Osman, Eslam O and Suggett, David J and Voolstra, Christian R and Pettay, D Tye and Clark, Dave R and Pogoreutz, Claudia and Sampayo, Eugenia M and Warner, Mark E and Smith, David J (2020) Coral microbiome composition along the northern Red Sea suggests high plasticity of bacterial and specificity of endosymbiotic dinoflagellate communities. Microbiome, 8 (1). 8-. DOI https://doi.org/10.1186/s40168-019-0776-5
Osman, Eslam O and Suggett, David J and Voolstra, Christian R and Pettay, D Tye and Clark, Dave R and Pogoreutz, Claudia and Sampayo, Eugenia M and Warner, Mark E and Smith, David J (2020) Coral microbiome composition along the northern Red Sea suggests high plasticity of bacterial and specificity of endosymbiotic dinoflagellate communities. Microbiome, 8 (1). 8-. DOI https://doi.org/10.1186/s40168-019-0776-5
Osman, Eslam O and Suggett, David J and Voolstra, Christian R and Pettay, D Tye and Clark, Dave R and Pogoreutz, Claudia and Sampayo, Eugenia M and Warner, Mark E and Smith, David J (2020) Coral microbiome composition along the northern Red Sea suggests high plasticity of bacterial and specificity of endosymbiotic dinoflagellate communities. Microbiome, 8 (1). 8-. DOI https://doi.org/10.1186/s40168-019-0776-5
Abstract
Background The capacity of reef-building corals to tolerate (or adapt to) heat stress is a key factor determining their resilience to future climate change. Changes in coral microbiome composition (particularly for microalgal endosymbionts and bacteria) is a potential mechanism that may assist corals to thrive in warm waters. The northern Red Sea experiences extreme temperatures anomalies, yet corals in this area rarely bleach suggesting possible refugia to climate change. However, the coral microbiome composition, and how it relates to the capacity to thrive in warm waters in this region, is entirely unknown. Results We investigated microbiomes for six coral species (Porites nodifera, Favia favus, Pocillopora damicornis, Seriatopora hystrix, Xenia umbellata, and Sarcophyton trocheliophorum) from five sites in the northern Red Sea spanning 4° of latitude and summer mean temperature ranges from 26.6 °C to 29.3 °C. A total of 19 distinct dinoflagellate endosymbionts were identified as belonging to three genera in the family Symbiodiniaceae (Symbiodinium, Cladocopium, and Durusdinium). Of these, 86% belonged to the genus Cladocopium, with notably five novel types (19%). The endosymbiont community showed a high degree of host-specificity despite the latitudinal gradient. In contrast, the diversity and composition of bacterial communities of the surface mucus layer (SML)—a compartment particularly sensitive to environmental change—varied significantly between sites, however for any given coral was species-specific. Conclusion The conserved endosymbiotic community suggests high physiological plasticity to support holobiont productivity across the different latitudinal regimes. Further, the presence of five novel algal endosymbionts suggests selection of certain genotypes (or genetic adaptation) within the semi-isolated Red Sea. In contrast, the dynamic composition of bacteria associated with the SML across sites may contribute to holobiont function and broaden the ecological niche. In doing so, SML bacterial communities may aid holobiont local acclimatization (or adaptation) by readily responding to changes in the host environment. Our study provides novel insight about the selective and endemic nature of coral microbiomes along the northern Red Sea refugia.
Item Type: | Article |
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Uncontrolled Keywords: | Microbial community; 16S rRNA gene profiling; Symbiodiniaceae; Coral acclimatization; Holobiont; Climate change; Future Oceans |
Divisions: | Faculty of Science and Health Faculty of Science and Health > Life Sciences, School of |
SWORD Depositor: | Unnamed user with email elements@essex.ac.uk |
Depositing User: | Unnamed user with email elements@essex.ac.uk |
Date Deposited: | 07 Feb 2020 13:17 |
Last Modified: | 30 Oct 2024 17:31 |
URI: | http://repository.essex.ac.uk/id/eprint/26635 |
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