木醋液对稻草和柱花草青贮发酵参数、CO 产生及细菌群落的影响

Influence of Pyroligneous Acid on Fermentation Parameters, CO Production and Bacterial Communities of Rice Straw and Stylo Silage.

作者信息

Guo Xiang, Zheng Peng, Zou Xuan, Chen Xiaoyang, Zhang Qing

机构信息

Guangdong Key Laboratory for Innovative Development and Utilization of Forest Plant Germplasm, State Key Laboratory for Conservation and Utilization of Subtropical Agro-Bioresources, Guangdong Province Research Center of Woody Forage Engineering Technology, Guangdong Research and Development Center of Modern Agriculture (Woody forage) Industrial Technology, South China Agricultural University, Guangzhou, China.

College of Horticulture, South China Agricultural University, Guangzhou, China.

出版信息

Front Microbiol. 2021 Jul 8;12:701434. doi: 10.3389/fmicb.2021.701434. eCollection 2021.

DOI:10.3389/fmicb.2021.701434

PMID:34305868

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8297647/

Abstract

Carbon dioxide (CO) is a primary greenhouse gas and the main cause of global warming. Respiration from plant cells and microorganisms enables CO to be produced during ensiling, a method of moist forage preservation applied worldwide. However, limited information is available regarding CO emissions and mitigation during ensiling. Pyroligneous acid, a by-product of plant biomass pyrolysis, has a strong antibacterial capacity. To investigate CO production and the influence of pyroligneous acid, fresh stylo, and rice straw were ensiled with or without 1% or 2% pyroligneous acid. Dynamics of the fermentation characteristics, CO production, and bacterial communities during ensiling were analyzed. Pyroligneous acid increased the lactic acid content and decreased the weight losses, pH, ammonia-N content, butyric acid content, and coliform bacterial numbers (all < 0.05). It also increased the relative abundance of and decreased the relative abundances of harmful bacteria such as and . Adding pyrolytic acids reduced the gas production, especially of CO. It also increased the relative abundances of CO-producing bacterial genera and of genera with the potential for CO fixation. In conclusion, adding pyroligneous acid improved the fermentation quality of the two silages. During ensiling, CO production was correlated with bacterial community alterations. Using pyroligneous acid altered the bacterial community to reduce CO production during ensiling. Given the large production and demand for silage worldwide, application of pyroligneous acid may be an effective method of mitigating global warming via CO emissions.

摘要

二氧化碳（CO₂）是一种主要的温室气体，也是全球变暖的主要原因。植物细胞和微生物的呼吸作用使得在青贮过程中会产生CO₂，青贮是一种在全球范围内应用的潮湿草料保存方法。然而，关于青贮过程中CO₂排放及减排的信息有限。木醋液是植物生物质热解的副产物，具有很强的抗菌能力。为了研究CO₂的产生以及木醋液的影响，将新鲜柱花草和稻草分别添加1%或2%木醋液进行青贮或不添加木醋液进行青贮。分析了青贮过程中发酵特性、CO₂产生及细菌群落的动态变化。木醋液增加了乳酸含量，降低了重量损失、pH值、氨态氮含量、丁酸含量和大肠菌群数量（均P<0.05）。它还增加了有益菌的相对丰度，降低了有害菌如肠杆菌属和梭菌属的相对丰度。添加木醋液减少了气体产生，尤其是CO₂的产生。它还增加了产CO₂细菌属和具有CO₂固定潜力的细菌属的相对丰度。总之，添加木醋液提高了两种青贮饲料的发酵质量。在青贮过程中，CO₂的产生与细菌群落变化相关。使用木醋液改变细菌群落以减少青贮过程中的CO₂产生。鉴于全球青贮饲料的大量生产和需求，应用木醋液可能是一种通过减少CO₂排放来缓解全球变暖的有效方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4109/8297647/c51ccbb5a4d4/fmicb-12-701434-g001.jpg

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木醋液对稻草和柱花草青贮发酵参数、CO 产生及细菌群落的影响

Influence of Pyroligneous Acid on Fermentation Parameters, CO Production and Bacterial Communities of Rice Straw and Stylo Silage.

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