短期基于桃木屑堆肥过程中微生物群落演替及其功能预测。

Succession of the microbial communities and function prediction during short-term peach sawdust-based composting.

机构信息

Beijing Advanced Innovation Center for Tree Breeding by Molecular Design, Beijing Key Laboratory for Agricultural Application and New Technique, College of Plant Science and Technology, Beijing University of Agriculture, Beijing 102206, China; College of Forestry and Horticulture, Xinjiang Agricultural University, Urumqi 830052, China.

出版信息

Bioresour Technol. 2021 Jul;332:125079. doi: 10.1016/j.biortech.2021.125079. Epub 2021 Mar 30.

DOI:10.1016/j.biortech.2021.125079

PMID:33813177

Abstract

Short-term composting of raw materials for preparing oyster mushroom cultivation media is widely used in China, and its microbial mechanism needs to be further studied. 11-days' peach sawdust-based composting was performed to evaluate material conversion and microbial succession using physicochemical analysis and 16S rRNA and ITS sequencing. Composting bacteria demonstrated much higher abundance than fungi. Firmicutes, Actinobacteriota, and Proteobacteria were the dominant bacterial phyla, while most of fungal species belonged to Ascomycota. Moisture was the key factor at the beginning, while total nitrogen, temperature, and lignin became main influencing factors for composting maturity. Actinobacteriota, Firmicutes, and Proteobacteria of bacterial phyla, Eurotiomycetes and Sordariomycetes of fungal classes involved in lignocellulosic degradation. Bacterial function prediction analysis showed that carbohydrate metabolism and amino acid metabolism were the main metabolic pathways. These results confer a better understanding of material and microbial succession during short-term composting and also provide valuable utilization in mushroom industry.

摘要

短期原料堆肥是中国广泛应用于制备菌菇栽培基质的方法，其微生物机制尚待进一步研究。本研究采用理化分析和 16S rRNA 和 ITS 测序方法，对以桃木屑为基础的 11 天堆肥过程中的物料转化和微生物演替进行了评估。堆肥细菌的丰度明显高于真菌。厚壁菌门、放线菌门和变形菌门是主要的细菌门，而大多数真菌物种属于子囊菌门。水分是初始阶段的关键因素，而总氮、温度和木质素则成为堆肥成熟的主要影响因素。参与木质纤维素降解的细菌门主要有放线菌门、厚壁菌门和变形菌门，真菌纲主要有子囊菌纲和腔菌纲。细菌功能预测分析表明，碳水化合物代谢和氨基酸代谢是主要的代谢途径。这些结果更好地理解了短期堆肥过程中的物料和微生物演替，也为菌菇产业的应用提供了有价值的参考。

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短期基于桃木屑堆肥过程中微生物群落演替及其功能预测。

Succession of the microbial communities and function prediction during short-term peach sawdust-based composting.

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