Liu Zixin, Jiang Aoyu, Ma Dianyu, Liu Dexin, Han Xiaoyu, Zhao Man, Zhou Chuanshe, Tan Zhiliang
Key Laboratory for Agro-Ecological Processes in Subtropical Region, Institute of Subtropical Agriculture, Chinese Academy of Sciences, Changsha, China.
University of the Chinese Academy of Sciences, Beijing, China.
Front Vet Sci. 2025 Feb 17;11:1463209. doi: 10.3389/fvets.2024.1463209. eCollection 2024.
Previous studies have discussed the association between serum metabolism and lactation performance among Sanhe and Holstein cows of different parities and found that the metabolic profiles of these two breeds vary differently with parity. Since the rumen is the central organ for nutrient absorption and production transformation in dairy cows, it remains unknown whether the differences observed under the same dietary conditions are related to the structure of the rumen microbiome. This study measured the apparent digestibility and rumen fermentation parameters of Sanhe cows (S1/S2/S3/S4) and Holstein cows (H1/H2/H3/H4) across four parities and generated a comprehensive rumen microbiome dataset using high-throughput sequencing technology. Significant differences in dry matter digestibility ( = 0.001) and ammonia nitrogen ( = 0.024) were observed among the S groups, with higher trends of various VFA contents in S1 (0.05 < < 0.1). The H group showed significant differences in crude protein digestibility ( = 0.001), higher isovaleric acid content in H1 ( = 0.002), and the lowest acetate to propionate ratio ( = 0.002) in H3. Metagenomic sequencing results indicated consistency between rumen microbiome patterns and metabolic changes, with S1 distinctly different from S2/S3/S4, and H1 and H2 different from H3 and H4. The species composition of the rumen microbiome was similar between Sanhe and Holstein cows, but differences in abundance were noted. , , and were more abundant in S1, H1, and H2, and pathways such as autophagy-animal, plant-pathogen interaction, and endocytosis were significantly enriched in these parities. Multiparous Sanhe cows had higher abundances of ATP-binding cassette transporters pathways. Additionally, CAZymes such as GH84 and GH37 were significantly associated with differential physiological indicators and milk traits. In conclusion, this study reveals the complex relationship between rumen microbiota and metabolic characteristics in Sanhe and Holstein cows of different parities, indicating that changes in the structure of the rumen microbiome may be key factors affecting lactation performance and metabolic differences in dairy cows.
以往的研究探讨了不同胎次的三河牛和荷斯坦奶牛血清代谢与泌乳性能之间的关联,发现这两个品种的代谢谱随胎次的变化存在差异。由于瘤胃是奶牛营养吸收和生产转化的中心器官,在相同日粮条件下观察到的差异是否与瘤胃微生物群的结构有关仍不清楚。本研究测定了四个胎次的三河牛(S1/S2/S3/S4)和荷斯坦奶牛(H1/H2/H3/H4)的表观消化率和瘤胃发酵参数,并使用高通量测序技术生成了一个全面的瘤胃微生物群数据集。在S组中观察到干物质消化率(=0.001)和氨氮(=0.024)存在显著差异,S1中各种挥发性脂肪酸含量有升高趋势(0.05<<0.1)。H组在粗蛋白消化率方面存在显著差异(=0.001),H1中的异戊酸含量较高(=0.002),H3中的乙酸与丙酸比值最低(=0.002)。宏基因组测序结果表明瘤胃微生物群模式与代谢变化之间存在一致性,S1与S2/S3/S4明显不同,H1和H2与H3和H4不同。三河牛和荷斯坦奶牛瘤胃微生物群的物种组成相似,但丰度存在差异。、和在S1、H1和H2中更为丰富,自噬-动物、植物-病原体相互作用和内吞作用等途径在这些胎次中显著富集。经产三河牛的ATP结合盒转运蛋白途径丰度较高。此外,诸如GH84和GH37等碳水化合物活性酶与差异生理指标和乳品质显著相关。总之,本研究揭示了不同胎次的三河牛和荷斯坦奶牛瘤胃微生物群与代谢特征之间的复杂关系,表明瘤胃微生物群结构的变化可能是影响奶牛泌乳性能和代谢差异的关键因素。
