Abstract
In this work, we identified the bacterial microbiota associated with farmed oystersin estuarine regions of four states in the north eastern region of Brazil. During the drought and rainy seasons, for eight months, twenty oysters were sampled seasonally from seven different marine farms. In the laboratory, DNA extraction, amplification, and sequencing of the 16S rRNA gene were performed to establish the taxonomic units. We identified 106 genera of bacteria belonging to 103 families, 70 orders, 39 classes, and 21 phyla. Out of the total, 40 of the genera represented bacteria potentially pathogenic to humans; of these, nine are known to cause foodborne diseases and six are potentially pathogenic to oysters. The most prevalent genera were Mycoplasma, Propionigenium, Psychrilyobacter, and Arcobacter. The results indicate the need for more systematic monitoring of bacteria of the genus Mycoplasma in oyster farming operations in the Brazilian north eastern region. Currently, Mycoplasma is not one of the microorganisms analysed and monitored by order of Brazilian legislation during the oyster production and/or commercialization process, even though this genus was the most prevalent at all sampling points and presents pathogenic potential both for oysters and for consumers.
Highlights
IntroductionIn addition to naturally inhabiting estuarine environments, are widely cultivated in these places where food is plentiful for its development (Dame 2012)
The close relationship between vital functions of bivalve molluscs and the environment in which they live makes these animals recognized as bioindicators for monitoring environmental quality, and their health can affect the food safety of consumers (Kim & Powell 2006).Oysters, in addition to naturally inhabiting estuarine environments, are widely cultivated in these places where food is plentiful for its development (Dame 2012)
This work aimed to identify and characterize the bacterial microbiota of oysters grown in estuarine regions of four states of north eastern Brazil using next-generation sequencing as an analytical tool
Summary
In addition to naturally inhabiting estuarine environments, are widely cultivated in these places where food is plentiful for its development (Dame 2012). The phytoplankton and microzooplankton organisms, dissolved organic and inorganic material, and microorganisms such as bacteria are retained in the gills (Kach & Ward 2008). Such a feeding mechanism causes the entire microbiota present in the oysters to be directly associated with the inhabited aquatic environment, and this microbiota varies according to environmental factors, such as salinity, bacterial load in water, temperature, feed, and anthropic activities and management during production (Prieur et al 1990).
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