Metabolic route and bacterial community changes induced by inactivation of indigenous bacteria in dark fermentation

Biohydrogen production by dark fermentation (DF) can be achieved using only indigenous bacteria from substrates or by adding an external inoculum. This study aims to provide new insights on the role of indigenous bacteria in DF process operation by investigating DF performances and microbiological a...

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Veröffentlicht in:	International journal of hydrogen energy 2024-11, Vol.89, p.1176-1184
Hauptverfasser:	Dauptain, K., Carrere, H., Trably, E.
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Sprache:	eng
Schlagworte:	Biohydrogen Dark fermentation Environmental Engineering Environmental Sciences Gamma irradiation Indigenous bacteria inactivation Microbial communities
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container_title	International journal of hydrogen energy
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creator	Dauptain, K. Carrere, H. Trably, E.
description	Biohydrogen production by dark fermentation (DF) can be achieved using only indigenous bacteria from substrates or by adding an external inoculum. This study aims to provide new insights on the role of indigenous bacteria in DF process operation by investigating DF performances and microbiological aspects. DF tests are performed with only indigenous bacteria, with indigenous and exogenous bacteria and with only exogenous bacteria by inactivating indigenous bacteria by gamma irradiation. Sorghum irradiation reduces DF performances for both hydrogen (17.8 ± 12.8 versus 45.2 ± 1.7 mLH2/gVSadded) and total metabolite (0.22 ± 0.01 versus 0.30 ± 0.01 gCOD/gVSadded) yields. In contrast, no difference is observed with the organic fraction of municipal solid waste, suggesting a distinct role of indigenous bacteria for both substrates. Indigenous bacteria inactivation strongly modifies the metabolic routes and final bacterial community composition. This study proves the key role of indigenous bacteria in influencing metabolite production and bacterial composition. [Display omitted] •Successful inactivation of indigenous bacteria by gamma irradiation.•Lower performances of dark fermentation for irradiated sorghum.•No impact OFMSW irradiation on hydrogen yield and biomass bioconversion.•Metabolic and microbiological changes after irradiation of both substrates.•Lower reproducibility of DF experiments after indigenous bacteria inactivation.
doi_str_mv	10.1016/j.ijhydene.2024.09.429
format	Article
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subjects	Biohydrogen Dark fermentation Environmental Engineering Environmental Sciences Gamma irradiation Indigenous bacteria inactivation Microbial communities
title	Metabolic route and bacterial community changes induced by inactivation of indigenous bacteria in dark fermentation
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