Abstract
Ballan wrasse (Labrus bergylta, Ascanius 1767) are cleaner fish cultured in northern Europe to remove sea lice from farmed Atlantic salmon (Salmo salar, Linnaeus 1758). Despite increasing appreciation for the importance of the microbiota on the phenotypes of vertebrates including teleosts, the microbiota of wrasse eggs has yet to be described. Therefore, the aim of this present study was to describe the bacterial component of the microbiota of ballan wrasse eggs shortly after spawning and at 5 days, once the eggs had undergone a routine incubation protocol that included surface disinfection steps in a common holding tank. Triplicate egg samples were collected from each of three spawning tanks and analysis of 16S rRNA gene sequences revealed that 88.6% of reads could be identified to 186 taxonomic families. At Day 0, reads corresponding to members of the Vibrionaceae, Colwelliaceae and Rubritaleaceae families were detected at greatest relative abundances. Bacterial communities of eggs varied more greatly between tanks than between samples deriving from the same tank. At Day 5, there was a consistent reduction in 16S rRNA gene sequence richness across the tanks. Even though the eggs from the different tanks were incubated in a common holding tank, the bacterial communities of the eggs from the different tanks had diverged to become increasingly dissimilar. This suggests that the disinfection and incubation exerted differential effects of the microbiota of the eggs from each tank and that the influence of the tank water on the composition of the egg microbiota was lower than expected. This first comprehensive description of the ballan wrasse egg bacterial community is an initial step to understand the role and function of the microbiota on the phenotype of this fish. In future, mass DNA sequencing methods may be applied in hatcheries to screen for pathogens and as a tool to assess the health status of eggs.
Highlights
IntroductionEggs are exposed to broad-spectrum disinfectants, such as formalin and bronopol, in an effort to inactivate potential pathogens attached to or within the egg that may hinder or prevent development and hatching and may impact the health of larvae thereafter [6, 7]
The 16S ribosomal RNA (rRNA) libraries prepared from the ballan wrasse egg samples generated 14,571,037 paired-end reads (809,502 ± 94,024 per egg sample; mean ± standard deviation), excluding the 17,326 reads from the buffers-only control
The increasing appreciation for the beneficial properties conferred on vertebrates by the microbiota, including roles in development, health status, immunity, metabolic capability and nutrition [9, 10, 32], has led to studies that describe the microbiota of teleost fish species at different body sites and life stages [9, 32,33,34]
Summary
Eggs are exposed to broad-spectrum disinfectants, such as formalin and bronopol, in an effort to inactivate potential pathogens attached to or within the egg that may hinder or prevent development and hatching and may impact the health of larvae thereafter [6, 7]. Disinfection is effective for improving egg survival but indiscriminate and it likely alters the entire microbial community (i.e. microbiota) of the egg [8]. The ability to manipulate the microbiota may deliver early-life stage improvements in survival and development, as well as Bacterial Communities of Ballan Wrasse (Labrus bergylta) Eggs at a Commercial Marine Hatchery
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