Background:Digestive disorders in weaning pigs remain a major challenge for swine producers.Different types of commercial feed additives have been developed to promote gut health and development in young pigs,but thei...Background:Digestive disorders in weaning pigs remain a major challenge for swine producers.Different types of commercial feed additives have been developed to promote gut health and development in young pigs,but their effects on resident gut microbial communities remain largely unexplored.The aim of this study was to investigate the impact of a peptide-based product(Peptiva)in combination with mannose oligosaccharides(MOS)and an exogenous protease on the performance and fecal microbiome of nursery pigs.Methods:A total of 1097 weaned pigs were divided into 44 pens(24-26 pigs/pen)with each pen randomly assigned to one of four experimental diets as part of Phase Ⅱ and Phase Ⅲ of a standard nursery phase feeding program.Fecal samples collected from representative control and treatment pigs were used to investigate bacterial composition profiles by high throughput sequencing of PCR-generated amplicons targeting the V1-V3 region of the 16S rRNA gene.Results:Higher gain:feed was observed for pigs fed Peptiva and MOS compared to Controls during the period when experimental diets were fed,but the benefits of supplementation were not maintained after pigs were transitioned to a non-supplemented diet.Three candidate bacterial species,identified as Operational Taxonomic Units(OTUs),were found to have significantly different abundances between control samples and treatment samples during the same phase.In Phase Ⅲ samples,SD_Ssd-00039,predicted to be a strain of Streptococcus alactolyticus based on nucleotide sequence identity,was the most highly represented of these OTUs with an average abundance in pigs fed Peptiva,MOS and protease that was 3.9 times higher than in Controls.The report also presents evidence of microbial succession that occurred during the trial,with 16 of the 32 most abundant OTUs found to vary between Phase Ⅱ and Phase Ⅲ samples for the same dietary treatment.Conclusions:Dietary supplementation with a combination of a peptide-based product,MOS,and protease increased the growth performance of weaned pigs compared to control animals during the nursery phase,but these benefits were no longer observed within 2 weeks after all animals were transitioned to a non-supplemented diet.Supplementation with these feed additives was found to modulate the composition of the swine gut microbiome during this period.展开更多
基金Funding was provided by Vitech Bio-Chem Corporation (Glendale, CA, USA)by the South Dakota State University Agricultural Experiment Station。
文摘Background:Digestive disorders in weaning pigs remain a major challenge for swine producers.Different types of commercial feed additives have been developed to promote gut health and development in young pigs,but their effects on resident gut microbial communities remain largely unexplored.The aim of this study was to investigate the impact of a peptide-based product(Peptiva)in combination with mannose oligosaccharides(MOS)and an exogenous protease on the performance and fecal microbiome of nursery pigs.Methods:A total of 1097 weaned pigs were divided into 44 pens(24-26 pigs/pen)with each pen randomly assigned to one of four experimental diets as part of Phase Ⅱ and Phase Ⅲ of a standard nursery phase feeding program.Fecal samples collected from representative control and treatment pigs were used to investigate bacterial composition profiles by high throughput sequencing of PCR-generated amplicons targeting the V1-V3 region of the 16S rRNA gene.Results:Higher gain:feed was observed for pigs fed Peptiva and MOS compared to Controls during the period when experimental diets were fed,but the benefits of supplementation were not maintained after pigs were transitioned to a non-supplemented diet.Three candidate bacterial species,identified as Operational Taxonomic Units(OTUs),were found to have significantly different abundances between control samples and treatment samples during the same phase.In Phase Ⅲ samples,SD_Ssd-00039,predicted to be a strain of Streptococcus alactolyticus based on nucleotide sequence identity,was the most highly represented of these OTUs with an average abundance in pigs fed Peptiva,MOS and protease that was 3.9 times higher than in Controls.The report also presents evidence of microbial succession that occurred during the trial,with 16 of the 32 most abundant OTUs found to vary between Phase Ⅱ and Phase Ⅲ samples for the same dietary treatment.Conclusions:Dietary supplementation with a combination of a peptide-based product,MOS,and protease increased the growth performance of weaned pigs compared to control animals during the nursery phase,but these benefits were no longer observed within 2 weeks after all animals were transitioned to a non-supplemented diet.Supplementation with these feed additives was found to modulate the composition of the swine gut microbiome during this period.