Tibetan Sheep Adapt to Plant Phenology in Alpine Meadows by Changing Rumen Microbial Community Structure and Function

The rumen microbiota is strongly associated with host health, nutrient absorption, and adaptability. However, the composition, functioning and adaptability of rumen microbiota in Tibetan sheep (TS) across different phenological periods are unclear. In this study we used sequencing of the V4-V5 regio...

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Veröffentlicht in:Frontiers in microbiology 2020-10, Vol.11, p.587558-587558
Hauptverfasser: Liu, Hongjin, Hu, Linyong, Han, Xueping, Zhao, Na, Xu, Tianwei, Ma, Li, Wang, Xungang, Zhang, Xiaoling, Kang, Shengping, Zhao, Xinquan, Xu, Shixiao
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Sprache:eng
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Zusammenfassung:The rumen microbiota is strongly associated with host health, nutrient absorption, and adaptability. However, the composition, functioning and adaptability of rumen microbiota in Tibetan sheep (TS) across different phenological periods are unclear. In this study we used sequencing of the V4-V5 region of 16S rRNA, qPCR technology and metagenomics to investigate the adaption of rumen microbiota to forage in different stages of phenology. In a grassy period, due to the high nutritional quality of the forage, TS can produce high concentrations of NH 3 -N and short fatty acids by increasing the content of key bacteria in the rumen, such as Bacteroidetes, Prevotella , Succiniclasticum , Treponema , Butyrivibrio fibrisolvens , Fibrobacter succinogenes , Prevotella ruminicola , Ruminococcus albus , and Ruminococcus flavefaciens to aid in growth. In the withering period, there was a positive correlation between microorganisms which indicated the closely cooperation between microorganisms, and metagenomic analysis showed that the high genes (GHs and CBMs) and subtribe (GH8, GH12, GH45, GH6, GH9, GH5, GH10, GH3, GH52, GH11, GH57, CBM1, CBM4, CBM6, CBM16, CBM37, CBM13, CBM35, CBM42, CBM32, and CBM62) that encode cellulolytic enzymes were significantly increased when the host faced low quantity and quality of forage. Genes involved in metabolic pathways, fatty acid biosynthesis and biosynthesis of antibiotics were significantly enriched, which indicated that rumen microbiota could improve plant biomass deconstruction and energy maintenance in the face of nutritional deficiencies. In the regreen period, both the composition and function of rumen microbiota had obvious disadvantages, therefore, to improve the competitiveness of microorganisms, we suggest TS should be supplemented with high-protein feed. This study is of great significance for exploring the high altitude adaptability of TS.
ISSN:1664-302X
1664-302X
DOI:10.3389/fmicb.2020.587558