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Elucidation of microbial interactions, dynamics, and keystone microbes in high pressure anaerobic digestion

Authors :
Ajay, Thapa
Jeong-Hoon, Park
Seung Gu, Shin
Hong-Mok, Jo
Min-Sang, Kim
Yeongmi, Park
Uijeong, Han
Si-Kyung, Cho
Source :
Science of The Total Environment. 858:159718
Publication Year :
2023
Publisher :
Elsevier BV, 2023.

Abstract

High-pressure anaerobic digestion (HPAD) is a promising technology for producing biogas enriched with high methane content in a single-step process. To enhance HPAD performance, a comprehensive understanding of microbial community dynamics and their interactions is essential. For this, mesophilic batch high-pressurized anaerobic reactors were operated under 3 bars (H3) and 6 bars (H6). The experimental results showed that the effect of high-pressure (up to 6 bar) on acidification was negligible while methanogenesis was significantly delayed. Microbial analysis showed the predominance of Defluviitoga affiliated with the phylum Thermotogae and the reduction of Thiopseudomonas under high-pressure conditions. In addition, the microbial cluster pattern in H3 and H6 was significantly different compared to the CR, indicating a clear shift in microbial community structure. Moreover, Methanobacterium, Methanomicrobiaceae, Alkaliphilus, and Petrimonas were strongly correlated in network analysis, and they could be identified as keystone microbes in the HPAD reactor.

Details

ISSN :
00489697
Volume :
858
Database :
OpenAIRE
Journal :
Science of The Total Environment
Accession number :
edsair.doi.dedup.....88f8233f97a66c5cc0bcc17d17d8ebac