Straw waste promotes microbial functional diversity and lignocellulose degradation during the aerobic process of pig manure in an ectopic fermentation system via metagenomic analysis

发酵 半纤维素 基因组 微生物种群生物学 食品科学 肥料 木质素 纤维素 稻草 降级(电信) 化学 生物 制浆造纸工业 细菌 农学 植物 生物化学 基因 工程类 电信 遗传学 计算机科学
作者
Qi Shen,Jiangwu Tang,Hong Sun,Xiaohong Yao,Yifei Wu,Xin Wang,Shihao Ye
出处
期刊:Science of The Total Environment [Elsevier BV]
卷期号:838 (Pt 1): 155637-155637 被引量:38
标识
DOI:10.1016/j.scitotenv.2022.155637
摘要

This study compares the physicochemical properties, lignocellulose degradation, microbial community composition, and carbohydrate-active enzymes (CAZymes) in ectopic fermentation systems (EFS) of pig manure mixed with either conventional padding (C) or straw waste (A). The degradation rates of cellulose, hemicellulose, and lignin were found to be significantly higher in A (27.72%, 22.72%, and 18.80%, respectively) than in C (21.05%, 16.17%, and 11.69%, respectively) owing to the activities of lignocellulolytic enzymes. Metagenomics revealed that straw addition had a stronger effect on the bacterial community succession than fungi. The abundances of Sphingobacterium, Pseudomonas, and CAZymes were higher in A than in C, as well as the auxiliary activity enzymes, which are crucial for lignocellulose degradation. Redundancy analysis indicates a positive correlation between lignocellulose degradation and Sphingobacterium, Pseudomonas, Bacillus, and Actinobacteria contents. A structural equation model was applied to further verify that the increased microbial functional diversity was the primary driver of lignocellulosic degradation, which could be effectively regulated by the enhanced temperature with straw addition. Replacing traditional padding with straw can thus accelerate lignocellulosic degradation, promote microbial functional diversity, and improve the EFS efficiency.
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