Temporal dynamics of the fecal microbiome in female pigs from early life through estrus, parturition, and weaning of the first litter of piglets
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Published:2024-02-21
Issue:1
Volume:6
Page:
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ISSN:2524-4671
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Container-title:Animal Microbiome
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language:en
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Short-container-title:anim microbiome
Author:
Gaire Tara N.,Scott H. Morgan,Noyes Noelle R.,Ericsson Aaron C.,Tokach Michael D.,William Hayden,Menegat Mariana B.,Vinasco Javier,Nagaraja T. G.,Volkova Victoriya V.
Abstract
Abstract
Background
Age-associated changes in the gastrointestinal microbiome of young pigs have been robustly described; however, the temporal dynamics of the fecal microbiome of the female pig from early life to first parity are not well understood. Our objective was to describe microbiome and antimicrobial resistance dynamics of the fecal microbiome of breeding sows from early life through estrus, parturition and weaning of the first litter of piglets (i.e., from 3 to 53 weeks of age).
Results
Our analysis revealed that fecal bacterial populations in developing gilts undergo changes consistent with major maturation milestones. As the pigs progressed towards first estrus, the fecal bacteriome shifted from Rikenellaceae RC9 gut group- and UCG-002-dominated enterotypes to Treponema- and Clostridium sensu stricto 1-dominated enterotypes. After first estrus, the fecal bacteriome stabilized, with minimal changes in enterotype transition and associated microbial diversity from estrus to parturition and subsequent weaning of first litter piglets. Unlike bacterial communities, fecal fungal communities exhibited low diversity with high inter- and intra-pig variability and an increased relative abundance of certain taxa at parturition, including Candida spp. Counts of resistant fecal bacteria also fluctuated over time, and were highest in early life and subsequently abated as the pigs progressed to adulthood.
Conclusions
This study provides insights into how the fecal microbial community and antimicrobial resistance in female pigs change from three weeks of age throughout their first breeding lifetime. The fecal bacteriome enterotypes and diversity are found to be age-driven and established by the time of first estrus, with minimal changes observed during subsequent physiological stages, such as parturition and lactation, when compared to the earlier age-related shifts. The use of pigs as a model for humans is well-established, however, further studies are needed to understand how our results compare to the human microbiome dynamics. Our findings suggest that the fecal microbiome exhibited consistent changes across individual pigs and became more diverse with age, which is a beneficial characteristic for an animal model system.
Publisher
Springer Science and Business Media LLC
Reference60 articles.
1. Koren O, Goodrich JK, Cullender TC, Spor A, Laitinen K, Bäckhed HK, Gonzalez A, Werner JJ, Angenent LT, Knight R, et al. Host remodeling of the gut microbiome and metabolic changes during pregnancy. Cell. 2012;150(3):470–80. 2. Korpela K, Renko M, Vänni P, Paalanne N, Salo J, Tejesvi MV, Koivusaari P, Ojaniemi M, Pokka T, Kaukola T, et al. Microbiome of the first stool and overweight at age 3 years: a prospective cohort study. Pediatr Obes. 2020;15(11):e12680. 3. Gomez de Agüero M, Ganal-Vonarburg SC, Fuhrer T, Rupp S, Uchimura Y, Li H, Steinert A, Heikenwalder M, Hapfelmeier S, Sauer U, et al. The maternal microbiota drives early postnatal innate immune development. Science. 2016;351(6279):1296–302. 4. Olm MR, Dahan D, Carter MM, Merrill BD, Yu FB, Jain S, Meng X, Tripathi S, Wastyk H, Neff N, et al. Robust variation in infant gut microbiome assembly across a spectrum of lifestyles. Science. 2022;376(6598):1220–3. 5. Saladrigas-García M, Durán M, D’Angelo M, Coma J, Pérez JF, Martín-Orúe SM. An insight into the commercial piglet’s microbial gut colonization: from birth towards weaning. Animal Microbiome. 2022;4(1):68.
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