通过接种细菌增强共堆肥中木质纤维素的降解及霉菌毒素的减少

Enhancing Lignocellulose Degradation and Mycotoxin Reduction in Co-Composting with Bacterial Inoculation.

作者信息

Chen Cheng, Tang Xiaolong, Liao Chaosheng, Huang Xiaokang, Zhang Mingjie, Zhang Yubo, Wang Pan, Yang Siqi, Li Ping, Chen Chao

机构信息

College of Animal Science, Guizhou University, Guiyang 550025, China.

Key Laboratory of Animal Genetics, Breeding & Reproduction in the Plateau Mountainous Region, Ministry of Education, Guizhou University, Guiyang 550025, China.

出版信息

Microorganisms. 2025 Mar 18;13(3):677. doi: 10.3390/microorganisms13030677.

DOI:10.3390/microorganisms13030677

PMID:40142569

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11946631/

Abstract

The burgeoning global silage industry has precipitated challenges related to the sustainable utilization of mycotoxin-contaminated silage. To understand the effect of bio-enhancement on lignocellulose degradation and mycotoxin reduction, mycotoxin-contaminated silage and rape straw were co-composted without (CK) or with different bacterial agents and their combinations. Compared to CK, the inoculation of and could increase the degradation rate of cellulose by 39.24% and lignin by 22.31% after composting. Inoculation of and sp. significantly enhanced cellulose and lignin degradation rates by 26.75% and 15.48%, respectively. Furthermore, this treatment significantly reduced mycotoxin levels ( < 0.05), including Aflatoxin B1 (AFB1, 64.48% reduction), T-2 toxin (65.02%), Ochratoxin A (OTA, 61.30%), Zearalenone (ZEN, 67.67%), and Vomitoxin (DON, 48.33%). Inoculation with sp. and other bacteria increased total nitrogen by 48.34-65.52% through enhancing microbiological activity. Therefore, sp. in combination with other bacteria could increase compost efficiency and reduce mycotoxin presence for better and safer utilization of agricultural waste by-products, enabling faster conversion of contaminated silage into safe soil amendments, which could reduce agricultural waste management costs.

摘要

蓬勃发展的全球青贮饲料产业带来了与霉菌毒素污染青贮饲料可持续利用相关的挑战。为了解生物强化对木质纤维素降解和霉菌毒素减少的影响，将受霉菌毒素污染的青贮饲料和油菜秸秆进行共堆肥处理，对照组（CK）不添加任何细菌制剂，其他组添加不同的细菌制剂及其组合。与CK相比，接种[具体细菌1]和[具体细菌2]后，堆肥后纤维素降解率提高了39.24%，木质素降解率提高了22.31%。接种[具体细菌3]和[具体细菌4]显著提高了纤维素和木质素的降解率，分别提高了26.75%和15.48%。此外，该处理显著降低了霉菌毒素水平（P<0.05），包括黄曲霉毒素B1（AFB1，降低64.48%）、T-2毒素（65.02%）、赭曲霉毒素A（OTA，61.30%）、玉米赤霉烯酮（ZEN，67.67%）和呕吐毒素（DON，48.33%）。接种[具体细菌5]和其他细菌通过增强微生物活性使总氮增加了48.34%-65.52%。因此，[具体细菌5]与其他细菌联合使用可以提高堆肥效率，减少霉菌毒素的存在，以便更好、更安全地利用农业废弃物副产品，使受污染的青贮饲料更快地转化为安全的土壤改良剂，从而降低农业废弃物管理成本。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/85f6/11946631/d02d1f4eb2f5/microorganisms-13-00677-g001.jpg

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通过接种细菌增强共堆肥中木质纤维素的降解及霉菌毒素的减少

Enhancing Lignocellulose Degradation and Mycotoxin Reduction in Co-Composting with Bacterial Inoculation.

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