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Si us plau utilitzeu sempre aquest identificador per citar o enllaçar aquest document: https://hdl.handle.net/2445/217739
Metagenomic Exploration of the Effects of Depth and Temperature on the Microbiome Structure and Function of the Gorgonian Eunicella Singularis and the Cold Water Scleractinia Desmophyllum pertusum
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[eng] Corals are crucial to marine ecosystems, offering varied habitats for microbial communities
that, in return, provide essential compounds for coral health and resilience. Numerous factors,
such as coral age, species, health, and environmental conditions like depth and temperature,
influence the structure and function of the coral microbiome. Disruptions in the coral-microbe
relationship can lead to infections, bleaching, and increased coral mortality. Understanding
these influences on the microbiome is vital for deciphering coral-microbe interactions. This
thesis explores the coral microbiome concerning depth and temperature variations using highthroughput
meta-omics approaches.
Our analysis of the influence of depth on the Mediterranean coral Eunicella singularis
revealed significant taxonomic and functional differences between shallow and mesophotic
zones. Shallow water colonies prominently featured Symbiodinium, essential for
photosynthesis, while its absence in mesophotic zones indicated a shift in microbial community
composition. In mesophotic water colonies, the microbiome exhibited higher abundances of
genes related to carbohydrate, energy, amino acid, cofactor, and vitamin metabolism,
suggesting adaptation to diverse nutrient sources and enhanced nutrient availability.
Metagenome-assembled genomes (MAGs) analysis identified key taxa, such as DT-91 (Order
Pseudomonadales) and Endozoicomonas, involved in nutrient recycling and vitamin
production, underscoring their role in maintaining microbiome fitness and coral resilience.
Further research is needed to determine the active expression of these genes and their impact
on coral health.
Additionally, our study on the cold-water coral D. pertusum under prolonged thermal
stress revealed significant changes in the microbiome's taxonomic and functional structure.
Elevated temperatures correlated with an increase in microbial taxa such as Rhodobacterales
and genes associated with carbon metabolism and secretion systems, potentially destabilizing
the microbiome and promoting the growth of opportunistic pathogens. Furthermore, we
observed a rise in genes related to diazotrophic activity, including denitrification and
nitrification, which could disrupt nitrogen cycle balance and heighten disease susceptibility.
These findings highlight the importance of environmental factors in shaping coral microbiomes
and emphasize the need for further research on gene expression profiles to better understand
microbial activity and regulation under stress conditions. Such understanding is crucial for
developing strategies to enhance coral resilience in changing environments.
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MUTLAQ S. BINSARHA, Mohammad. Metagenomic Exploration of the Effects of Depth and Temperature on the Microbiome Structure and Function of the Gorgonian Eunicella Singularis and the Cold Water Scleractinia Desmophyllum pertusum. [consulta: 3 de desembre de 2025]. [Disponible a: https://hdl.handle.net/2445/217739]