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Sci Rep


Title:Supplementation of live yeast based feed additive in early life promotes rumen microbial colonization and fibrolytic potential in lambs
Author(s):Chaucheyras-Durand F; Ameilbonne A; Auffret P; Bernard M; Mialon MM; Duniere L; Forano E;
Address:"Lallemand SAS, 31702, Blagnac, France. frederique.durand@inra.fr. Universite Clermont Auvergne, INRA, UMR 454 MEDIS, F-63000, Clermont-Ferrand, France. frederique.durand@inra.fr. Lallemand SAS, 31702, Blagnac, France. Universite Clermont Auvergne, INRA, UMR 454 MEDIS, F-63000, Clermont-Ferrand, France. Ifremer, UMR, 241 EIO, Tahiti, French Polynesia. UE 1414 Herbipole, INRA Auvergne Rhone Alpes, F-63122, Saint-Genes Champanelle, France. Universite Clermont Auvergne, INRA, VetAgro Sup, UMR 1213 Herbivores, F-63000, Clermont-Ferrand, France"
Journal Title:Sci Rep
Year:2019
Volume:20191216
Issue:1
Page Number:19216 -
DOI: 10.1038/s41598-019-55825-0
ISSN/ISBN:2045-2322 (Electronic) 2045-2322 (Linking)
Abstract:"Rumen microbiota is of paramount importance for ruminant digestion efficiency as the microbial fermentations supply the host animal with essential sources of energy and nitrogen. Early separation of newborns from the dam and distribution of artificial milk (Artificial Milking System or AMS) could impair rumen microbial colonization, which would not only affect rumen function but also have possible negative effects on hindgut homeostasis, and impact animal health and performance. In this study, we monitored microbial communities in the rumen and the feces of 16 lambs separated from their dams from 12 h of age and artificially fed with milk replacer and starter feed from d8, in absence or presence of a combination of the live yeast Saccharomyces cerevisiae CNCM I-1077 and selected yeast metabolites. Microbial groups and targeted bacterial species were quantified by qPCR and microbial diversity and composition were assessed by 16S rDNA amplicon sequencing in samples collected from birth to 2 months of age. The fibrolytic potential of the rumen microbiota was analyzed with a DNA microarray targeting genes coding for 8 glycoside hydrolase (GH) families. In Control lambs, poor establishment of fibrolytic communities was observed. Microbial composition shifted as the lambs aged. The live yeast supplement induced significant changes in relative abundances of a few bacterial OTUs across time in the rumen samples, among which some involved in crucial rumen function, and favored establishment of Trichostomatia and Neocallimastigaceae eukaryotic families. The supplemented lambs also harbored greater abundances in Fibrobacter succinogenes after weaning. Microarray data indicated that key cellulase and hemicellulase encoding-genes were present from early age in the rumen and that in the Supplemented lambs, a greater proportion of hemicellulase genes was present. Moreover, a higher proportion of GH genes from ciliate protozoa and fungi was found in the rumen of those animals. This yeast combination improved microbial colonization in the maturing rumen, with a potentially more specialized ecosystem towards efficient fiber degradation, which suggests a possible positive impact on lamb gut development and digestive efficiency"
Keywords:Animal Feed Animal Nutritional Physiological Phenomena/physiology Animals Bacteria Diet/methods Dietary Fiber/*microbiology Dietary Supplements/*microbiology Fibrobacter/physiology Fungi/physiology Microbiota/physiology Rumen/*microbiology Saccharomyces c;Animals;
Notes:"MedlineChaucheyras-Durand, Frederique Ameilbonne, Aurelie Auffret, Pauline Bernard, Mickael Mialon, Marie-Madeleine Duniere, Lysiane Forano, Evelyne eng Research Support, Non-U.S. Gov't England 2019/12/18 Sci Rep. 2019 Dec 16; 9(1):19216. doi: 10.1038/s41598-019-55825-0"

 
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