Abstract
Coral reef ecosystems are impacted by climate change and human activities, such as increasing coastal development, overfishing, sewage and other pollutant discharge, and consequent eutrophication, which triggers increasing incidents of diseases and deterioration of corals worldwide. In this study, bacterial communities associated with four species of corals: Acropora aspera, Acropora formosa, Cyphastrea sp., and Isopora sp. in the healthy and disease stages with different diseases were compared using tagged 16S rRNA sequencing. In total, 59 bacterial phyla, 190 orders, and 307 genera were assigned in coral metagenomes where Proteobacteria and Firmicutes were pre-dominated followed by Bacteroidetes together with Actinobacteria, Fusobacteria, and Lentisphaerae as minor taxa. Principal Coordinates Analysis (PCoA) showed separated clustering of bacterial diversity in healthy and infected groups for individual coral species. Fusibacter was found as the major bacterial genus across all corals. The lower number of Fusibacter was found in A. aspera infected with white band disease and Isopora sp. with white plaque disease, but marked increases of Vibrio and Acrobacter, respectively, were observed. This was in contrast to A. formosa infected by a black band and Cyphastrea sp. infected by yellow blotch diseases which showed an increasing abundance of Fusibacter but a decrease in WH1-8 bacteria. Overall, infection was shown to result in disturbance in the complexity and structure of the associated bacterial microbiomes which can be relevant to the pathogenicity of the microbes associated with infected corals.
Highlights
Coral reefs contain important ecological space harboring a diversity of marine organisms and represents the core element of the complex marine ecosystem
A. aspera infected by white band disease (A. aspera-WBD) showed symptom with the appearance of the white band between healthy and dead coral tissues
Isopora sp. infected by white plaque disease (Isopora sp.-WPD) showed progressing band of bleached coral tissue followed by necrotic tissue starting from the base of the branch
Summary
Coral reefs contain important ecological space harboring a diversity of marine organisms and represents the core element of the complex marine ecosystem. From a scientific point of view, corals are considered a rich source of unique and unexplored biosynthetic products (Radjasa et al, 2011) In this ecosystem, diverse symbioses exist with complex interactive dependences between corals and associated communities of eukaryotic and prokaryotic microorganisms (Blackall, Wilson & Van Oppen, 2015). Dinoflagellate endosymbionts, Symbiodiniaceae (LaJeunesse et al, 2018)utilizes light energy (Brodersen et al, 2014) and secrete fixed carbon to the coral host (Burriesci, Raab & Pringle, 2012). This symbiosis creates a highly complex and unique ecosystem
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