Community assembly of gut microbiomes in yolk sac fry of Atlantic salmon: host genetics, environmental microbiomes, and ecological processes.

In this study, we investigated the influence of host genetics and environmental microbiomes on the early gut microbiome of Atlantic salmon. We aimed at rearing the fish in either r- or K-selected environments, where the r-selected environment would be expected to be dominated by fast-growing opportunistic bacteria and thus represent more detrimental microbial environment than the K-selected water. Eggs from both wild and aquaculture strains of Atlantic salmon were hatched under germ-free conditions. One week after hatching, rearing flasks were inoculated with either r- or K-selected water communities. Three weeks after hatching, no effect of host strain on the gut microbiomes were observed. r-selection was found to take place in the rearing water of all flasks, including in the flasks added K-selected water. Still, the water microbiomes differed significantly between the flasks that had been added r- and K-selected water (Add-r and Add-K flasks, respectively). Lower alpha diversity and higher abundances of Pseudomonas were observed for the Add-K flasks, indicating a potential unfavorable microbial environment. Selection in the host structured the gut microbiomes, but an extensive interindividual variation was explained by stochastic processes in community assembly. The gut microbiomes also differed significantly between the Add-r and Add-K flasks. In Add-K flasks, they had higher similarities to the rearing water microbiomes, and the assembly of gut communities was less influenced by stochastic processes. The fish in Add-K flasks had lower growth rates than in Add-r flasks, probably as a result of negative host-microbe interactions. These findings highlight the importance of, but also the challenges related to, managing the microbial environment when cultivating fish.