G. Lovicu scite author profile

Grape berries harbor a wide range of microbes originating from the vineyard environment, many of which are recognized for their role in the must fermentation process shaping wine quality. To better clarify the contribution of the microbiome of grape fruits during wine fermentation, we used high-throughput sequencing to identify bacterial and fungi communities associated with berries and musts of Cannonau. This is the most important cultivar-wine of Sardinia (Italy) where most vineyards are cultivated without phytochemical treatments. Results suggested that microbiomes of berries collected at four different localities share a core composition characterized by Enterobacteriales, Pseudomonadales, Bacillales, and Rhodospirillales. However, any area seems to enrich berries microbiome with peculiar microbial traits. For example, berries belonging to the biodynamic vineyards of Mamoiada were rich in Bacillales typical of manure (i.e. Lysinibacillus, Bacillus, and Sporosarcina), whereas in the Santadi locality, berries showed soil bacteria such as Pasteurellales and Bacteroidales as well as Rhodospirillales and Lactobacillales which are commonly involved in wine fermentation. In the case of fungi, the most abundant taxa were Dothioraceae, Pleosporaceae, and Saccharomycodaceae, and although the proportion of these families varied among localities, they occurred ubiquitously in all vineyards. During vinification processes performed at the same wine cellar under controlled conditions and without using any yeast starter, more than 50% of bacteria groups of berries reached musts, and each locality had its own private bacteria signature, even if Saccharomyces cerevisiae represented the most abundant fungal species. This work suggests that natural berries microbiome could be influenced by pedoclimatic and anthropologic conditions (e.g., farming management), and the fruits’ microorganisms persist during the fermentation process. For these reasons, a reliable wine genotyping should include the entire holobiont (plant and all its symbionts), and bioprospecting activities on grape microbiota could lead to improved viticulture yields and wine quality.

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Morphological characterisation of Vitis vinifera L. seeds by image analysis and comparison with archaeological remains

Orru

Grillo

Lovicu

et al. 2012

Veget Hist Archaeobot

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Wild grapevine:silvestris, hybrids or cultivars that escaped from vineyards? Molecular evidence in Sardinia

et al. 2010

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Vitis vinifera ssp. silvestris, the spontaneous subspecies of V. vinifera L., is believed to be the ancestor of present grapevine cultivars. In this work, polymorphism at 13 SSR loci was investigated to answer the following key question: are wild plants (i) true silvestris, (ii) hybrids between wild and cultivated plants or (iii) or 'escapes' from vineyards? In particular, the objective of the present study was to identify truly wild individuals and to search for possible hybridization events. The study was performed in Sardinia, the second largest island in the Mediterranean Sea, which is characterized by a large and well-described number of both grape cultivars and wild populations. This region was ideal for the study because of its spatial isolation and, consequently, limited contamination from outside material. The results of this study show that domesticated and wild grapevine germplasms are genetically divergent and thus are real silvestris. Pure lineages (both domesticated and wild) show very high average posterior probabilities of assignment to their own clusters, with a low level of introgression.

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Genetic characterization of Sardinia grapevine cultivars by SSR markers analysis

et al. 2007

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Aim: The objective of the present study is to investigate the molecular characteristics of Sardinian grapevine cultivars to evaluate cases of synonyms and false attributions to protect local agro-biodiversity.Methods and results: The SSR analysis (13 loci) has been used to define the DNA fingerprint and the relationships with Sardinian grapevine cultivars. Results highlighted a high genetic variability among the accessions, with the Dice coefficients performing from 0 to 0.8. Despite the genetic richness, thirteen groups of redundant genotypes were detected. Molecular analysis refers of cultivars harbouring the same SSR profile but different berry colours such as cultivars Licronaxu Bianco and Nero and Moscatello Bianco and Nero. It could by hypothesized that Licronaxu and Moscatello could derive from a specific retrotransposon-induced mutation event in genes regulating anthocyanin biosynthesis.Conclusion: Sardinian germplasm has a real problem of cultivar identification probably due to different factors such as the absence of an exhaustive ampelography, problems in the language to name varieties and the existence of cultivars sensitive to biotic and abiotic stresses producing evident morphological modifications leading to mistakes in recognising and identifying properly the affected plants. However, our molecular results suggest that high grape-biodiversity is still preserved in this region.Significance and impact of study: Results of this work clarified the relationships among grapevine cultivars and provided a solid basis to improve a regional grapevine collection.

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Effectiveness of a computer vision technique in the characterization of wild and farmed olives

Piras

Grillo

Venora³

et al. 2016

Computers and Electronics in Agriculture

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G. Lovicu

Grape microbiome as a reliable and persistent signature of field origin and environmental conditions in Cannonau wine production

Morphological characterisation of Vitis vinifera L. seeds by image analysis and comparison with archaeological remains

Wild grapevine:silvestris, hybrids or cultivars that escaped from vineyards? Molecular evidence in Sardinia

Genetic characterization of Sardinia grapevine cultivars by SSR markers analysis

Effectiveness of a computer vision technique in the characterization of wild and farmed olives

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