AI Article Synopsis
- - The study investigates how seasonal changes in microbial communities affect the invasive ascidian species Styela plicata, which raises concerns about marine invasive species.
- - Researchers collected samples quarterly from gills, tunics, and surrounding water over two years, finding that compartment type and harbour location were key factors in microbial differences.
- - Seasonal patterns were mainly seen in seawater bacteria, with specific bacteria linked to adaptation and invasiveness, suggesting these microbes play a significant role in the survival of invasive species.
Article Abstract
The proliferation of marine invasive species is a mounting concern. While the role of microbial communities in invasive ascidian species is recognized, the role of seasonal shifts in microbiome composition remains largely unexplored. We sampled five individuals of the invasive ascidian Styela plicata quarterly from January 2020 to October 2021 in two harbours, examining gills, tunics, and surrounding water. By analysing Amplicon Sequence Variants (ASVs) and seawater trace elements, we found that compartment (seawater, tunic, or gills) was the primary differentiating factor, followed by harbour. Clear seasonal patterns were evident in seawater bacteria, less so in gills, and absent in tunics. We identified compartment-specific bacteria, as well as seasonal indicator ASVs and ASVs correlated with trace element concentrations. Among these bacteria, we found that Endozoicomonas, Hepatoplasma and Rhodobacteraceae species had reported functions which might be necessary for overcoming seasonality and trace element shifts. This study contributes to understanding microbiome dynamics in invasive holobiont systems, and the patterns found indicate a potential role in adaptation and invasiveness.
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| http://dx.doi.org/10.1016/j.marpolbul.2024.116477 | DOI Listing |
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