Litcius/Paper detail

Modulation of rumen fermentation and microbial community through increasing dietary cation–anion difference in Chinese Holstein dairy cows under heat stress conditions

Wang Zuo, Yang Da-sheng, X.Y. Li, Ying Yu, L.Y. Yong, P.H. Zhang, Jianhua He, Weijun Shen, Fachun Wan, B.L. Feng, Zhiliang Tan, Shaoxun Tang

2020Journal of Applied Microbiology17 citationsDOI

Abstract

AIMS: The effect of increasing dietary cation-anion difference (DCAD) on rumen fermentation and ruminal microbial community in dairy cows under heat stress (HS) conditions were evaluated. METHODS AND RESULTS: -N, and VFA molar percentages were unaffected through increasing DCAD. Furthermore, the copy numbers of the cellulolytic bacteria Ruminococcus albus and Ruminococcus flavefaciens in rumen fluid significantly (P < 0·05) rose along with the increment of DCAD. Although the Alpha diversity indexes and the bacterial microbiota structure were unaffected, increasing DCAD significantly (P < 0·05) enriched the phylum Fibrobacteres and genus Fibrobacter in the microflora of rumen fluid, whilst the genera Flexilinea and Dubosiella were the most differentially abundant taxa in the control. CONCLUSIONS: Increasing DCAD under HS conditions resulted in a greater concentration of total VFA without affecting rumen bacteria diversity or structure, although the enrichment of some cellulolytic/hemicellulolytic bacteria was observed. SIGNIFICANCE AND IMPACT OF THE STUDY: The present study provides information on the modulation of rumen fermentation and microbial community through the increment of DCAD in Holstein dairy cows under HS conditions.

Topics & Concepts

RumenFibrobacter succinogenesAnimal scienceFermentationBiologyRuminococcusDairy cattleTotal mixed rationBacteriaFood scienceLactationIce calvingGeneticsPregnancyRuminant Nutrition and Digestive PhysiologyEffects of Environmental Stressors on LivestockReproductive Physiology in Livestock