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Core microbiome profiles and their modification by environmental, biological, and rearing factors in aquaculture hatcheries

Babak Najafpour, Patrícia I.S. Pinto, Eric Climent, Juan F. Martínez‐Blanch, Adelino V. M. Canário, Katerina A. Moutou, Deborah M. Power

2023Marine Pollution Bulletin21 citationsDOIOpen Access PDF

Abstract

16S rRNA gene sequencing and bacteria- and genus-specific quantitative PCR was used to profile microbial communities and their associated functions in water, live feed (microalgae, Artemia, and rotifer), and European sea bass and gilthead sea bream larvae from hatcheries in Greece and Italy. The transfer to larvae of genus containing potential pathogens of fish was more likely with Artemia and rotifer than with microalgae or water, irrespective of geographic location. The presence of potentially pathogenic bacteria (Vibrio and Pseudoalteromonas) in the core microbiota of water, live feed, and fish larvae, the enrichment of different bacterial resistance pathways and biofilm formation, and the overall low beneficial bacteria load during larval ontogeny emphasizes the risk for disease outbreaks. The present data characterizing microbiota in commercial aquaculture hatcheries provides a baseline for the design of strategies to manage disease and to model or remediate potential adverse environmental impacts.

Topics & Concepts

BiologyAquacultureMicrobiomePseudoalteromonasVibrioSea bassIchthyoplanktonZoologyBacteriaRotiferLarvaEcologyFishery16S ribosomal RNAFish <Actinopterygii>GeneticsBioinformaticsAquaculture disease management and microbiotaVibrio bacteria research studiesIdentification and Quantification in Food
Core microbiome profiles and their modification by environmental, biological, and rearing factors in aquaculture hatcheries | Litcius