Xiang Yin, Yang Fan, Rong Tian, Ruxue Tang, Jing Tian, Jianguo Zhang
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The research results showed that incorporating SR even at 3% resulted in significant reduction in ammonia nitrogen content (87.3 g kg<sup>−1</sup> total nitrogen vs. 109.7 g kg<sup>−1</sup> total nitrogen), increased lactic acid content (34.4 g kg<sup>−1</sup> DM vs. 25.5 g kg<sup>−1</sup> DM), and higher relative abundance of <i>Lactobacillus</i> (94.5% vs. 32.2%). Additionally, it led to decreased relative abundances of pathogenic microorganisms such as <i>Escherichia coli</i> (< 0.1% vs. 9.68%), <i>Staphylococcus epidermidis</i> (< 0.1% vs. 9.46%), and <i>Streptococcus pneumoniae</i> (< 0.1% vs. 8.53%) during the ensiling process. When SR was used together with LP inoculation, they were further improved. These findings suggest that the inclusion of SR, even at a 3% level without LP inoculation, can effectively improve the fermentation quality and microbial profile of TMR silage based on fresh Napier grass. 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引用次数: 0
摘要
安全优质青贮饲料的生产一直是人们关注的主要问题。本试验旨在研究废豆腐渣(SR)和植物乳杆菌CCZZ1对紫草(Pennisetum purpureum)全混合日粮(TMR)青贮发酵品质和微生物群落的影响。将纳皮草制成TMR,在干物质基础上加入3%、6%或9%的SR,替代等量玉米粉,然后不接种或接种植物乳杆菌CCZZ1 (105 cfu g−1;LP)。研究结果表明,即使添加3%的SR,也能显著降低氨氮含量(87.3 g kg - 1总氮比109.7 g kg - 1总氮),提高乳酸含量(34.4 g kg - 1 DM比25.5 g kg - 1 DM),提高乳杆菌的相对丰度(94.5%比32.2%)。此外,青贮过程中病原菌的相对丰度降低,如大肠杆菌(0.1%比9.68%)、表皮葡萄球菌(0.1%比9.46%)、肺炎链球菌(0.1%比8.53%)。当SR与LP接种同时使用时,它们进一步得到改善。综上所述,在不接种LP的情况下,即使添加3%的SR,也能有效改善新鲜纳皮草基TMR青贮的发酵品质和微生物特征。这为利用SR生产安全优质的鲜草TMR青贮饲料提供了一条有前景的技术途径。图形抽象
Improving the quality and reducing harmful microbes of total mixed ration silage with dried soybean curd residue
The production of safe and high-quality silage has always been the main concern. This experiment aimed to investigate the impact of waste dried soybean curd residue (SR) and Lactobacillus plantarum CCZZ1 on the fermentation quality and microbial community of total mixed ration (TMR) silage based on Napier grass (Pennisetum purpureum). Napier grass was made into TMR, and SR at 3%, 6% or 9% on dry material basis was included, which replaced the equivalent amount of corn meal, then they were inoculated without or with Lactobacillus plantarum CCZZ1 (105 cfu g−1; LP). The research results showed that incorporating SR even at 3% resulted in significant reduction in ammonia nitrogen content (87.3 g kg−1 total nitrogen vs. 109.7 g kg−1 total nitrogen), increased lactic acid content (34.4 g kg−1 DM vs. 25.5 g kg−1 DM), and higher relative abundance of Lactobacillus (94.5% vs. 32.2%). Additionally, it led to decreased relative abundances of pathogenic microorganisms such as Escherichia coli (< 0.1% vs. 9.68%), Staphylococcus epidermidis (< 0.1% vs. 9.46%), and Streptococcus pneumoniae (< 0.1% vs. 8.53%) during the ensiling process. When SR was used together with LP inoculation, they were further improved. These findings suggest that the inclusion of SR, even at a 3% level without LP inoculation, can effectively improve the fermentation quality and microbial profile of TMR silage based on fresh Napier grass. This offers a promising technical approach to utilizing SR and producing safe and high-quality TMR silage based on fresh grass.
期刊介绍:
Chemical and Biological Technologies in Agriculture is an international, interdisciplinary, peer-reviewed forum for the advancement and application to all fields of agriculture of modern chemical, biochemical and molecular technologies. The scope of this journal includes chemical and biochemical processes aimed to increase sustainable agricultural and food production, the evaluation of quality and origin of raw primary products and their transformation into foods and chemicals, as well as environmental monitoring and remediation. Of special interest are the effects of chemical and biochemical technologies, also at the nano and supramolecular scale, on the relationships between soil, plants, microorganisms and their environment, with the help of modern bioinformatics. Another special focus is the use of modern bioorganic and biological chemistry to develop new technologies for plant nutrition and bio-stimulation, advancement of biorefineries from biomasses, safe and traceable food products, carbon storage in soil and plants and restoration of contaminated soils to agriculture.
This journal presents the first opportunity to bring together researchers from a wide number of disciplines within the agricultural chemical and biological sciences, from both industry and academia. The principle aim of Chemical and Biological Technologies in Agriculture is to allow the exchange of the most advanced chemical and biochemical knowledge to develop technologies which address one of the most pressing challenges of our times - sustaining a growing world population.
Chemical and Biological Technologies in Agriculture publishes original research articles, short letters and invited reviews. Articles from scientists in industry, academia as well as private research institutes, non-governmental and environmental organizations are encouraged.
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