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Article Abstract
Microorganisms colonizing grapevines possess diverse functional capabilities that influence the health, growth, productivity and, consequently, wine quality. In this study, spatial and temporal dynamics of the microbiome of Vitis vinifera cv. Barbera grapevine were determined by shotgun sequencing. Bacterial and fungal populations and functions were monitored in samples of rhizosphere, leaves, and grapes, collected at different stages from fruit development to harvest in a conventionally managed vineyard. A compartmental specificity of diverse species was observed within both bacterial and fungal communities. A core microbiome was also identified. LEfSe analysis revealed significantly discriminant taxa associated with each plant compartment, but not according to the sampling time. KEGG genes associated with carbohydrate metabolism were the most abundant in all samples, followed by genes related to amino acid metabolism, respectively involved in carbon and nitrogen metabolic pathways. Interestingly, differences were observed in the functions of rhizosphere and phyllosphere communities with additional differences observed between functions of bacterial and fungal communities. Pathways involved in critical functions like nutrient acquisition, stress resistance, metabolic flexibility, and interaction with the grapevine, were detected within the microbiome. The findings of this study unravel ecological and functional characteristics of the Barbera microbiome. This fundamental understanding is a prerequisite for the development of tailored strategies to protect vineyards and promote sustainability in grapevine production.
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| http://dx.doi.org/10.1016/j.foodres.2025.117000 | DOI Listing |
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