Increasing buffering capacity enhances rumen fermentation characteristics and alters rumen microbiota composition of high-concentrate fed Hanwoo steers

Abstract

AbstractThe buffering capacity of buffer agents and their effects on in vitro and in vivo rumen fermentation characteristics, and bacterial composition of a high-concentrate fed Hanwoo steers were investigated in this study. Treatments were comprised of CON (no buffer added), BC0.3%(low buffering capacity, 0.3% buffer), BC0.5%(medium buffering capacity, 0.5% buffer), and BC0.9%(high buffering capacity, 0.9% buffer). Four Hanwoo steers in a 4 × 4 Latin square design were used for the in vivo trial to assess the effect of treatments. Results on in vitro experiment showed that buffering capacity, pH, and ammonia–nitrogen concentration (NH3-N) were significantly higher in BC0.9%and BC0.5%than the other treatments after 24 h incubation. Individual and total volatile fatty acids (VFA) concentration of CON were lowest compared to treatment groups. Meanwhile, in vivo experiment revealed that Bacteroidetes were dominant for all treatments followed by Firmicutes and Proteobacteria. The abundances ofBarnesiella intestinihominis, Treponema porcinum,andVibrio marisflaviwere relatively highest under BC0.9%,Ruminoccocus bromiiandSucciniclasticum ruminisunder BC0.5%, andBacteroides massiliensisunder BC0.3%.The normalized data of relative abundance of observed OTUs’ representative families have grouped the CON with BC0.3%in the same cluster, whereas BC0.5%and BC0.9%were clustered separately which indicates the effect of varying buffering capacity of buffer agents. Principal coordinate analysis (PCoA) on unweighted UniFrac distances revealed close similarity of bacterial community structures within and between treatments and control, in which BC0.9%and BC0.3%groups showed dispersed community distribution. Overall, increasing the buffering capacity by supplementation of BC0.5%and and BC0.9%buffer agents enhanced rumen fermentation characteristics and altered the rumen bacterial community, which could help prevent ruminal acidosis during a high-concentrate diet.