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Keywords = non-vinifera grapes

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18 pages, 1351 KB  
Article
Development of a Sensory Lexicon and Predictive ANN Modeling for Black Queen Wine: A Novel Workflow Incorporating Bridge-Linked QDA and Consumer Hedonic Analysis
by Gus Chang-Hung Han and Shuo-Wen Tsai
Foods 2026, 15(12), 2158; https://doi.org/10.3390/foods15122158 - 15 Jun 2026
Viewed by 347
Abstract
Vitis vinifera L. × Vitis labrusca L. cv. Black Queen (BQ) is a hybrid cultivar with oenological potential in subtropical climates, yet its sensory structure remains insufficiently systematized. This study aimed to construct an integrated sensory framework by merging two Balanced Complete Block [...] Read more.
Vitis vinifera L. × Vitis labrusca L. cv. Black Queen (BQ) is a hybrid cultivar with oenological potential in subtropical climates, yet its sensory structure remains insufficiently systematized. This study aimed to construct an integrated sensory framework by merging two Balanced Complete Block Design (BCBD) datasets into a unified database and developing a structured descriptor reduction workflow to address multicollinearity and redundancy. The resulting “BQ Lexicon v.0” comprised nine Quantitative Descriptive Analysis (QDA) attributes and twelve check-all-that-apply (CATA) descriptors. Based on this optimized dataset, an Artificial Neural Network (ANN) model was developed to predict overall liking (OL), achieving a satisfactory performance (R2(train) = 0.70 and R2(validation) = 0.74). Three-dimensional response surface visualization further illustrated non-linear relationships as a process monitor, indicating sourness as a primary negative driver of acceptance and revealing interactive and synergistic effects between tannin, sweetness, and aroma. These findings demonstrate that integrating structured data management with machine learning can enhance sensory modeling efficiency. Ultimately, the validated BQ Lexicon v.0 and the aligned data framework establish a reliable foundation for future oenological research in Black Queen grape. This structured approach effectively resolves the challenges of integrating distributed sensory datasets, while offering practical insights for targeted winemaking strategies. Full article
(This article belongs to the Special Issue Digital, Computational, and Learning Technologies for Food Analysis)
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14 pages, 2125 KB  
Article
Valorization of Grape Stalk Rachis for Particleboard Manufacturing: Chemical Characterization and Performance Assessment for Sustainable Interior Panel Applications
by Juan Pedro Elissetche, Eduardo Troncoso-Ortega, Luis Troncoso, Carolina Puentes, Rosa Alzamora, Rafael Rubilar, Vicente Hernández and Carolina Parra-Fuentes
Processes 2026, 14(11), 1768; https://doi.org/10.3390/pr14111768 - 28 May 2026
Viewed by 402
Abstract
The wine industry generates large volumes of grape stalk residues that remain largely underutilized and are frequently disposed of by open-field burning, contributing to greenhouse gas emissions and the loss of biomass valorization opportunities. This study aims to evaluate the feasibility of producing [...] Read more.
The wine industry generates large volumes of grape stalk residues that remain largely underutilized and are frequently disposed of by open-field burning, contributing to greenhouse gas emissions and the loss of biomass valorization opportunities. This study aims to evaluate the feasibility of producing single-layer particleboards from grape stalk particles (Vitis vinifera L.) bonded with a urea–formaldehyde resin, with a focus on their suitability for interior non-structural applications. Particleboards were manufactured at three target densities (550, 650, and 750 kg/m3) and assessed mainly for their physical and mechanical performance in relation to the requirements of EN 312. Internal bond strength showed a clear dependence on board density: panels produced at 650 and 750 kg/m3 met the minimum threshold for P2-type particleboards, whereas those produced at 550 kg/m3 did not comply with the standard. Thickness swelling decreased with increasing density, with only the highest-density boards fulfilling the reference criterion. Overall, the results indicate that grape stalk residues can be effectively converted into particleboards with adequate mechanical performance when manufactured at densities of at least 650 kg/m3. The study highlights the potential of this agro-industrial residue as a low-impact raw material for particleboard production, supporting circular bioeconomy strategies and development in wine-producing regions. Full article
(This article belongs to the Section Chemical Processes and Systems)
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19 pages, 5411 KB  
Article
Assessing the Impact of Water Stress on Neofusicoccum parvum in Table Grapes Using Proximal Sensing Technologies
by Chiara Di Pietro, Simone Mavica, Daniela Vanella, Giuseppe Longo-Minnolo, Simona Consoli and Dalia Aiello
Agronomy 2026, 16(7), 696; https://doi.org/10.3390/agronomy16070696 - 26 Mar 2026
Viewed by 592
Abstract
Water availability represents a major limiting factor for crop production, particularly in Mediterranean agroecosystems. In parallel, water-stressed plants are often more susceptible to diseases, including Grapevine Trunk Diseases (GTDs), such as Botryosphaeria Dieback caused by Botryosphaeriaceae species. In Italy, the increasing prevalence of [...] Read more.
Water availability represents a major limiting factor for crop production, particularly in Mediterranean agroecosystems. In parallel, water-stressed plants are often more susceptible to diseases, including Grapevine Trunk Diseases (GTDs), such as Botryosphaeria Dieback caused by Botryosphaeriaceae species. In Italy, the increasing prevalence of GTDs in young table grape plants and nursery material highlights the need to better understand the interaction between abiotic stress and pathogen dissemination in woody tissues. This study investigated the relationship between different water regimes (WRs) and infections by Neofusicoccum parvum. Grapevine cuttings (Vitis vinifera ‘Italia’ vines grafted onto the rootstock ‘140 Ruggeri’) were subjected to three WRs (20%, 50%, and 100% of crop evapotranspiration, ETc) under controlled environmental conditions and, subsequently, inoculated with mycelial plugs of N. parvum at both the scion and rootstock levels. Plant responses were monitored non-destructively using low-cost proximal sensing tools, including leaf temperature (Tleaf) and the Normalized Difference Vegetation Index (NDVI). Disease development was assessed by measuring internal necrotic lesion extension. Reduced irrigation was associated with increased disease severity, while proximal sensing detected differences in plant physiological responses among water regimes. Overall, the results highlight the interplay between water availability, plant physiological status, and disease severity under controlled conditions. Full article
(This article belongs to the Section Precision and Digital Agriculture)
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19 pages, 2778 KB  
Article
Untargeted Metabolomics Reveals Color-Dependent Nutritional Variation in Raisins: Insights into Composition and Antioxidant Capacity
by Chuan Zhang, Shanwu Lyu and Vivek Yadav
Antioxidants 2026, 15(3), 401; https://doi.org/10.3390/antiox15030401 - 23 Mar 2026
Cited by 1 | Viewed by 953
Abstract
Raisins come from dried Vitis vinifera L. grapes. They are consumed worldwide, and their shape, color, texture, and taste largely determine consumer preference and market success. Consumers often select raisins based on visual appeal—namely color—without insight into how this relates to nutritional quality. [...] Read more.
Raisins come from dried Vitis vinifera L. grapes. They are consumed worldwide, and their shape, color, texture, and taste largely determine consumer preference and market success. Consumers often select raisins based on visual appeal—namely color—without insight into how this relates to nutritional quality. Therefore, this study evaluated raisins of different colors based on non-targeted metabolomics to reveal the nutritional differences among differently colored raisins and to measure the differences in antioxidant capacity. Compared with green raisins (‘Sultanina’), 377–381 differential metabolites were identified in other colored varieties. Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment analysis revealed that these metabolites were enriched in pathways such as ‘biosynthesis of other secondary metabolites’ and ‘amino acid metabolism’. The comparison of the antioxidant capacity of raisins of different colors shows that the darker the color of the raisins, the stronger their antioxidant capacity. Correlation analysis between total antioxidant capacity and 14 differential metabolites showed a significant positive correlation. Notably, syringetin levels in black raisins (‘Blackcurrant’ and ‘Sweet Sapphire’) were substantially higher—148.31 and 515.94 times greater, respectively—than in green raisins (‘Sultanina’). This elevated syringetin content may significantly contribute to the enhanced antioxidant capacity of black raisins. Furthermore, based on the positive ion mode, the relative contents of 24 and 12 differential metabolites were relatively high in green and red raisins, respectively. The negative ion model identified that 19 and 4 differential metabolites had relatively high contents in green and red raisins. These metabolites may be linked to the unique health benefits of red and green raisins. This study provides valuable insights for consumers selecting raisins based on health needs and for companies developing raisin-based health products. Full article
(This article belongs to the Special Issue Antioxidant Activity of Grape and Grape By-Products)
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17 pages, 834 KB  
Article
Grape Pomace Flour as a Sustainable Ingredient in Cookie Formulation for Fiber, Free, and Bound Phenols Improvement
by Carlos E. Galindo-Corona, Gloria A. Martinez-Medina, Ricardo Gómez-García, Ayerim Y. Hernández-Almanza, Jorge Armando Meza-Velázquez, Martha Lizeth Quintana-Burciaga, Mariana Mesta-Corral, Cristian Torres-León and Nathiely Ramírez-Guzmán
Processes 2026, 14(3), 410; https://doi.org/10.3390/pr14030410 - 24 Jan 2026
Cited by 1 | Viewed by 1928
Abstract
This study aimed to evaluate the substitution of wheat flour (WF) for grape (Vitis vinifera L.) pomace (GP) on cookie formulation. The techno-functional properties of GP flour (GPF) were characterized, and cookie formulations containing 15% (C15) and 20% (C20) GPF were developed. [...] Read more.
This study aimed to evaluate the substitution of wheat flour (WF) for grape (Vitis vinifera L.) pomace (GP) on cookie formulation. The techno-functional properties of GP flour (GPF) were characterized, and cookie formulations containing 15% (C15) and 20% (C20) GPF were developed. To evaluate the antioxidant and functional potential, free (FPF, soluble phenols) and bound phenolic fraction (BPF, insoluble phenols) were extracted. The total phenolic content (TPC) and antioxidant potential (ABTS and DPPH assays) were measured. The GPF shows differences in oil and water retention, non-foaming properties, and non-significant differences in swelling capacity compared to WF. C15 and C20 show L* values from 27.9 to 36.2, b* values from 2.22 to 2.64, and a* values from 8.84 to 10.49. GPF addition elevates ash and fiber content by 3.5–4.2 and 14–31.6 times. GPF cookie (C15) exhibited a significantly higher TPC compared to WF. Although the FPF fraction in the cookies was higher compared to BPF, the contribution of BPF to antioxidant activity was high (DPPH = 29.9%, ABTS = 16.3%) compared to FPF (DPPH = 26.3%, ABTS = 20.3%). Given that FPF is traditionally the only antioxidant fraction measured, the antioxidant potential of incorporating grape by-products is being underestimated; this is the first report of this in a cookie. Full article
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19 pages, 3849 KB  
Article
Gibberellin-Treated Seedless Cultivation Alters Berry Fracture Behavior, Cell Size and Cell Wall Components in the Interspecific Hybrid Table Grape (Vitis labruscana × Vitis vinifera) ‘Shine Muscat’
by Hikaru Ishikawa, Kaho Masuda and Tomoki Shibuya
Plants 2026, 15(2), 287; https://doi.org/10.3390/plants15020287 - 17 Jan 2026
Viewed by 1154
Abstract
Gibberellin (GA)-based seedless cultivation is widely used in the skin-edible interspecific table grape (Vitis labruscana × Vitis vinifera) ‘Shine Muscat’, yet when and how GA treatment reshapes fracture-type texture during berry development remains unclear. This study aimed to identify developmental stages [...] Read more.
Gibberellin (GA)-based seedless cultivation is widely used in the skin-edible interspecific table grape (Vitis labruscana × Vitis vinifera) ‘Shine Muscat’, yet when and how GA treatment reshapes fracture-type texture during berry development remains unclear. This study aimed to identify developmental stages and tissue/cell-wall features associated with GA-dependent differences in berry fracture behavior. We integrated intact-berry fracture testing at harvest (DAFB105), quantitative histology of pericarp/mesocarp tissues just before veraison (DAFB39) and at harvest, sequential cell-wall fractionation assays targeting pectin-rich (uronic acid) and hemicellulose/cellulose-related pools at cell division period, cell expansion period and harvest, and stage-resolved RNA-Seq across the same three developmental stages. GA-treated berries had a larger diameter and showed a higher fracture load and a lower fracture strain than non-treated berries at harvest, while toughness did not differ significantly. Histology revealed thicker pericarp tissues and lower mesocarp cell density in GA-treated berries, together with increased cell-size heterogeneity and enhanced radial cell expansion. Cell wall analyses showed stage-dependent decreases in uronic acid contents in water-, EDTA-, and Na2CO3-soluble fractions in GA-treated berries. Transcriptome profiling indicated GA-responsive expression of putative cell expansion/primary-wall remodeling genes, EXORDIUM and xyloglucan endotransglucosylase/hydrolases, at DAFB24 and suggested relatively enhanced ethylene-/senescence-associated transcriptional programs together with pectin-modifying related genes, Polygaracturonase/pectate lyase and pectin methylesterase, in non-treated mature berries. Collectively, GA treatment modifies mesocarp cellular architecture and pectin-centered wall status in a stage-dependent manner, providing a tissue- and cell wall–based framework for interpreting fracture-related texture differences under GA-based seedless cultivation in ‘Shine Muscat’. Full article
(This article belongs to the Special Issue Fruit Development and Ripening)
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18 pages, 3824 KB  
Article
Comprehensive Analysis of the PP2C Gene Family in Grape (Vitis vinifera L.) and Identification of VvPP2C26 and VvPP2C41 as Negative Regulators of Fruit Ripening
by Kaidi Li, Kai Liu, Keyi Wang, Yunning Pang, Xuzhe Zhang, Xiujie Li and Bo Li
Plants 2025, 14(24), 3827; https://doi.org/10.3390/plants14243827 - 16 Dec 2025
Cited by 1 | Viewed by 864
Abstract
Protein phosphatase 2Cs (PP2Cs) are members of the serine/threonine phosphatase family that play pivotal roles in regulating plant development and responses to environmental stresses. However, comprehensive genome-wide studies of the PP2C gene family in grape (Vitis vinifera L.) have not yet been [...] Read more.
Protein phosphatase 2Cs (PP2Cs) are members of the serine/threonine phosphatase family that play pivotal roles in regulating plant development and responses to environmental stresses. However, comprehensive genome-wide studies of the PP2C gene family in grape (Vitis vinifera L.) have not yet been conducted. In the present study, 78 VvPP2C genes were identified and classified into 12 clades based on their phylogenetic relationships. Analysis of physicochemical properties and gene/protein architectures revealed that the members within each clade shared conserved structural features. Synteny analysis demonstrated that both tandem and segmental duplications substantially contributed to the expansion of the VvPP2C gene family. Tissue-specific transcriptional profiles and cis-element analyses indicated the potential involvement of these genes in grape development and stress responses. Moreover, expression analysis identified VvPP2C26 and VvPP2C41 as the most abscisic acid (ABA)-responsive genes, with expression patterns highly correlated with grape berry development. Functional validation in transgenic tomato lines demonstrated that the overexpression of either gene markedly delayed fruit ripening. Collectively, this study provides new insights into the evolutionary diversification and regulatory functions of the PP2C gene family in grape and identifies VvPP2C26 and VvPP2C41 as key candidates for elucidating ABA-mediated ripening mechanisms in non-climacteric fruits. Full article
(This article belongs to the Special Issue Berry and Cherry Fruit Crops)
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18 pages, 2227 KB  
Article
Sustaining Grape Yield and Soil Health Under Saline–Sodic Irrigation Through Amendments and Canal Water Application
by Karamjit Singh Sekhon, Anureet Kaur, Sudhir Thaman, Navjot Gupta, Anurag Malik, Chetak Bishnoi, Ozgur Kisi, Ali Salem and Mohamed A. Mattar
Water 2025, 17(18), 2683; https://doi.org/10.3390/w17182683 - 11 Sep 2025
Cited by 3 | Viewed by 1564
Abstract
The present study was undertaken for six years to appraise the responses of four-year-old established grapevines (Vitis vinifera L., cv. Perlette) to saline–sodic groundwater irrigation in relation to different amendments in a field experiment on non-saline, non-sodic calcareous sandy loam soil under [...] Read more.
The present study was undertaken for six years to appraise the responses of four-year-old established grapevines (Vitis vinifera L., cv. Perlette) to saline–sodic groundwater irrigation in relation to different amendments in a field experiment on non-saline, non-sodic calcareous sandy loam soil under a semi-arid climate at the research farm of Punjab Agricultural University, Regional Research Station, Bathinda, Punjab, India. Different water quality treatments, viz., canal water or good-quality water (GQW), poor-quality saline–sodic groundwater (PQW), alternate irrigation of canal water and groundwater (GQW/PQW), PQW with 50% gypsum (CaSO4·2H2O) requirement (PQW + GR50), PQW with 100% gypsum requirement (PQW + GR100), and PQW with sulphitation pressmud (by-product of sugar industry) @ 6.6 t ha−1 on a dry weight basis (PQW + SPM), applied in furrows, were imposed in quadruplicate with a randomized block design. PQW with an electrical conductivity (EC) of 2.2–2.4 dS m−1, residual sodium carbonate (RSC) content of 6.21–6.44 mmolc L−1, and a sodium adsorption ratio (SAR) from 23.1 to 24.8 (mmolc L−1)0.5 was used during the course of experimentation. The pooled mean 6-year data showcased that the treatments GQW/PQW, PQW + GR50, PQW + GR100, and PQW + SPM improved the berry yield by 28.3%, 11.3%, 21.2%, and 31.0%, respectively, when compared with PQW. Use of amendments, i.e., gypsum, sulphitation pressmud, and practice of GQW/PQW for irrigation in a cyclic mode, helped in reducing the pH, SAR, and bulk density (BD) of surface soil (0–15 cm) and enhancing the final infiltration rate (FIR) of soil and berry yield. A maximum water use efficiency (WUE) of 3.99 q ha−1-cm was recorded in the GQW treatment, followed by 3.93, 3.72, and 3.68 q ha−1-cm in the PQW + SPM, GQW/PQW, and PQW + GR100 treatments, respectively. Application of amendments alongside PQW evidenced a significant enhancement in total soluble solids (TSSs) and a decrease in the acidity of berries as compared to PQW. These results suggest that table grape yield (cv. Perlette) on calcareous sandy loam soil under saline–sodic groundwater irrigation can be sustained with the application of PQW + GR100, sulphitation pressmud, and GQW/PQW in already-established grapevines with minimal detrimental effects on soil health. Full article
(This article belongs to the Section Water, Agriculture and Aquaculture)
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18 pages, 675 KB  
Article
Effects of Hyperbaric Micro-Oxygenation on the Color, Volatile Composition, and Sensory Profile of Vitis vinifera L. cv. Monastrell Grape Must
by Antonio José Pérez-López, Luis Noguera-Artiaga, Patricia Navarro, Pablo Mompean, Alejandro Van Lieshout and José Ramón Acosta-Motos
Fermentation 2025, 11(7), 380; https://doi.org/10.3390/fermentation11070380 - 30 Jun 2025
Cited by 2 | Viewed by 1892
Abstract
Color, aroma, and overall sensory quality in red wines are largely influenced by oxygen availability during fermentation. This study evaluated the effects of micro-oxygenation under hyperbaric conditions on the physicochemical, chromatic, volatile, and sensory properties of Vitis vinifera L. cv. Monastrell grape must. [...] Read more.
Color, aroma, and overall sensory quality in red wines are largely influenced by oxygen availability during fermentation. This study evaluated the effects of micro-oxygenation under hyperbaric conditions on the physicochemical, chromatic, volatile, and sensory properties of Vitis vinifera L. cv. Monastrell grape must. Grape clusters were manually harvested and fermented under controlled conditions, applying micro-oxygenation treatments at two fermentation stages (day 3 and day 13) within a hyperbaric chamber. Physicochemical analyses, CIELab color measurements, visible reflectance spectra, GC-FID volatile profiling, and descriptive sensory analysis were performed. Micro-oxygenated samples (M1_MOX and M2_MOX) showed significant increases in lightness (L*), redness (a*), chroma (C*), and reflectance in the 520–620 nm range, indicating enhanced extraction and stabilization of phenolic pigments. Volatile analysis revealed that these samples also contained higher concentrations of key esters and terpenes associated with fruity and floral notes. Sensory evaluation confirmed these findings, with MOX-treated wines displaying greater aromatic intensity, flavor persistence, and varietal character. Control samples (M1_CON and M2_CON) exhibited lower color saturation and volatile compound content, along with diminished sensory quality. These results suggest that hyperbaric micro-oxygenation is an effective strategy for improving color intensity and aromatic complexity during red wine fermentation under controlled, non-thermal conditions. Full article
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17 pages, 1213 KB  
Article
Characterization of Physiological Factors and Performance of Ungrafted GRN Rootstocks Under Moderate Water-Stress Conditions
by Jose R. Munoz, Jocelyn Alvarez Arredondo, Maria Alvarez Arredondo, Ava Brackenbury, John Howell, Jennifer Wootten, Myles Adams and Jean Catherine Dodson Peterson
Horticulturae 2025, 11(6), 663; https://doi.org/10.3390/horticulturae11060663 - 11 Jun 2025
Viewed by 1249
Abstract
The commercial production of grapevines (Vitis vinifera L.) relies heavily on rootstocks that are hybrids of non-vinifera parentage. The relatively newly released GRN rootstocks (GRN-1, GRN-2, GRN-3, GRN-4, and GRN-5) were bred from especially under-studied genetic backgrounds. This study aimed to [...] Read more.
The commercial production of grapevines (Vitis vinifera L.) relies heavily on rootstocks that are hybrids of non-vinifera parentage. The relatively newly released GRN rootstocks (GRN-1, GRN-2, GRN-3, GRN-4, and GRN-5) were bred from especially under-studied genetic backgrounds. This study aimed to evaluate ungrafted GRN-series grape rootstocks under moderate water-stress conditions and to characterize and compare their physiological performances. Each of the GRN rootstocks had specific physiological characteristics that would make them suitable for a wide range of growing conditions and vineyard management goals. GRN-1 had growth habits which were more vigorous and the highest carbohydrate storage levels, while GRN-2 had the highest level of nitrogen and the largest leaf area, but the lowest levels of carbohydrate storage. GRN-3 was less tolerant to high-salinity soils, and had the longest internodes, while GRN-4 had high boron levels, which supports flowering and fruit set, and short internodes. GRN-5 was consistently moderate across all measured areas, except internode thickness, for which it was the highest. These findings show the variations in physiological growth habits among the ungrafted GRN-series rootstocks and suggest that growth habits, carbohydrate storage, leaf canopy, fruit production, and nutrition vary based on rootstock parentage. Further investigation is needed to determine whether these characteristics persist when grafted onto Vitis vinifera L. scions. Full article
(This article belongs to the Section Viticulture)
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25 pages, 1341 KB  
Article
Phenological Performance, Thermal Demand, and Qualitative Potential of Wine Grape Cultivars Under Double Pruning
by Carolina Ragoni Maniero, Marco Antonio Tecchio, Harleson Sidney Almeida Monteiro, Camilo André Pereira Contreras Sánchez, Giuliano Elias Pereira, Juliane Barreto de Oliveira, Sinara de Nazaré Santana Brito, Francisco José Domingues Neto, Sarita Leonel, Marcelo de Souza Silva, Ricardo Figueira and Pricila Veiga dos Santos
Agriculture 2025, 15(12), 1241; https://doi.org/10.3390/agriculture15121241 - 6 Jun 2025
Cited by 4 | Viewed by 2700
Abstract
The production of winter wines in Southeastern Brazil represents a relatively recent but expanding viticultural approach, with increasing adoption across diverse wine-growing regions. This system relies on the double-pruning technique, which allows for the harvest of grapes during the dry and cooler winter [...] Read more.
The production of winter wines in Southeastern Brazil represents a relatively recent but expanding viticultural approach, with increasing adoption across diverse wine-growing regions. This system relies on the double-pruning technique, which allows for the harvest of grapes during the dry and cooler winter season, favoring a greater accumulation of sugars, acids, and phenolic compounds. This study aimed to characterize the phenological stages, thermal requirements, yield, and fruit quality of the fine wine grape cultivars ‘Sauvignon Blanc’, ‘Merlot’, ‘Tannat’, ‘Pinot Noir’, ‘Malbec’, and ‘Cabernet Sauvignon’ under double-pruning management in a subtropical climate. The vineyard was established in 2020, and two production cycles were evaluated (2022/2023 and 2023/2024). Significant differences in the duration of phenological stages were observed among cultivars, ranging from 146 to 172 days from pruning to harvest. The accumulated thermal demand was higher in the first cycle, with a mean of 1476.9 growing degree days (GDD) across cultivars. The results demonstrate the potential of Vitis vinifera L. cultivars managed with double pruning for high-quality wine production under subtropical conditions, supporting the viability of expanding viticulture in the state of São Paulo. ‘Cabernet Sauvignon’ and ‘Sauvignon Blanc’ showed the highest yields, reaching 3.03 and 2.75 kg per plant, respectively, with productivity values of up to 10.8 t ha−1. ‘Tannat’ stood out for its high sugar accumulation (23.4 °Brix), while ‘Merlot’ exhibited the highest phenolic (234.9 mg 100 g−1) and flavonoid (15.3 mg 100 g−1) contents. These results highlight the enological potential of the evaluated cultivars and confirm the efficiency of the double-pruning system in improving grape composition and wine quality in non-traditional viticultural regions. Full article
(This article belongs to the Special Issue Advanced Cultivation Technologies for Horticultural Crops Production)
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12 pages, 2374 KB  
Article
Unveiling the Regional Identity of Madeira Wine: Insights from Saccharomyces cerevisiae Strains Using Interdelta Analysis
by Mariangie M. Castillo, Nikol Parra, José S. Câmara and Mahnaz Khadem
Beverages 2025, 11(3), 84; https://doi.org/10.3390/beverages11030084 - 6 Jun 2025
Cited by 2 | Viewed by 2680
Abstract
The Demarcated Region of Madeira (DRM) is one of the oldest wine regions in Portugal, where the famous Madeira Wine (MW) is produced by spontaneous fermentation using endogenous yeasts. Several studies reported the role of endogenous Saccharomyces cerevisiae strains in the regional identity [...] Read more.
The Demarcated Region of Madeira (DRM) is one of the oldest wine regions in Portugal, where the famous Madeira Wine (MW) is produced by spontaneous fermentation using endogenous yeasts. Several studies reported the role of endogenous Saccharomyces cerevisiae strains in the regional identity of wines, but only a few studies have been published in the DRM. The PCR-Interdelta (Polymerase Chain Reaction-Interdelta) analysis is a reliable method for S. cerevisiae strain identification. Here, we report the S. cerevisiae strains isolated from six Vitis vinifera grape varieties, namely, Tinta Negra, Boal, Sercial, Verdelho, Malvasia de São Jorge, and Complexa, which are widely used in MW production. During the 2020 campaign, eleven samples were collected from licensed vineyards and a winery, and submitted to spontaneous microfermentations and yeast isolation. Of the 1452 isolates counted, 1367 (94.2%) presented morphological characteristics of S. cerevisiae. We randomly selected 330 isolates from the positive colonies for strain identification. First, the PCR-Interdelta was optimized in ten commercial strains, using δ2–δ12 and δ12–δ21 pairs of primers, and δ2–δ12 primers were selected to screen the 330 isolates. We detected three fermentative profiles and a total of 25 PCR-Interdelta patterns were obtained, representing 7.6% of intraspecific variability, starting with the first non-official collection. The findings underscore the pivotal role of S. cerevisiae strain diversity in shaping the regional identity and quality of wines, with molecular tools like PCR-Interdelta analysis proving essential for monitoring intraspecific variability. Full article
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18 pages, 2198 KB  
Article
Exploring Opuntia ficus-indica as a Strategy to Mitigate High Temperatures Effects in Vineyards: Insights into Physiological and Proteomic Responses
by Lénia Rodrigues, Inês Santana, Renato Coelho, Gabriela Murta, Hélia Cardoso, Catarina Campos, João Mota Barroso and Ana Elisa Rato
Agronomy 2025, 15(4), 869; https://doi.org/10.3390/agronomy15040869 - 30 Mar 2025
Cited by 3 | Viewed by 2164
Abstract
High temperatures significantly impact grapevine growth and development and lead to severe losses in grape quality and production. To minimize the impact of those environmental constraints, the application of biostimulants (BSts) has emerged as one of the most interesting strategies. BSts application derived [...] Read more.
High temperatures significantly impact grapevine growth and development and lead to severe losses in grape quality and production. To minimize the impact of those environmental constraints, the application of biostimulants (BSts) has emerged as one of the most interesting strategies. BSts application derived from cactus species has been described as a successful approach to enhance tolerance to biotic and abiotic stresses. In this study, an aqueous extract prepared from the cladodes of Opuntia ficus-indica was applied through foliar spraying to grapevine plants (Vitis vinifera L.) ’Aragonez’ already under heat stress. The effect of the extract application on protecting grapevine plants against heat stress was assessed in an experiment running during 15 days after extract application by determining several physiological parameters and detecting the changes in the whole proteome profile by comparing non-treated and extract-treated samples. Results show that physiological parameters directly related to photosynthesis showed a positive effect of the extract in mitigating heat stress in grapevines. Proteomic analysis indicated that the extract significantly upregulated proteins associated with photosynthesis and stress responses. This study provides new insights about the effect of O. ficus-indica extract in grapevines, offering a valuable strategy for future applications under field conditions. Full article
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14 pages, 1028 KB  
Article
How Does Extended Maceration Affect Tannin and Color of Red Wines from Cold-Hardy Grape Cultivars?
by Aude A. Watrelot and Nicolas Delchier
Foods 2025, 14(7), 1187; https://doi.org/10.3390/foods14071187 - 28 Mar 2025
Cited by 3 | Viewed by 2113
Abstract
Red wines produced with interspecific grape cultivars tend to have low tannin concentration and are therefore unbalanced. Extended maceration (EM) is a common winemaking technique which can promote the extraction of tannins from grape skins and seeds. The goal of this study was [...] Read more.
Red wines produced with interspecific grape cultivars tend to have low tannin concentration and are therefore unbalanced. Extended maceration (EM) is a common winemaking technique which can promote the extraction of tannins from grape skins and seeds. The goal of this study was to evaluate the effect of EM on the tannin concentration, color intensity and other chemical properties of red wines made from cold-hardy grape cultivars. The wines were made from two cold-hardy interspecific grape cultivars (Marquette, and Petite Pearl) for either 7 days (control) or 21 days (EM) before pressing. Chemical analysis of the wines was conducted to determine their tannin concentration and color parameters at different stages of the process and after 14 months of aging. EM resulted in an improvement in the iron-reactive phenolic content of Marquette red wines (from 582 to 969 mg/L at bottling in control and EM wines, respectively), but no significant improvement in tannin content. The hue of Petite Pearl wines increased following EM only at pressing, and color intensity of those wines decreased at pressing and bottling by 43% and 52%, respectively. This study was the first one conducted on non-Vitis vinifera grapes which showed a lack of impact of EM on the phenolics and tannin concentration in the red wines made in 2022. Full article
(This article belongs to the Section Drinks and Liquid Nutrition)
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Article
Optimized Protocol for High-Quality RNA Extraction from Grape Berry Skins Using Sorbitol Pre-Wash
by Annalisa Prencipe, Antonella Salerno, Margherita D’Amico, Antonio Domenico Marsico, Mario Ventura, Riccardo Velasco, Maria Francesca Cardone, Carlo Bergamini and Flavia Angela Maria Maggiolini
Plants 2025, 14(7), 988; https://doi.org/10.3390/plants14070988 - 21 Mar 2025
Cited by 1 | Viewed by 3542
Abstract
Extracting high-quality RNA from grape (Vitis Vinifera) berry skins is challenging due to their high levels of polysaccharides, phenolic compounds, sugars, and organic acids, which can negatively impact RNA purity and yield. Indeed, polyphenols can bind to RNA, polysaccharides may co-precipitate, and [...] Read more.
Extracting high-quality RNA from grape (Vitis Vinifera) berry skins is challenging due to their high levels of polysaccharides, phenolic compounds, sugars, and organic acids, which can negatively impact RNA purity and yield. Indeed, polyphenols can bind to RNA, polysaccharides may co-precipitate, and sugars and organic acids can interfere with the pH and ionic properties of the extraction buffer. Commercial kits offer a quick extraction method but are often ineffective for grape berry skins. Similarly, protocols that work well for other vegetal tissues are also inefficient and time-consuming for this tissue. To overcome these limitations, we optimized the RNA isolation by adding a sorbitol pre-wash step to both a non-commercial protocol and a commercial kit. Our results show that it significantly improves the RNA yield and quality from grape berry skins, increasing the RNA purity and integrity, as evidenced by higher RIN (RNA Integrity Number) values and better Qubit and Nanodrop measurements. The strategy’s efficacy was further validated through RNA sequencing, yielding high-quality reads with low error rates, suitable for gene expression studies. Thus, incorporating a sorbitol pre-wash step improves the RNA yield and quality from grape berry skins making it suitable for high-throughput sequencing, and provides a reliable tool for advancing grapevine research. Full article
(This article belongs to the Section Plant Molecular Biology)
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