface formations including oil reservoirs is a potential measure to reduce the CO(2) concentration in the atmosphere. However, the fate of the CO(2) and the ecological influences in carbon dioxide capture and storage (CDCS) facilities is not understood clearly. In the current study, the fate of CO(2) (in bicarbonate form; 0∼90 mM) with 10 mM of formate as electron donor and carbon source was investigated with high-temperature production water from oilfield in China. The isotope data showed that bicarbonate could be reduced to methane by methanogens and major pathway of methanogenesis could be syntrophic formate oxidation coupled with CO(2) reduction and formate methanogenesis under the anaerobic conditions. The bicarbonate addition induced the shift of microbial community. Addition of bicarbonate and formate was associated with a decrease of Methanosarcinales, but promotion of Methanobacteriales in all treatments. Thermodesulfovibrio was the major group in all the samples and Thermacetogenium dominated in the high bicarbonate treatments. The results indicated that CO(2) from CDCS could be transformed to methane and the possibility of microbial CO(2) conversion for enhanced microbial energy recovery in oil reservoirs.
format Online
Article
Text
id pubmed-4801891
institution National Center for Biotechnology Information
language English
publishDate 2016
publisher Frontiers Media S.A.
record_format MEDLINE/PubMed
spelling pubmed-48018912016-04-04 Formate-Dependent Microbial Conversion of CO(2) and the Dominant Pathways of Methanogenesis in Production Water of High-temperature Oil Reservoirs Amended with Bicarbonate Yang, Guang-Chao Zhou, Lei Mbadinga, Serge M. Liu, Jin-Feng Yang, Shi-Zhong Gu, Ji-Dong Mu, Bo-Zhong Front Microbiol Microbiology CO(2) sequestration in deep-subsurface formations including oil reservoirs is a potential measure to reduce the CO(2) concentration in the atmosphere. However, the fate of the CO(2) and the ecological influences in carbon dioxide capture and storage (CDCS) facilities is not understood clearly. In the current study, the fate of CO(2) (in bicarbonate form; 0∼90 mM) with 10 mM of formate as electron donor and carbon source was investigated with high-temperature production water from oilfield in China. The isotope data showed that bicarbonate could be reduced to methane by methanogens and major pathway of methanogenesis could be syntrophic formate oxidation coupled with CO(2) reduction and formate methanogenesis under the anaerobic conditions. The bicarbonate addition induced the shift of microbial community. Addition of bicarbonate and formate was associated with a decrease of Methanosarcinales, but promotion of Methanobacteriales in all treatments. Thermodesulfovibrio was the major group in all the samples and Thermacetogenium dominated in the high bicarbonate treatments. The results indicated that CO(2) from CDCS could be transformed to methane and the possibility of microbial CO(2) conversion for enhanced microbial energy recovery in oil reservoirs. Frontiers Media S.A. 2016-03-22 /pmc/articles/PMC4801891/ /pubmed/27047478 http://dx.doi.org/10.3389/fmicb.2016.00365 Text en Copyright © 2016 Yang, Zhou, Mbadinga, Liu, Yang, Gu and Mu. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Microbiology
Yang, Guang-Chao
Zhou, Lei
Mbadinga, Serge M.
Liu, Jin-Feng
Yang, Shi-Zhong
Gu, Ji-Dong
Mu, Bo-Zhong
Formate-Dependent Microbial Conversion of CO(2) and the Dominant Pathways of Methanogenesis in Production Water of High-temperature Oil Reservoirs Amended with Bicarbonate
title Formate-Dependent Microbial Conversion of CO(2) and the Dominant Pathways of Methanogenesis in Production Water of High-temperature Oil Reservoirs Amended with Bicarbonate
title_full Formate-Dependent Microbial Conversion of CO(2) and the Dominant Pathways of Methanogenesis in Production Water of High-temperature Oil Reservoirs Amended with Bicarbonate
title_fullStr Formate-Dependent Microbial Conversion of CO(2) and the Dominant Pathways of Methanogenesis in Production Water of High-temperature Oil Reservoirs Amended with Bicarbonate
title_full_unstemmed Formate-Dependent Microbial Conversion of CO(2) and the Dominant Pathways of Methanogenesis in Production Water of High-temperature Oil Reservoirs Amended with Bicarbonate
title_short Formate-Dependent Microbial Conversion of CO(2) and the Dominant Pathways of Methanogenesis in Production Water of High-temperature Oil Reservoirs Amended with Bicarbonate
title_sort formate-dependent microbial conversion of co(2) and the dominant pathways of methanogenesis in production water of high-temperature oil reservoirs amended with bicarbonate
topic Microbiology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4801891/
https://www.ncbi.nlm.nih.gov/pubmed/27047478
http://dx.doi.org/10.3389/fmicb.2016.00365
work_keys_str_mv AT yangguangchao formatedependentmicrobialconversionofco2andthedominantpathwaysofmethanogenesisinproductionwaterofhightemperatureoilreservoirsamendedwithbicarbonate
AT zhoulei formatedependentmicrobialconversionofco2andthedominantpathwaysofmethanogenesisinproductionwaterofhightemperatureoilreservoirsamendedwithbicarbonate
AT mbadingasergem formatedependentmicrobialconversionofco2andthedominantpathwaysofmethanogenesisinproductionwaterofhightemperatureoilreservoirsamendedwithbicarbonate
AT liujinfeng formatedependentmicrobialconversionofco2andthedominantpathwaysofmethanogenesisinproductionwaterofhightemperatureoilreservoirsamendedwithbicarbonate
AT yangshizhong formatedependentmicrobialconversionofco2andthedominantpathwaysofmethanogenesisinproductionwaterofhightemperatureoilreservoirsamendedwithbicarbonate
AT gujidong formatedependentmicrobialconversionofco2andthedominantpathwaysofmethanogenesisinproductionwaterofhightemperatureoilreservoirsamendedwithbicarbonate
AT mubozhong formatedependentmicrobialconversionofco2andthedominantpathwaysofmethanogenesisinproductionwaterofhightemperatureoilreservoirsamendedwithbicarbonate

Ejemplares similares