Rumen bacteria influence milk protein yield of yak grazing on the Qinghai-Tibet Plateau

• Published in: Animal bioscience Vol. 34; no. 9; pp. 1466 - 1478
• Main Authors: Fan, Qingshan, Wanapat, Metha, Hou, Fujiang
• Format: Journal Article
• Language: English
• Published: Korea (South) Asian - Australasian Association of Animal Production Societies 01.09.2021; Animal Bioscience; Asian-Australasian Association of Animal Production Societies; 아세아·태평양축산학회
• Subjects: 16s rna; Environmental aspects; Food and nutrition; Grazing; Microbiota (Symbiotic organisms); Milk production; milk protein yield; Physiological aspects; qinghai-tibet plateau; Rumen; rumen microbiota; yak; Yaks; 축산학; China; Function; Yak; 16S RNA; Qinghai-Tibet Plateau; Milk Protein Yield; Rumen Microbiota
• ISSN: 1011-2367; 2765-0189; 2765-0235; 2765-0235
• DOI: 10.5713/ab.20.0601

Ruminants are completely dependent on their microbiota for rumen fermentation, feed digestion, and consequently, their metabolism for productivity. This study aimed to evaluate the rumen bacteria of lactating yaks with different milk protein yields, using high-throughput sequencing technology, in order to understand the influence of these bacteria on milk production. Yaks with similar high milk protein yield (high milk yield and high milk protein content, HH; n = 12) and low milk protein yield (low milk yield and low milk protein content, LL; n = 12) were randomly selected from 57 mid-lactation yaks. Ruminal contents were collected using an oral stomach tube from the 24 yaks selected. High-throughput sequencing of bacterial 16S rRNA gene was used. Ruminal ammonia N, total volatile fatty acids, acetate, propionate, and isobutyrate concentrations were found to be higher in HH than LL yaks. Community richness (Chao 1 index) and diversity indices (Shannon index) of rumen microbiota were higher in LL than HH yaks. Relative abundances of the Bacteroidetes and Tenericutes phyla in the rumen fluid were significantly increased in HH than LL yaks, but significantly decreased for Firmicutes. Relative abundances of the Succiniclasticum, Butyrivibrio 2, Prevotella 1, and Prevotellaceae UCG-001 genera in the rumen fluid of HH yaks was significantly increased, but significantly decreased for Christensenellaceae R-7 group and Coprococcus 1. Principal coordinates analysis on unweighted UniFrac distances revealed that the bacterial community structure of rumen differed between yaks with high and low milk protein yields. Furthermore, rumen microbiota were functionally enriched in relation to transporters, ABC transporters, ribosome, and urine metabolism, and also significantly altered in HH and LL yaks. We observed significant differences in the composition, diversity, fermentation product concentrations, and function of ruminal microorganisms between yaks with high and low milk protein yields, suggesting the potential influence of rumen microbiota on milk protein yield in yaks. A deeper understanding of this process may allow future modulation of the rumen microbiome for improved agricultural yield through bacterial community design.