Impact of early-life rearing history on gut microbiome succession and performance of Nile tilapia

Background Fish gut microbial colonisation starts during larval stage and plays an important role in host's growth and health. To what extent first colonisation could influence the gut microbiome succession and growth in later life remains unknown. In this study, Nile tilapia embryos were incubated in two different environments, a flow-through system (FTS) and a biofloc system (BFS); hatched larvae were subsequently cultured in the systems for 14 days of feeding (dof). Fish were then transferred to one common recirculating aquaculture system (RAS1, common garden, 15-62 dof), followed by a growth trial in another RAS (RAS2, growth trial, 63-105 dof). In RAS2, fish were fed with two types of diet, differing in non-starch polysaccharide content. Our aim was to test the effect of rearing environment on the gut microbiome development, nutrient digestibility and growth performance of Nile tilapia during post-larvae stages. Results Larvae cultured in the BFS showed better growth and different gut microbiome, compared to FTS. After the common garden, the gut microbiome still showed differences in species composition, while body weight was similar. Long-term effects of early life rearing history on fish gut microbiome composition, nutrient digestibility, nitrogen and energy balances were not observed. Still, BFS-reared fish had more gut microbial interactions than FTS-reared fish. A temporal effect was observed in gut microbiome succession during fish development, although a distinct number of core microbiome remained present throughout the experimental period. Conclusion Our results indicated that the legacy effect of first microbial colonisation of the fish gut gradually disappeared during host development, with no differences in gut microbiome composition and growth performance observed in later life after culture in a common environment. However, early life exposure of larvae to biofloc consistently increased the microbial interactions in the gut of juvenile Nile tilapia and might possibly benefit gut health.

Automated summary

The study investigated the impact of early microbial colonisation on the gut microbiome and growth of Nile tilapia. Results showed that larvae cultured in biofloc system (BFS) exhibited better growth and different gut microbiome compared to flow-through system (FTS). Despite initial differences, long-term effects on gut microbiome composition, nutrient digestibility, and growth performance in later life were not observed, indicating that the legacy effect gradually disappeared during host development. However, BFS-reared fish exhibited increased gut microbial interactions, potentially benefiting gut health in juvenile Nile tilapia.