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苜蓿青贮过程中及空气暴露后的微生物群动态,以及空气暴露后的代谢组学受和纤维素酶添加的影响。

The Microbiota Dynamics of Alfalfa Silage During Ensiling and After Air Exposure, and the Metabolomics After Air Exposure Are Affected by and Cellulase Addition.

作者信息

Hu Zongfu, Niu Huaxin, Tong Qing, Chang Jie, Yu Jianhua, Li Shuguo, Zhang Shi, Ma Deying

机构信息

College of Animal Science and Technology, Northeast Agricultural University, Harbin, China.

College of Animal Science and Technology, Inner Mongolia University for Nationalities, Tongliao, China.

出版信息

Front Microbiol. 2020 Nov 26;11:519121. doi: 10.3389/fmicb.2020.519121. eCollection 2020.

Abstract

Both inoculants treatment and enzyme treatment promote the reproduction of lactic acid bacteria (LAB) to produce enough lactic acid to lower pH in silage. The present study investigated the microbial community and metabolome in cellulase, , and air treated alfalfa silage. Chopped and wilted alfalfa (first cutting, 29% dry matter) was ensiled without (CON) or with (1 × 10 cfu g fresh matter) (LC) or cellulase (20,000IU, 0.5% of fresh matter) (CE) for 56 days, then exposed to air for 3 days (PO). Greater ensiling quality was observed in LC and CE, which had lower pH and higher lactic acid content than CON at 56 days of ensiling and 3 days post-oxygen exposure. Air exposure was associated with decreased lactic acid concentrations and increased yeast and mold counts in all silages. SEM showed that the structure of leaf epicuticular wax crystals were intact in fresh alfalfa, totally decomposed in CON silage, and partly preserved in CE and LC silage. Gas chromatography mass spectrometry revealed that 196 metabolites and 95 differential concentration were present in the 3 days air exposure samples. Most of these metabolites, mainly organic acids, polyols, ketones, aldehydes, are capable of antimicrobial activity. The bacterial communities were obviously different among groups and developed to a dominant status in all silages. became dominant in bacterial communities of LC and CE silages from days 7 to 56, and their relative abundances reached 94.17-83.93% at day 56, respectively. For CON silage, until day 56, dominated the bacterial community with abundance of 75.10%. After 3 days of oxygen exposure, and were predominant in CON, and remained dominant in LC and CE silages. The results indicated that, compared to untreated silages, could be a priority inoculant for alfalfa silage to boost abundance and improve fermentation quality. Our high-throughput sequencing and gas chromatography mass spectrometry results provide a deep insight into the bacterial community and metabolites in alfalfa silage.

摘要

接种剂处理和酶处理均能促进乳酸菌(LAB)的繁殖,从而产生足够的乳酸以降低青贮饲料的pH值。本研究调查了纤维素酶、[此处原文缺失信息]和空气处理的苜蓿青贮饲料中的微生物群落和代谢组。将切碎并萎蔫的苜蓿(头茬,干物质含量29%)在不添加(CON)或添加[此处原文缺失信息](1×10 cfu/g鲜物质)(LC)或纤维素酶(20,000IU,占鲜物质的0.5%)(CE)的情况下青贮56天,然后暴露于空气中3天(PO)。在青贮56天和氧气暴露后3天时,LC和CE组的青贮质量更佳,其pH值更低,乳酸含量高于CON组。所有青贮饲料中,空气暴露与乳酸浓度降低以及酵母和霉菌数量增加有关。扫描电子显微镜显示,新鲜苜蓿中叶表皮蜡质晶体结构完整,CON青贮饲料中完全分解,CE和LC青贮饲料中部分保留。气相色谱 - 质谱分析表明,在空气暴露3天的样品中存在196种代谢物和95种差异浓度代谢物。这些代谢物中的大多数,主要是有机酸、多元醇、酮、醛,具有抗菌活性。各组之间细菌群落明显不同,[此处原文缺失信息]在所有青贮饲料中发展成为优势菌群。[此处原文缺失信息]在LC和CE青贮饲料的细菌群落中从第7天到第56天占主导地位,在第56天时其相对丰度分别达到94.17 - 83.93%。对于CON青贮饲料,直到第56天,[此处原文缺失信息]以75.10%的丰度主导细菌群落。氧气暴露3天后,[此处原文缺失信息]在CON中占主导,[此处原文缺失信息]在LC和CE青贮饲料中仍占主导。结果表明,与未处理的青贮饲料相比,[此处原文缺失信息]可能是苜蓿青贮饲料的优先接种剂,可提高[此处原文缺失信息]丰度并改善发酵质量。我们的高通量测序和气相色谱 - 质谱分析结果为苜蓿青贮饲料中的细菌群落和代谢物提供了深入见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4514/7732661/ddcf0aa1c713/fmicb-11-519121-g001.jpg

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