AIMS: To study the effect of the type of antibiotic used in medicated diets against pathogens and the feeding level on the microbial biodiversity in the rabbit caecum. METHODS AND RESULTS: Three groups of eight does were given a diet unsupplemented (NAB) or with 100 ppm of bacitracin (BAC) or tiamulin (TIA). Litter sizes of four does in each group were adjusted to five (LS5) or to nine (LS9), to manipulate their levels of feed intake. The feeding level strongly affected caecal microbiota in does fed on NAB and BAC diet, whereas the effect of the antibiotic was higher in TIA-supplemented animals, even prevailing over the effect of feeding level. Daily food intake and milk yield (P<0.05) and caecum weight (P<0.10) were higher in feeding of LS9 does. The total volatile fatty acid concentration was lower with BAC (P<0.05). CONCLUSIONS: The feeding level strongly affects caecal biodiversity in lactating does. The extent of the antibiotic effect depends on its nature, being significant with TIA but not with BAC. SIGNIFICANCE AND IMPACT OF THE STUDY: Changes in the feeding level promote different profiles of caecal microbiota. Therapeutic doses of TIA may affect caecal microbiota, whereas BAC would not reduce diversity.
AIMS: To study the effect of the type of antibiotic used in medicated diets against pathogens and the feeding level on the microbial biodiversity in the rabbit caecum. METHODS AND RESULTS: Three groups of eight does were given a diet unsupplemented (NAB) or with 100 ppm of bacitracin (BAC) or tiamulin (TIA). Litter sizes of four does in each group were adjusted to five (LS5) or to nine (LS9), to manipulate their levels of feed intake. The feeding level strongly affected caecal microbiota in does fed on NAB and BAC diet, whereas the effect of the antibiotic was higher in TIA-supplemented animals, even prevailing over the effect of feeding level. Daily food intake and milk yield (P<0.05) and caecum weight (P<0.10) were higher in feeding of LS9 does. The total volatile fatty acid concentration was lower with BAC (P<0.05). CONCLUSIONS: The feeding level strongly affects caecal biodiversity in lactating does. The extent of the antibiotic effect depends on its nature, being significant with TIA but not with BAC. SIGNIFICANCE AND IMPACT OF THE STUDY: Changes in the feeding level promote different profiles of caecal microbiota. Therapeutic doses of TIA may affect caecal microbiota, whereas BAC would not reduce diversity.
Authors: Xiao-Haitzi Daniel Puón-Peláez; Neil Ross McEwan; Roberto Carlos Álvarez-Martínez; Gerardo Mariscal-Landín; Gerardo Manuel Nava-Morales; Juan Mosqueda; Andrea Margarita Olvera-Ramírez Journal: Pathogens Date: 2022-05-12
Authors: María Velasco-Galilea; Miriam Guivernau; Miriam Piles; Marc Viñas; Oriol Rafel; Armand Sánchez; Yuliaxis Ramayo-Caldas; Olga González-Rodríguez; Juan P Sánchez Journal: Anim Microbiome Date: 2020-11-02
Authors: María Velasco-Galilea; Miriam Piles; Yuliaxis Ramayo-Caldas; Luis Varona; Juan Pablo Sánchez Journal: Genet Sel Evol Date: 2022-06-27 Impact factor: 5.100