The identification of specific bacterial species influenced by mannan oligosaccharide (MOS) supplementation may assist in the formulation of new and improved diets that promote intestinal health and improve bird performance, offering suitable alternatives to antimicrobials in feed for sustainable poultry production. This study has been conducted to evaluate the use of a MOS compound derived from the yeast cell wall of Saccharomyces cerevisiae on turkey performance, bacterial community structure and their phylogenetic associations. A 42-day turkey trial was carried out on birds fed control and MOS-supplemented diets. Bird performance data (weight gains, feed consumption and feed efficiency ratios) were collected, and caecal contents were extracted from randomly caught poults on days 28, 35 and 42 posthatch. Bird performance data showed no improvements as a result of dietary supplementation. Automated ribosomal intergenic spacer analysis (ARISA) revealed the bacterial community structure to be significantly altered on days 28 and 35 posthatch but not day 42 as a result of dietary supplementation. This technique was coupled with 16S rRNA gene sequence analysis to elucidate phylogenetic identities of bacteria. The dominant bacteria of the caecum on all days in both treatment groups were members of phylum Firmicutes, followed by the Bacteroidetes and Proteobacteria phyla, respectively. Statistical analysis of the 16S rRNA gene libraries showed that the composition of the MOS clone library differed significantly to the control on day 35 posthatch. It can be concluded that MOS alters the bacterial community structure in the turkey caecum.