51. Natural Materials as Carriers of Microbial Consortium for Bioaugmentation of Anaerobic Digesters.
- Author
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Dadic, Blanka, Ivankovic, Tomislav, Spelic, Karlo, Hrenovic, Jasna, and Jurisic, Vanja
- Subjects
BIOGAS production ,ANAEROBIC digestion ,KLEBSIELLA pneumoniae ,BIOCHEMICAL substrates ,BIOMASS - Abstract
Featured Application: Improvement of biogas production reactors by inserting bacterial species conditioned for the decomposition of specific biomass. The production of biogas is achieved during anaerobic digestion (AD) using organic matter as a substrate. In Mediterranean countries, a promising substrate is lignocellulose biomass of perennial grass Miscanthus x giganteus, due to its potentially high biogas yields, which could be comparable to maize silage. During AD, bacteria convert biomass into more minor compounds, which are further converted to methane by methanogenic archaea. The selection of appropriate microbes for the degradation of the substrate is crucial, and the enhancement of this step lies in the immobilization of microbes on biocarriers. Described here, a microbial consortium, de novo isolated and conditioned to degrade the Mischantus biomass, was immobilized onto several natural biocarriers: natural zeolitized tuff, ZeoSand
® (Velebit Agro, Zagreb, Croatia), perlite, and corncob. There was no statistically significant difference in the number of immobilized bacteria across the different materials. Therefore, all proved to be suitable for the immobilization of the consortium. In the consortium, five bacterial species with different shares in the consortium were identified: Enterobacter cloacae, Klebsiella pneumoniae, Enterobacter asburiae, Leclercia adecarboxylata, and Exiguobacterium indicum. After immobilization on each carrier, the share of each species changed when compared to starting conditions, and the most dominant species was E. cloacae (71–90%), while the share for other species ranged from 2 to 23%. The share of E. indicum was 14% at the start. However, it diminished to less than 1% because it was overgrown during the competition with other bacterial species, not due to an inability to immobilize. [ABSTRACT FROM AUTHOR]- Published
- 2024
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