Intestinal microbiota modulation and improved growth in pigs with post-weaning antibiotic and ZnO supplementation but only subtle microbiota effects with Bacillus altitudinis

Daniel Crespo-Piazuelo,Paul Cormican,Meike A Bouwhuis,Alan Marsh,Fiona Crispie,Gillian E Gardiner,Ruth Rattigan,Samir Ranjitkar,Peadar G Lawlor,Carmen Villodre

doi:10.1038/s41598-021-01826-x

Abstract

The objective was to evaluate the effect of dietary Bacillus altitudinis spore supplementation during day (D)0–28 post-weaning (PW) and/or D29–56 PW compared with antibiotic and zinc oxide (AB + ZnO) supplementation on pig growth and gut microbiota. Eighty piglets were selected at weaning and randomly assigned to one of five dietary treatments: (1) negative control (Con/Con); (2) probiotic spores from D29–56 PW (Con/Pro); (3) probiotic spores from D0–28 PW (Pro/Con); (4) probiotic spores from D0–56 PW (Pro/Pro) and (5) AB + ZnO from D0–28 PW. Overall, compared with the AB + ZnO group, the Pro/Con group had lower body weight, average daily gain and feed intake and the Pro/Pro group tended to have lower daily gain and feed intake. However, none of these parameters differed between any of the probiotic-treated groups and the Con/Con group. Overall, AB + ZnO-supplemented pigs had higher Bacteroidaceae and Prevotellaceae and lower Lactobacillaceae and Spirochaetaceae abundance compared to the Con/Con group, which may help to explain improvements in growth between D15–28 PW. The butyrate-producing genera Agathobacter, Faecalibacterium and Roseburia were more abundant in the Pro/Con group compared with the Con/Con group on D35 PW. Thus, whilst supplementation with B. altitudinis did not enhance pig growth performance, it did have a subtle, albeit potentially beneficial, impact on the intestinal microbiota.

Highlights

The objective was to evaluate the effect of dietary Bacillus altitudinis spore supplementation during day (D)[0–28] post-weaning (PW) and/or D29–56 PW compared with antibiotic and zinc oxide (AB + ZnO) supplementation on pig growth and gut microbiota
The AB + ZnO group had higher BW compared with the Pro/control diet (Con) group (P < 0.05), higher average daily gain (ADG) compared with the Pro/Con and probiotic spores from D0–56 PW (Pro/Pro) groups (P < 0.01 and P < 0.10, respectively) and higher average daily feed intake (ADFI) than the Pro/Con and Pro/Pro groups (P < 0.05 and P < 0.10, respectively)
The ADFI of the AB + ZnO group tended to be higher than that of the Pro/Con group from D0–14 (P < 0.10) and was higher compared with the Pro/Con and the Pro/Pro groups on D15–28 (P < 0.01 and P < 0.05, respectively)

Summary

Introduction

The objective was to evaluate the effect of dietary Bacillus altitudinis spore supplementation during day (D)[0–28] post-weaning (PW) and/or D29–56 PW compared with antibiotic and zinc oxide (AB + ZnO) supplementation on pig growth and gut microbiota. Endospore forming bacteria such as Bacillus spp. have certain advantages over lactic acid bacteria, since bacterial spores can survive extreme environmental conditions, including the gastric acid and bile encountered during gastrointestinal transit[4,5] Their resistance to extreme conditions makes the spores more suitable for technological processes performed at high temperature and pressure, such as drying and feed p elleting[6], and confers a long shelf-life[7], which is an important attribute for a feed additive. Only selected gut bacterial groups were enumerated using culture-based analysis and the strain was fed for only the first 22 days PW

Objectives

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Discussion

Conclusion