Algae feed for oyster spat4/30/2023 Measurements of larval performance in Crassostrea gigas exposed to control and stressed algal cultures for 96 h. Our research demonstrated that metabarcoding can be effectively used to identify microbiota features associated with larval fitness.ġ6S rRNA gene sequencing Crassostrea gigas fitness larvae microalgae microbiome oyster hatchery.Ĭopyright © 2021 Vignier, Laroche, Rolton, Wadsworth, Kumanan, Trochel, Pochon and King. Several bacterial genera (e.g., Halomonas, Marinomonas) were strongly associated with impaired larval performance while the presence of genera in larvae including Vibrio was closely associated with overfeeding. These results suggest significant dysbiosis induced by compromised feed and/or increased feed ration. In larval tissue, bacterial richness was highest in stressed and high-feed treatments, and negatively correlated with larval fitness parameters. The rearing seawater showed the highest bacterial richness compared to the larval and the microalgal compartments, regardless of feeding regime. Bacterial profiling using 16S rRNA showed that most bacterial families characterized in larval tissue were also present in larval rearing seawater and in the microalgae feed (98%). The quantity of stressed algae supplied to oyster larvae also influenced overall larval performance, with high feeding rations generally causing greater impairment than low rations. 36% in control) and became spat (1.5% vs. Following the recovery period, fewer larvae reached pediveliger stage (2.7% vs. 20% in control), reduced feeding and swimming ability, and slowed development. Feeding stressed algae to oyster larvae for 96 h increased the occurrence of deformities (>70% vs. Bacterial communities associated with the microalgae feed, rearing seawater, and the oyster larvae, were characterized and correlated with effects on oyster fitness parameters. Biological endpoints of larval performance were measured following the 96 h exposure and subsequent recovery. Intentionally 'stressed' (high pH) or non-stressed microalgae were fed to 11 day-old oyster larvae at two feeding rations for 96 h, followed by a recovery period. This study assessed the effects of feeding compromised microalgae to developing oyster larvae. Outbreaks of bacterial infection via microalgal feed are frequently implicated in these mortalities. The Pacific oyster Crassostrea gigas is the world's most cultivated oyster and seed supply is heavily reliant on hatchery production where recurring mass mortality events are a major constraint.
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