瘤胃发酵和微生物特征的昼夜变化揭示了高谷物和高饲草日粮条件下瘤胃细菌、甲烷菌和原生动物的昼夜节律

Yangyi Hao , Jianming Xia , Wei Wang , Yajing Wang , Zhijun Cao , Hongjian Yang , Linshu Jiang , Zhu Ma , Kangkang Chu , Shuang Wang , Le Luo Guan , Shengli Li
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引用次数: 0

摘要

在这项研究中,我们调查了在两种不同日粮(高谷物和高饲料)条件下,瘤胃微生物群的组成和数量如何随昼夜振荡而变化。本研究选取了五头体重、DIM 和胎次相似的多胎荷斯坦奶牛。这些奶牛先饲喂高谷物(HG)日粮 21 天,然后在接下来的 21 天内改喂高饲草(HF)日粮(7 天冲洗期和 14 天实验期)。在实验期间,记录DMI和瘤胃活动,并在每个日粮饲喂期的最后2 d,每6 h收集8次饲喂后的瘤胃液。分别使用定量 PCR 和扩增子测序法评估瘤胃微生物(细菌、古细菌和原生动物)的数量和组成。使用 cosinor 模型评估了测量结果的日动态。微生物类群与瘤胃发酵曲线之间的关系采用线性混合模型进行评估,其中奶牛被称为随机截距效应。在两种日粮条件下,DMI、反刍活动和瘤胃发酵曲线都呈现出日节律性。此外,高频日粮的反刍时间、瘤胃pH值和乙酸盐/丙酸盐比率的中间值(昼夜波动的平均水平)高于低频日粮。HG日粮的DMI、瘤胃pH、氨氮和总挥发性酸浓度的振幅(峰值与中值之间的距离)高于HF日粮。虽然瘤胃微生物种群没有观察到明显的昼夜振荡,但14个细菌属、1个原生动物属和2个古细菌属的相对丰度在HF和HG日粮中都有明显的昼夜振荡。其中,反刍球菌属(Ruminococcus)和 Colidextribacter 属(Colidextribacter)的节律峰值出现在采食后 0 至 12 h 内,且与瘤胃乙酸盐/丙酸盐比率呈负相关。Rikenellaceae_RC9_gut_group细菌属在采食后12至24小时内达到节律峰值,这也与瘤胃乙酸盐/丙酸盐比率呈正相关。我们的研究说明了在不同日粮条件下瘤胃微生物群数量和组成的日动态变化,同时也确定了饲喂反应性瘤胃微生物群,强调了需要一种更有针对性的方法来操纵瘤胃微生物群。
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Diurnal shifts of rumen fermentation and microbial profiles revealed circadian rhythms of rumen bacteria, methanogens, and protozoa under high-grain and high-forage diets
In this study, we investigated how the composition and population of rumen microbiota shifted in response to diurnal oscillations under 2 different diets (high grain vs. high forage). Five multiparous Holstein dairy cows with similar BW, DIM, and parity were enrolled in this study. The cows were fed high-grain (HG) diet for 21 d and then shifted to high-forage (HF) diet in the next 21 d (7-d washout and 14-d experimental period). During the experimental period, DMI and rumination activity were recorded, and rumen fluid was collected 8 times postfeeding every 6 h during the last 2 d of each dietary feeding period. The rumen microbial (bacterial, archaeal, and protozoal) population and composition were assessed using quantitative PCR and amplicon sequencing, respectively. The daily dynamic of measurements was assessed using the cosinor model. The associations between microbial taxa and rumen fermentation profiles were assessed using the linear mixed model, in which the cows were termed as random intercept effects. Daily rhythmicity was observed for DMI, rumination activity, and rumen fermentation profiles under both diets. Additionally, rumination time, rumen pH, and acetate/propionate ratio had a higher mesor (the average level of diurnal fluctuations) under HF diet than in HG diet. The amplitude (the distance between the peak and mesor) of DMI, rumen pH, ammonia nitrogen, and total volatile acid concentration were higher under the HG diet than in the HF diet. Although no significant diurnal oscillation was observed for the rumen microbial population, the relative abundance of 14 bacterial genera, 1 protozoal genus, and 2 archaeal species had significant diurnal oscillations under both HF and HG diets. Among them, the bacterial genera Ruminococcus and Colidextribacter had time at peak of rhythm within 0 to 12 h after feeding, which were also negatively associated with the rumen acetate/propionate ratio. The bacterial genus Rikenellaceae_RC9_gut_group had time at peak of rhythm within 12 to 24 h after feeding, which was also positively associated with the ruminal acetate/propionate ratio. Our study illustrated the daily dynamic on the rumen microbiota population and composition under different diets, and also identified the feeding-responsive rumen microbiota, highlighting that a more targeted approach is needed to manipulate rumen microbiota.
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JDS communications
JDS communications Animal Science and Zoology
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Table of Contents Editorial Board Getting to grips with resilience: Toward large-scale phenotyping of this complex trait* Development of genomic evaluation for methane efficiency in Canadian Holsteins* Validation and interdevice reliability of a behavior monitoring collar to measure rumination, feeding activity, and idle time of lactating dairy cows
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