Abstract
This study aimed to provide novel insights into the gastrointestinal microbial diversity from different gastrointestinal locations in weaning piglets using PCR-restriction fragment length polymorphism (PCR-RFLP). Additionally, the effect of different feed additives was analyzed. Thirty-two piglets were fed with four different diets: a control group and three enriched diets, with avilamycin, sodium butyrate, and a plant extract mixture. Digesta samples were collected from eight different gastrointestinal segments of each animal and the bacterial population was analysed by a PCR-RFLP technique that uses 16S rDNA gene sequences. Bacterial diversity was assessed by calculating the number of bands and the Shannon-Weaver index. Dendrograms were constructed to estimate the similarity of bacterial populations. A higher bacterial diversity was detected in large intestine compared to small intestine. Among diets, the most relevant microbial diversity differences were found between sodium butyrate and plant extract mixture. Proximal jejunum, ileum, and proximal colon were identified as those segments that could be representative of microbial diversity in pig gut. Results indicate that PCR-RFLP technique allowed detecting modifications on the gastrointestinal microbial ecology in pigs fed with different additives, such as increased biodiversity by sodium butyrate in feed.
Highlights
The weaning period is one of the most critical stages in the life cycle of pigs
The use of the PCR-Restriction Fragment Length Polymorphism (RFLP) technique permits a broader view of the composition of a complex bacterial ecosystem, such as the gastrointestinal tract of animals
Apart from the ecological analysis of the microbiota throughout the gastrointestinal tract, this study describes the effect of the incorporation of avilamycin, sodium
Summary
The weaning period is one of the most critical stages in the life cycle of pigs This is due to the fact that, in this short period of time, the animal is yielding to many changes, such as social, environmental, and dietary changes. A better knowledge of the gastrointestinal bacterial composition would help to find new feed strategies to avoid pathologic infections and keep pigs healthier. This necessity to deepen in the knowledge of the ecosystem of the digestive tract has coincided with the appearance and implementation of molecular techniques in different fields of science and in the microbiology that allows to have a much wider vision of these complex systems
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