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W4285014504 abstract "An inadequate lignocellulolytic capacity of a conventional anaerobic digester sludge (ADS) microbiota is the bottleneck for the maximal utilization of lignocellulose in anaerobic digestion. A well-constructed microbial consortium acclimatized to lignocellulose outperformed the ADS in terms of biogas productivity when fractionated biocomponents of rice straw were used to achieve a high methane bioconversion rate. A 33.3 % higher methane yield was obtained with the acclimatized consortium (AC) compared to that of ADS control. The dominant pair-wise link between Firmicutes (18.99–40.03 %), Bacteroidota (10.94–28.75 %), and archaeal Halobacteriota (3.59–20.57 %) phyla in the AC seed digesters indicated that the keystone members of these phyla were responsible for higher methane yield. A high abundance of syntrophic bacteria such as Proteiniphilum (1.22–5.19 %), Fermentimonas (0.71–5.31 %), Syntrophomonas (0.87–3.59 %), and their syntrophic partner Methanosarcina (4.26–18.80 %) maintained the digester stability and facilitated higher substrate-to-methane conversion in the AC seed digesters. The present combined strategy will help in boosting the ‘biomass-to-methane” conversion." @default.
W4285014504 created "2022-07-12" @default.
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W4285014504 date "2022-09-01" @default.
W4285014504 modified "2023-10-15" @default.
W4285014504 title "Syntrophic bacteria- and Methanosarcina-rich acclimatized microbiota with better carbohydrate metabolism enhances biomethanation of fractionated lignocellulosic biocomponents" @default.
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W4285014504 doi "https://doi.org/10.1016/j.biortech.2022.127602" @default.
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