Temperature, inocula and substrate : contrasting electroactive consortia, diversity and performance in microbial fuel cells

The factors that affect microbial community assembly and its effects on the performance of bioelectrochemical systems are poorly understood. Sixteen microbial fuel cell (MFC) reactors were set up to test the importance of inoculum, temperature and substrate: Arctic soil versus wastewater as inoculum...

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Published in:Bioelectrochemistry
Main Authors: Heidrich, E. S., Dolfing, J., Wade, M. J., Sloan, W. T., Quince, C., Curtis, T. P.
Format: Article in Journal/Newspaper
Language:unknown
Published: Elsevier 2018
Subjects:
Arctic
Online Access:http://wrap.warwick.ac.uk/95049/
https://doi.org/10.1016/j.bioelechem.2017.07.006
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spelling ftuwarwick:oai:wrap.warwick.ac.uk:95049 2023-05-15T15:05:57+02:00 Temperature, inocula and substrate : contrasting electroactive consortia, diversity and performance in microbial fuel cells Heidrich, E. S. Dolfing, J. Wade, M. J. Sloan, W. T. Quince, C. Curtis, T. P. 2018-02 http://wrap.warwick.ac.uk/95049/ https://doi.org/10.1016/j.bioelechem.2017.07.006 unknown Elsevier Heidrich, E. S., Dolfing, J., Wade, M. J., Sloan, W. T., Quince, C. and Curtis, T. P. (2018) Temperature, inocula and substrate : contrasting electroactive consortia, diversity and performance in microbial fuel cells. Bioelectrochemistry, 119 . pp. 43-50. doi:10.1016/j.bioelechem.2017.07.006 <http://dx.doi.org/10.1016/j.bioelechem.2017.07.006> Journal Article NonPeerReviewed 2018 ftuwarwick https://doi.org/10.1016/j.bioelechem.2017.07.006 2022-03-16T21:19:26Z The factors that affect microbial community assembly and its effects on the performance of bioelectrochemical systems are poorly understood. Sixteen microbial fuel cell (MFC) reactors were set up to test the importance of inoculum, temperature and substrate: Arctic soil versus wastewater as inoculum; warm (26.5 °C) versus cold (7.5 °C) temperature; and acetate versus wastewater as substrate. Substrate was the dominant factor in determining performance and diversity: unexpectedly the simple electrogenic substrate delivered a higher diversity than a complex wastewater. Furthermore, in acetate fed reactors, diversity did not correlate with performance, yet in wastewater fed ones it did, with greater diversity sustaining higher power densities and coulombic efficiencies. Temperature had only a minor effect on power density, (Q10: 2 and 1.2 for acetate and wastewater respectively): this is surprising given the well-known temperature sensitivity of anaerobic bioreactors. Reactors were able to operate at low temperature with real wastewater without the need for specialised inocula; it is speculated that MFC biofilms may have a self-heating effect. Importantly, the warm acetate fed reactors in this study did not act as direct model for cold wastewater fed systems. Application of this technology will encompass use of real wastewater at ambient temperatures. Article in Journal/Newspaper Arctic The University of Warwick: WRAP - Warwick Research Archive Portal Arctic Bioelectrochemistry 119 43 50
institution Open Polar
collection The University of Warwick: WRAP - Warwick Research Archive Portal
op_collection_id ftuwarwick
language unknown
description The factors that affect microbial community assembly and its effects on the performance of bioelectrochemical systems are poorly understood. Sixteen microbial fuel cell (MFC) reactors were set up to test the importance of inoculum, temperature and substrate: Arctic soil versus wastewater as inoculum; warm (26.5 °C) versus cold (7.5 °C) temperature; and acetate versus wastewater as substrate. Substrate was the dominant factor in determining performance and diversity: unexpectedly the simple electrogenic substrate delivered a higher diversity than a complex wastewater. Furthermore, in acetate fed reactors, diversity did not correlate with performance, yet in wastewater fed ones it did, with greater diversity sustaining higher power densities and coulombic efficiencies. Temperature had only a minor effect on power density, (Q10: 2 and 1.2 for acetate and wastewater respectively): this is surprising given the well-known temperature sensitivity of anaerobic bioreactors. Reactors were able to operate at low temperature with real wastewater without the need for specialised inocula; it is speculated that MFC biofilms may have a self-heating effect. Importantly, the warm acetate fed reactors in this study did not act as direct model for cold wastewater fed systems. Application of this technology will encompass use of real wastewater at ambient temperatures.
format Article in Journal/Newspaper
author Heidrich, E. S.
Dolfing, J.
Wade, M. J.
Sloan, W. T.
Quince, C.
Curtis, T. P.
spellingShingle Heidrich, E. S.
Dolfing, J.
Wade, M. J.
Sloan, W. T.
Quince, C.
Curtis, T. P.
Temperature, inocula and substrate : contrasting electroactive consortia, diversity and performance in microbial fuel cells
author_facet Heidrich, E. S.
Dolfing, J.
Wade, M. J.
Sloan, W. T.
Quince, C.
Curtis, T. P.
author_sort Heidrich, E. S.
title Temperature, inocula and substrate : contrasting electroactive consortia, diversity and performance in microbial fuel cells
title_short Temperature, inocula and substrate : contrasting electroactive consortia, diversity and performance in microbial fuel cells
title_full Temperature, inocula and substrate : contrasting electroactive consortia, diversity and performance in microbial fuel cells
title_fullStr Temperature, inocula and substrate : contrasting electroactive consortia, diversity and performance in microbial fuel cells
title_full_unstemmed Temperature, inocula and substrate : contrasting electroactive consortia, diversity and performance in microbial fuel cells
title_sort temperature, inocula and substrate : contrasting electroactive consortia, diversity and performance in microbial fuel cells
publisher Elsevier
publishDate 2018
url http://wrap.warwick.ac.uk/95049/
https://doi.org/10.1016/j.bioelechem.2017.07.006
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_relation Heidrich, E. S., Dolfing, J., Wade, M. J., Sloan, W. T., Quince, C. and Curtis, T. P. (2018) Temperature, inocula and substrate : contrasting electroactive consortia, diversity and performance in microbial fuel cells. Bioelectrochemistry, 119 . pp. 43-50. doi:10.1016/j.bioelechem.2017.07.006 <http://dx.doi.org/10.1016/j.bioelechem.2017.07.006>
op_doi https://doi.org/10.1016/j.bioelechem.2017.07.006
container_title Bioelectrochemistry
container_volume 119
container_start_page 43
op_container_end_page 50
_version_ 1766337637062279168

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