Carbon migration and metagenomic characteristics during anaerobic digestion of rice straw

Chen, Dadi; Zuo, Xiaoyu; Li, Juan; Wang, Xitong; Liu, Jie

doi:10.1186/s13068-020-01770-4

Cited by 12 publications

(1 citation statement)

References 35 publications

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“…Absolutely, the catabolism of specific amino acids, including glutamate and arginine, generates metabolic precursors that are crucial for collagen synthesis (proline) and cell proliferation (polyamines). (Chen et al 2020). The presence of these key products throughout the metabolic pathway in all three experiments suggests that in the amino acid metabolic pathway, the energy produced by glycolysis is utilised to feed back to the other modules, and that amino acid metabolism is involved in the synthesis of proteins in the cell in the process, which aids in the proliferation of methanogenic bacteria.…”

Section: Discussionmentioning

confidence: 85%

Mechanisms of secondary biogenic coalbed methane formation in bituminous coal seams: a joint experimental and multi-omics study

Zhang,

Liu,

Xue

et al. 2024

Arch Microbiol

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Coal seam microbes, as endogenous drivers of secondary biogenic gas production in coal seams, might be related to methane production in coal seams. In this study, we carried out anaerobic indoor culture experiments of microorganisms from three different depths of bituminous coal seams in Huainan mining area, and revealed the secondary biogas generation mechanism of bituminous coal seams by using the combined analysis of macro-genome and metabolism multi-omics. The results showed that the cumulative mass molar concentrations (Molality) of biomethane production increased with the increase of the coal seam depth in two consecutive cycles; At the genus level, there were significant differences in the bacterial and archaeal community structures corresponding to the three coal seams 1#, 6#, and 9#, with correlations of R bacterial = 0.368 and R archaeal = 0.463, respectively; V ad and V i of coal were significantly correlated with differences in genus-level composition of bacteria and archaea; the largest difference in functional genes related to the methanogenic metabolic pathway was observed before and after incubation of coal bed microorganisms, with an average positive growth of 42%; meanwhile, a total of 11 classes of carbon metabolism homologues closely related to methanogenesis were detected in the liquid metabolites of coal bed microbes after 60 days of incubation. Finally, the fatty acid, amino acid and carbohydrate synergistic methanogenic metabolic pathway was reconstructed based on KEGG database; the expression level of mcrA gene within the metabolic pathway of the 1# deep coal sample was significantly higher than that of the other two groups (p<0.05 for significance), and the efficient expression of this functional gene at the front end of the methanogenic pathway facilitates the conversion of bituminous coal organic matter to methane.Therefore, coal quality (V ad ) is likely to be one of the key factors causing diversity in microbial community composition and metabolic function differences in different coal seams.

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Section: Discussionmentioning

confidence: 85%

Mechanisms of secondary biogenic coalbed methane formation in bituminous coal seams: a joint experimental and multi-omics study

Zhang,

Liu,

Xue

et al. 2024

Arch Microbiol

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Recent Updates of Biodiesel Production: Source, Production Methods, and Metagenomic Approach

Singh

2021

Bioenergy Research: Revisiting Latest Development

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Biogas and Volatile Fatty Acid Production During Anaerobic Digestion of Straw, Cellulose, and Hemicellulose with Analysis of Microbial Communities and Functions

Liu

Zuo

Peng

et al. 2021

Appl Biochem Biotechnol

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BackgroundAnaerobic digestion (AD) is a promising method for straw treatment, but the complex composition and structure of straw limit AD e ciency and methane production. The main biodegradable components of straw are cellulose and hemicellulose. Because of the different chemical structures and physicochemical properties, the performance of AD of cellulose and hemicellulose is different, thus it's also different from that of straw. Research on the similarities and differences of AD of straw, cellulose and hemicellulose is helpful to clarify the law of anaerobic digestion of straw and provide theoretical basis for further improving the e ciency of anaerobic digestion. However, there are very few studies on AD using cellulose and hemicellulose as raw materials. ResultsRice straw (RS), cellulose, and hemicellulose were used as raw materials to study biogas production performance and changes in the volatile fatty acids (VFAs). Further, microbial communities and genetic functions were analyzed separately for each material. The biogas production potential of RS, cellulose, and hemicellulose was different, with cumulative biogas production of 620.64, 412.50, and 283.75 mL/g•VS − 1 , respectively. The methane content of the biogas produced from cellulose and hemicellulose was approximately 10% higher than that produced from RS after the methane content stabilized. Biogas production and the methane content of RS stabilized more quickly than that of cellulose and hemicellulose. The accumulation of VFAs occurred in the early stage of anaerobic digestion in all the three materials, and the main volatile fatty acid component of RS was acetic acid, whereas that of cellulose and hemicellulose was propionic acid. The cumulative amount of VFAs in both cellulose and

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Carbon migration and metagenomic characteristics during anaerobic digestion of rice straw

Cited by 12 publications

References 35 publications

Mechanisms of secondary biogenic coalbed methane formation in bituminous coal seams: a joint experimental and multi-omics study

Mechanisms of secondary biogenic coalbed methane formation in bituminous coal seams: a joint experimental and multi-omics study

Recent Updates of Biodiesel Production: Source, Production Methods, and Metagenomic Approach

Biogas and Volatile Fatty Acid Production During Anaerobic Digestion of Straw, Cellulose, and Hemicellulose with Analysis of Microbial Communities and Functions

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