1. Chlorophytum rhizosphere, a suitable environment for electroactive biofilm development
- Author
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Y. M. Azri, A. Laichouchi, S. Gana-Kebbouche, M. Sadi, Hakim Lounici, I. Tou, Nadjib Drouiche, A. S. Merad, and D. Zitouni
- Subjects
Rhizosphere ,biology ,Renewable Energy, Sustainability and the Environment ,Chemistry ,Firmicutes ,020209 energy ,Biofilm ,02 engineering and technology ,010501 environmental sciences ,Chronoamperometry ,biology.organism_classification ,01 natural sciences ,0202 electrical engineering, electronic engineering, information engineering ,Food science ,Proteobacteria ,Cyclic voltammetry ,Chlorophytum ,Bacteria ,0105 earth and related environmental sciences - Abstract
The electroactivity of Chlorophytum rhizospheric soil using imposed potential chronoamperometry and a characteristic cyclic voltammetry was demonstrated in the present work. Five different polarizations were tested: − 0.3, − 0.155, 0, + 0.155, and + 0.3 V/SCE. The current density had stabilized around − 0.0068 mA/m2 and − 0.03 mA/m2 at − 0.155 and − 0.3 V/SCE, respectively. However, at 0, + 0.155, and + 0.3 V/SCE, a current density had reached respectively 1.46 A/m2, 1.48 A/m2, and 0.6 A/m2. The potential + 0.155 V/SCE seemed to better stimulate the electrogenic bacteria activity of the Chlorophytum rhizosphere. Different bacterial strains had formed electroactive biofilms in response to different electrode polarizations. The Chlorophytum rhizosphere electroactivity has depended on strict anaerobes as well as facultative anaerobic bacteria under anaerobic conditions. Furthermore, the Chlorophytum rhizosphere soil had closed almost equal proportions of Firmicutes and Proteobacteria whose electroactivity seemed to depend on the Proteobacetria more than the Firmicutes and had could be thereby a suitable environment for electroactive biofilm development.
- Published
- 2020
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