Fishing for the Microbiome of Tropical Tuna

• Published in: Microbial ecology Vol. 86; no. 1; pp. 742 - 755
• Main Authors: Gadoin, Elsa, Desnues, Christelle, d’Orbcastel, Emmanuelle Roque, Bouvier, Thierry, Auguet, Jean-Christophe, Dagorn, Laurent, Moroh, Jean-Luc, Adingra, Antoinette, Bettarel, Yvan
• Format: Journal Article
• Language: English
• Published: New York Springer US 01.07.2023; Springer Nature B.V; Springer Verlag
• Subjects: Animals; Bacteria; Bacteria - genetics; Biodiversity and Ecology; Biomedical and Life Sciences; Body organs; Composition; Consumption; Ecology; Environmental Sciences; Fish; Fish poisoning; Fish skin; Fishing; Genera; Geoecology/Natural Processes; Global Changes; Harbors; Histamine; Host Microbe Interactions; Hunting; ISO standards; Life Sciences; Liver; Microbial Ecology; Microbiology; Microbiomes; Microbiota; Microorganisms; Mucus; Nature Conservation; Oceans; Pathogenicity; Pathogens; Poisoning; Sex; Species diversity; Tuna; Tuna - microbiology; Water Quality/Water Pollution; Histamine; Bacteria; Tuna; Liver; Microbiome
• ISSN: 0095-3628; 1432-184X
• DOI: 10.1007/s00248-022-02096-4

Although tunas represent a significant part of the global fish economy and a major nutritional resource worldwide, their microbiome still remains poorly documented. Here, we conducted an analysis of the taxonomic composition of the bacterial communities inhabiting the gut, skin, and liver of two most consumed tropical tuna species (skipjack and yellowfin), from individuals caught in the Atlantic and Indian oceans. We hypothesized that each organ harbors a specific microbial assemblage whose composition might vary according to different biotic (sex, species) and/or abiotic (environmental) factors. Our results revealed that the composition of the tuna microbiome was totally independent of fish sex, regardless of the species and ocean considered. Instead, the main determinants of observed diversity were (i) tuna species for the gut and (ii) sampling site for the skin mucus layer and (iii) a combination of both parameters for the liver. Interestingly, 4.5% of all amplicon sequence variants (ASV) were shared by the three organs, highlighting the presence of a core-microbiota whose most abundant representatives belonged to the genera Mycoplasma , Cutibacterium , and Photobacterium . Our study also revealed the presence of a unique and diversified bacterial assemblage within the tuna liver, comprising a substantial proportion of potential histamine-producing bacteria, well known for their pathogenicity and their contribution to fish poisoning cases. These results indicate that this organ is an unexplored microbial niche whose role in the health of both the host and consumers remains to be elucidated.