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Host and Water Microbiota Are Differentially Linked to Potential Human Pathogen Accumulation in Oysters

Rachel E. Diner, Amy Zimmer‐Faust, Emily Cooksey, Sarah M. Allard, Sho M. Kodera, Emily Kunselman, Yash Garodia, Marc P. Verhougstraete, Andrew E. Allen, John F. Griffith, Jack A. Gilbert

2023Applied and Environmental Microbiology26 citationsDOIOpen Access PDF

Abstract

Bacteria in the marine environment cause thousands of human illnesses annually. Bivalves are a popular seafood source and are important in coastal ecology, but their ability to concentrate pathogens from the water can cause human illness, threatening seafood safety and security. To predict and prevent disease, it is critical to understand what causes pathogenic bacteria to accumulate in bivalves. In this study, we examined how environmental factors and host and water microbial communities were linked to potential human pathogen accumulation in oysters. Oyster microbial communities were more stable than water communities, and both contained the highest concentrations of Vibrio parahaemolyticus at sites with warmer temperatures and lower salinities. High oyster V. parahaemolyticus concentrations corresponded with abundant cyanobacteria, a potential vector for transmission, and a decrease in potentially beneficial oyster microbes. Our study suggests that poorly understood factors, including host and water microbiota, likely play a role in pathogen distribution and pathogen transmission.

Topics & Concepts

BiologyPathogenMicrobiologyHost (biology)BacteriaHuman pathogenShellfishEcologyAquatic animalGeneticsFish <Actinopterygii>FisheryVibrio bacteria research studiesMarine Bivalve and Aquaculture StudiesGut microbiota and health