Variation in community structure and network characteristics of spent mushroom substrate (SMS) compost microbiota driven by time and environmental conditions
[Display omitted] •SMS composting effectively influence the microbial dynamic.•Microbial networks are modularized and fragmented.•Network topological properties are significantly influenced by environmental factors.•The final composting product are mature, safe and available. Global mushroom product...
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Veröffentlicht in: | Bioresource technology 2022-11, Vol.364, p.127915, Article 127915 |
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Sprache: | eng |
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•SMS composting effectively influence the microbial dynamic.•Microbial networks are modularized and fragmented.•Network topological properties are significantly influenced by environmental factors.•The final composting product are mature, safe and available.
Global mushroom production is growing rapidly, raising concerns about polluting effects of spent mushroom substrate (SMS) and interest in uses in composts. In this study, SMS composting trials and high-throughput sequencing were carried out to investigate to better understand how the structure, co-occurrence patterns, and functioning of bacterial and fungal communities vary through compost time and across environmental conditions. The results suggested that both bacterial and fungal microbiota displayed significant variation in community composition across different composting stages. Enzyme activity levels showed both directional and fluctuating changes during composting, and the activity dynamics of carboxymethyl cellulase, polyphenol oxidase, laccase, and catalase correlated significantly with the succession of microbial community composition. The co-occurrence networks are “small-world” and modularized and the topological properties of each subnetwork were significantly influenced by the environmental factors. Finally, seed germination and seedling experiments were performed to verify the biosafety and effectiveness of the final composting products. |
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ISSN: | 0960-8524 1873-2976 1873-2976 |
DOI: | 10.1016/j.biortech.2022.127915 |