Analysis of differences in the rumen microbiome and metabolic function in prepartum dairy cows with different body condition scores.

IF 4.9 Q1 MICROBIOLOGY Animal microbiome Pub Date : 2024-06-24 DOI:10.1186/s42523-024-00324-5
Dewei Du, Yanzhe Wang, Yongji Gao, Lei Feng, Ziye Zhang, Zhiyong Hu
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Abstract

Background: The rumen is a crucial digestive organ for dairy cows. The rumen microbiota assists in the digestion of plant feed through microbe-mediated fermentation, during which the plant feed is transformed into nutrients for the cow's use. Variations in the composition and function of the rumen microbiome affect the energy utilization efficiency of dairy cows, which is one of the reasons for the varying body condition scores (BCSs). This study focused on prepartum Holstein dairy cows to analyze differences in rumen microbiota and metabolites among cows with different BCSs. Twelve prepartum dairy cows were divided into two groups, low BCS (LBCS, BCS = 2.75, n = 6) and high BCS (HBCS, BCS = 3.5, n = 6), to explore differences in microbial composition and metabolites.

Results: In the HBCS group, the genera within the phylum Firmicutes exhibited stronger correlations and greater abundances. Phyla such as Firmicutes, Patescibacteria, Acidobacteriota, Euryarchaeota, and Desulfobacterota, in addition to most of their constituent microbial groups, were significantly more abundant in the HBCS group than in the LBCS group. At the genus level, the abundances of Anaerovibrio, Veillonellaceae_UCG_001, Ruminococcus_gauvreauii_group, Blautia, Eubacterium, Prevotellaceae_YAB2003_group, Schwartzia, and Halomonas significantly increased in the HBCS group. The citrate cycle, involved in carbohydrate metabolism, exhibited a significant enrichment trend, with a notable increase in the abundance of its key substrate, citrate, in the HBCS group. This increase was significantly positively correlated with the differential bacterial genera.

Conclusion: In this study, prepartum dairy cows with higher BCS exhibited greater abundance of Firmicutes. This study provides theoretical support for microbiological research on dairy cows with different BCSs and suggests that regulating the rumen microbiome could help maintain prepartum dairy cows within an optimal BCS range.

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分析不同体况评分的产前奶牛瘤胃微生物组和代谢功能的差异。
背景瘤胃是奶牛的重要消化器官。瘤胃微生物群通过微生物介导的发酵帮助消化植物饲料,在发酵过程中,植物饲料被转化为营养物质供奶牛使用。瘤胃微生物群组成和功能的变化会影响奶牛的能量利用效率,这也是体况评分(BCS)不同的原因之一。本研究以产前荷斯坦奶牛为研究对象,分析不同体况评分奶牛瘤胃微生物群和代谢物的差异。研究人员将 12 头产前奶牛分为两组,即低 BCS 组(LBCS,BCS = 2.75,n = 6)和高 BCS 组(HBCS,BCS = 3.5,n = 6),以探讨微生物组成和代谢物的差异:结果:在 HBCS 组中,真菌门中的菌属表现出更强的相关性和更高的丰度。在 HBCS 组中,固着菌门、串珠菌门、酸性杆菌门、极叉菌门和脱硫菌门等门类及其大多数组成微生物群的丰度明显高于 LBCS 组。在属一级,HBCS 组中 Anaerovibrio、Veillonellaceae_UCG_001、Ruminococcus_gauvreauii_group、Blautia、Eubacterium、Prevotellaceae_YAB2003_group、Schwartzia 和 Halomonas 的丰度显著增加。参与碳水化合物代谢的柠檬酸循环表现出明显的富集趋势,其关键底物柠檬酸的丰度在 HBCS 组明显增加。这种增加与不同的细菌属呈明显的正相关:结论:在本研究中,BCS 越高的产前奶牛表现出越多的真菌。这项研究为不同BCS奶牛的微生物研究提供了理论支持,并表明调节瘤胃微生物群有助于将产前奶牛维持在最佳BCS范围内。
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来源期刊
CiteScore
7.20
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审稿时长
13 weeks
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