Effects of municipal waste compost on microbial biodiversity and energy production in terrestrial microbial fuel cells
Effects of municipal waste compost on microbial biodiversity and energy production in terrestrial microbial fuel cells
Microbial Fuel Cells (MFCs) transform organic matter into electricity through microbial electrochemical reactions catalysed on anodic and cathodic half-cells. Terrestrial MFCs (TMFCs) are a bioelectrochemical system for bioelectricity production as well as soil remediation. In TMFCs, the soil is the ion-exchange electrolyte, whereas a biofilm on the anode oxidises organic matter through electroactive bacteria. Little is known of the overall microbial community composition in a TMFC, which impedes complete exploitation of the potential to generate energy in different soil types. In this context, an experiment was performed to reveal the prokaryotic community structure in single chamber TMFCs with soil in the presence and absence of a municipal waste compost (3% w/v). The microbial community was assessed on the anode and cathode and in bulk soil at the end of the experiment (54 days). Moreover, TMFC electrical performance (voltage and power) was also evaluated over the experimental period, varying the external resistance to improve performance. Compost stimulated soil microbial activity, in line with a general increase in voltage and power. Significant differences were observed in the microbial communities between initial soil conditions and TMFCs, and between the anode, cathode and bulk soil in the presence of the compost. Several electroactive genera (Bacillus, Fulvivirga, Burkholdeira and Geobacter) were found at the anode in the presence of compost. Overall, the use of municipal waste compost significantly increased the performance of the MFCs in terms of electrical power and voltage generated, not least thanks to the selective pressure towards electroactive bacteria on the anode.
Exoelectrogenic bacteria, Bacterial community, Microbial activity, 16 S rRNA gene sequencing, Electricity production
131-140
Garbini, Gian Luigi
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Caracciolo, Anna Barra
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Rolando, Ludovica
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Visca, Andrea
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Borello, Domenico
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Cosentini, Carlotta
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Gagliardi, Gabriele
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Ieropoulos, Ioannis
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Grenni, Paola
cb2a2ebc-8628-480e-8114-e2a4ae947c3b
25 December 2023
Garbini, Gian Luigi
d92dd5e9-3460-4134-800c-34c888acb0b6
Caracciolo, Anna Barra
62b74570-2616-4b94-807f-4914a00e0c28
Rolando, Ludovica
1cc4a514-8a7a-463b-9c40-af05becd9562
Visca, Andrea
4231b9d0-edd6-4e68-870d-05b8c60bbecf
Borello, Domenico
be2a427e-dba1-4cda-8459-002006df88a0
Cosentini, Carlotta
b83a3600-affe-41ce-a4c9-664b2f664ea2
Gagliardi, Gabriele
d9ac61a6-3d92-4d84-9a6f-b10291eecb6c
Ieropoulos, Ioannis
6c580270-3e08-430a-9f49-7fbe869daf13
Grenni, Paola
cb2a2ebc-8628-480e-8114-e2a4ae947c3b
Garbini, Gian Luigi, Caracciolo, Anna Barra, Rolando, Ludovica, Visca, Andrea, Borello, Domenico, Cosentini, Carlotta, Gagliardi, Gabriele, Ieropoulos, Ioannis and Grenni, Paola
(2023)
Effects of municipal waste compost on microbial biodiversity and energy production in terrestrial microbial fuel cells.
New Biotechnology, 78, .
(doi:10.1016/j.nbt.2023.10.009).
Abstract
Microbial Fuel Cells (MFCs) transform organic matter into electricity through microbial electrochemical reactions catalysed on anodic and cathodic half-cells. Terrestrial MFCs (TMFCs) are a bioelectrochemical system for bioelectricity production as well as soil remediation. In TMFCs, the soil is the ion-exchange electrolyte, whereas a biofilm on the anode oxidises organic matter through electroactive bacteria. Little is known of the overall microbial community composition in a TMFC, which impedes complete exploitation of the potential to generate energy in different soil types. In this context, an experiment was performed to reveal the prokaryotic community structure in single chamber TMFCs with soil in the presence and absence of a municipal waste compost (3% w/v). The microbial community was assessed on the anode and cathode and in bulk soil at the end of the experiment (54 days). Moreover, TMFC electrical performance (voltage and power) was also evaluated over the experimental period, varying the external resistance to improve performance. Compost stimulated soil microbial activity, in line with a general increase in voltage and power. Significant differences were observed in the microbial communities between initial soil conditions and TMFCs, and between the anode, cathode and bulk soil in the presence of the compost. Several electroactive genera (Bacillus, Fulvivirga, Burkholdeira and Geobacter) were found at the anode in the presence of compost. Overall, the use of municipal waste compost significantly increased the performance of the MFCs in terms of electrical power and voltage generated, not least thanks to the selective pressure towards electroactive bacteria on the anode.
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Accepted/In Press date: 21 October 2023
Published date: 25 December 2023
Keywords:
Exoelectrogenic bacteria, Bacterial community, Microbial activity, 16 S rRNA gene sequencing, Electricity production
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Local EPrints ID: 500799
URI: http://eprints.soton.ac.uk/id/eprint/500799
ISSN: 1871-6784
PURE UUID: 23baed89-c86b-4041-832e-4baadfdfaeed
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Date deposited: 13 May 2025 16:52
Last modified: 22 Aug 2025 02:34
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Author:
Gian Luigi Garbini
Author:
Anna Barra Caracciolo
Author:
Ludovica Rolando
Author:
Andrea Visca
Author:
Domenico Borello
Author:
Carlotta Cosentini
Author:
Gabriele Gagliardi
Author:
Paola Grenni
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