In vitro Inoculation of Fresh or Frozen Rumen Fluid Distinguishes Contrasting Microbial Communities and Fermentation Induced by Increasing Forage to Concentrate Ratio

In vitro dynamics of rumen microbiota and fermentation profiles with Antler growth of Sika deer

The rumen microbiota plays a vital role in the nutrient metabolism affecting the growth of velvet antler. However, the fermentation patterns and dynamics of the rumen microbiota across growth stages of velvet antler remain largely unexplored. Here, we employed an in vitro fermentation approach to assess fermentation parameters and microbial composition in the rumen liquid of sika deer during the early growth (EG), metaphase growth (MG), and fast growth (FG) phases . Our findings indicated that the levels of short-chain fatty acids (SCFAs), ammonia nitrogen, and gas production increased over fermentation time in all three groups. The concentrations of total SCFAs, ammonia nitrogen, and gas production, along with the proportions of butyrate, isobutyrate, and isovalerate, were markedly higher in the MG and FG groups compared with the EG group. Principal coordinate analysis highlighted significant variations in microbial communities among the EG, MG, and FG groups during the fermentation process. The abundances of Stomatobaculum and Blautia across the three groups increased over fermentation time, whereas Bacteroides, Lawsonibacter, Sporobacter, Papillibacter, Butyricicoccus, and Succiniclasticum exhibited higher abundances in MG or FG groups than in the EG group after 24 hours of fermentation. Co-occurrence network analysis uncovered positive correlations between butyrate levels and butyrate-producing bacteria (Stomatobaculum, Butyrivibrio) in the MG and FG groups. Additionally, there were positive correlations between proteolytic bacteria (Clostridium and Roseburia) and branched-chain volatile fatty acids in the FG group. These findings shed light on the fermentation patterns and microbial dynamics within the rumen of sika deer during different growth periods of velvet antler.IMPORTANCEVelvet antlers are distinctive and rapidly growing organs that hold significant value in traditional medicine. Through in vitro analysis, our study characterized the dynamics of microbiota and metabolites within the rumen liquid fermentation of sika deer throughout the different antler growth phase. We identified distinct microbial communities at various fermentation time points and observed shifts in fermentation patterns that paralleled antler development. These findings suggest a potentially pivotal role for these microbial dynamics in facilitating the growth process of velvet antlers.

Effects of Active Dry Yeast Supplementation in In Vitro and In Vivo Nutrient Digestibility, Rumen Fermentation, and Bacterial Community

This study assessed the impact of active dry yeast (ADY) on nutrient digestibility and rumen fermentation, using both in vitro and in vivo experiments with lambs. In vitro, ADYs were incubated with rumen fluid and a substrate mixture to assess gas production, pH, volatile fatty acid (VFA) profiles, and lactate concentration. In vivo, Hu lambs were randomly assigned to five dietary treatments: a control group and four groups receiving one of two dosages of either Vistacell or Procreatin7. Growth performance, nutrient digestibility, rumen fermentation parameters, and bacterial community composition were measured. Pro enhanced the propionate molar proportion while it decreased the n-butyrate molar proportion. Vis reduced the lactate concentration in vitro. In the in vivo experiment, Vis increased the propionate molar proportion and the Succinivibrionaceae_UCG-001 abundance while it decreased the n-butyrate molar proportion and the Lachnospiraceae_ND3007 abundance. Additionally, Vis showed a greater impact on improving the NDF digestibility and total VFA concentration in vivo compared to Pro. Overall, the effects of ADYs on rumen fermentation were found to vary depending on the specific ADY used, with Vis being the most suitable for lamb growth. It was observed that Vis promoted propionate fermentation and Succinivibrionaceae_UCG-001 abundance at the expense of reduced n-butyrate fermentation and Lachnospiraceae_ND3007 abundance. Importantly, differences were noted between the outcomes of the in vitro and in vivo experiments concerning the effects of ADYs on rumen fermentation, highlighting the need for caution when generalizing batch culture results to the in vivo effects of ADYs.