Your search keyword '"GRAPE quality"' showing total 1,619 results

1. Investigating the Role of Cover-Crop Spectra for Vineyard Monitoring from Airborne and Spaceborne Remote Sensing.

Author

Williams, Michael, Burnside, Niall G., Brolly, Matthew, and Joyce, Chris B.

Subjects

*AGRICULTURAL remote sensing, *GRAPE quality, *REMOTE-sensing images, *REMOTE sensing, *FARMERS, *BERRIES

Abstract

The monitoring of grape quality parameters within viticulture using airborne remote sensing is an increasingly important aspect of precision viticulture. Airborne remote sensing allows high volumes of spatial consistent data to be collected with improved efficiency over ground-based surveys. Spectral data can be used to understand the characteristics of vineyards, including the characteristics and health of the vines. Within viticultural remote sensing, the use of cover-crop spectra for monitoring is often overlooked due to the perceived noise it generates within imagery. However, within viticulture, the cover crop is a widely used and important management tool. This study uses multispectral data acquired by a high-resolution uncrewed aerial vehicle (UAV) and Sentinel-2 MSI to explore the benefit that cover-crop pixels could have for grape yield and quality monitoring. This study was undertaken across three growing seasons in the southeast of England, at a large commercial wine producer. The site was split into a number of vineyards, with sub-blocks for different vine varieties and rootstocks. Pre-harvest multispectral UAV imagery was collected across three vineyard parcels. UAV imagery was radiometrically corrected and stitched to create orthomosaics (red, green, and near-infrared) for each vineyard and survey date. Orthomosaics were segmented into pure cover-cropuav and pure vineuav pixels, removing the impact that mixed pixels could have upon analysis, with three vegetation indices (VIs) constructed from the segmented imagery. Sentinel-2 Level 2a bottom of atmosphere scenes were also acquired as close to UAV surveys as possible. In parallel, the yield and quality surveys were undertaken one to two weeks prior to harvest. Laboratory refractometry was performed to determine the grape total acid, total soluble solids, alpha amino acids, and berry weight. Extreme gradient boosting (XGBoost v2.1.1) was used to determine the ability of remote sensing data to predict the grape yield and quality parameters. Results suggested that pure cover-cropuav was a successful predictor of grape yield and quality parameters (range of R2 = 0.37–0.45), with model evaluation results comparable to pure vineuav and Sentinel-2 models. The analysis also showed that, whilst the structural similarity between the both UAV and Sentinel-2 data was high, the cover crop is the most influential spectral component within the Sentinel-2 data. This research presents novel evidence for the ability of cover-cropuav to predict grape yield and quality. Moreover, this finding then provides a mechanism which explains the success of the Sentinel-2 modelling of grape yield and quality. For growers and wine producers, creating grape yield and quality prediction models through moderate-resolution satellite imagery would be a significant innovation. Proving more cost-effective than UAV monitoring for large vineyards, such methodologies could also act to bring substantial cost savings to vineyard management. [ABSTRACT FROM AUTHOR]

Published

2024

2. Soil-climatic conditions of the vineyard and biochemical characteristics of the red dry wine ‘Kara-Koysu’ (Republic of Dagestan, Russian Federation)

Author

Khalilova, Eslanda Abdurakhmanovna, Islammagomedova, Elvira Akhmedovna, Abakarova, Aida Alevdinovna, Kotenko, Marina Evgenjevna, and Aliverdieva, Dinara Alievna

Subjects

*RED wines, *GRAPE yields, *CABERNET wines, *GRAPE quality, *TERROIR, *WINE flavor & odor

Abstract

The article provides additional information that emphasizes the growing international interest in the impact of climate (temperature, humidity, precipitation, solar activity) on grape yields and the quality of terroir wine. The study deals with the climate gradient of the terroir of the Derbent region of the Republic of Dagestan (Russia), located on the terraced accumulative-coastal plain of the Caspian lowland, stretching for 160 km from north to south in a narrow strip between the coast of the Caspian Sea and the foothills. The influence of soil and climatic conditions on the biochemical characteristics of red dry wines ‘Kara-Koysu’ from Cabernet Sauvignon wingrapes of the 2019–2021 harvest was studied. The growing season occurred in dry, moderately humid conditions in 2019; hot, with a lot of precipitation in 2020 and more extreme conditions in 2021. The conditions of recent years have contributed to the change of almost all the studied indicators of tested wines. Studies have found that the climatic conditions of 2020–2021 were more favorable for obtaining a rich harvest, high-quality wines due to more UV light exposure and precipitation. [ABSTRACT FROM AUTHOR]

Published

2024

3. 高光谱技术在葡萄品质无损检测 应用上的研究进展.

Author

文 静, 马 雯, 张 昂, 金 刚, and 徐国前

Subjects

AGRICULTURAL economics, GRAPE quality, NONDESTRUCTIVE testing, GRAPES, SHAPE measurement, BERRIES

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

4. Biocontrol agents transform the stability and functional characteristics of the grape phyllosphere microenvironment.

Author

Tao He, Meng Yang, Hongyan Du, Ronghui Du, Yueqiu He, Sheng Wang, Weiping Deng, Yixiang Liu, Xiahong He, Youyong Zhu, Shusheng Zhu, and Fei Du

Subjects

SUSTAINABLE agriculture, AGRICULTURAL development, BACTERIAL diversity, GRAPE quality, PLANT capacity, BIOLOGICAL pest control agents

Abstract

The spread of grape leaf diseases has a negative impact on the sustainable development of agriculture. Diseases induced by Uncinula necator significantly affect the quality of grapes. Bacillus biocontrol agents have been proven effective in disease management. However, limited research has been conducted on the impact of biocontrol agents on the assembly and potential functions of plant phyllosphere microbial communities. This study used high-throughput sequencing combined with bioinformatics analysis and culture omics technology for analysis. The results showed that biocontrol bacteria B. subtilis utilized in this study can significantly reduce the disease index of powdery mildew (p<0.05); concurrently, it exhibits a lower disease index compared to traditional fungicides. A comprehensive analysis has revealed that biocontrol bacteria have no significant impact on the diversity of phyllosphere fungi and bacteria, while fungicides can significantly reduce bacterial diversity. Additionally, biocontrol agents can increase the complexity of fungal networks and enhance the degree of modularity and stability of the bacterial network. The results also showed that the biocontrol agents, which contained a high amount of B. subtilis, were able to effectively colonize the grapevine phyllosphere, creating a microenvironment that significantly inhibits pathogenic bacteria on grape leaves while enhancing leaf photosynthetic capacity. In conclusion, biocontrol agents significantly reduce the grape powdery mildew disease index, promote a microenvironment conducive to symbiotic microorganisms and beneficial bacteria, and enhance plant photosynthetic capacity. These findings provide a basis for promoting biocontrol agents and offer valuable insights into sustainable agriculture development. [ABSTRACT FROM AUTHOR]

Published

2024

5. Identification and validation of qRT-PCR reference genes for analyzing grape infection with gray mold.

Author

Tan, Lina, Lu, Lijuan, Sun, Wen, Zhang, Xinyuan, Liu, Yanglin, Xiang, Yan, and Yan, Hanwei

Subjects

*GENE expression, *GRAPE quality, *BOTRYTIS cinerea, *FRUIT development, *NUTRITIONAL value, *GRAPES

Abstract

Background: Grapes are highly valued for their nutritional and economic benefits, and have been widely studied for their biological attributes such as fruit development, quality formation, and stress resistance. One significant threat to grape quality is gray mold, caused by Botrytis cinerea, which can infect the flowers, fruits, leaves, and stems. The quantitative real-time PCR (qRT-PCR), known for its high sensitivity and quantitative accuracy, is an essential tool for analyzing gene expression related to the pathogenesis of gray mold, thereby providing deeper insights into the disease. Result: In this study, we aim to identify stable internal reference genes crucial for accurate gene expression analysis via qRT-PCR. Utilizing transcriptome data from grapes under various disease stresses, we identified twelve candidate reference genes with consistently high expression levels. The stability of these genes was assessed through delta-CT, geNorm, NormFinder, BestKeeper, and RefFinder analyses after establishing the cycling thresholds (Ct) in different grape varieties treated with Botrytis cinerea. Conclusions: Our findings reveal that VIT-17s0000g02750 and VIT-06s0004g04280 exhibit stable expression and are suitable as new reference genes. This foundational work supports further research into the molecular mechanisms of grape biological processes. [ABSTRACT FROM AUTHOR]

Published

2024

6. Adaptation of grape cultivars to the semi-arid climate of Saïs: the case of Sultanine for sultana raisin production.

Author

Mrabet, Oumaima, Bahlaouan, Bouchaib, El Antri, Said, and Boutaleb, Nadia

Subjects

*GRAPE quality, *ARID regions, *VITAMIN C, *RAISINS, *CULTIVARS

Abstract

This study evaluated five grape cultivars, viz. Cardinal, Prima, Victoria, Regal Seedless, and Sultanine, grown at four sites in the semi-arid Saïs region of Morocco. The research aimed to assess how the region’s climatic conditions influence grape growth and quality, to identify cultivars suitable for local golden raisin production. Pomological and physico-chemical characteristics were measured, including fruit size, seed and skin weight, juice yield, and soluble solids. The Sultanine cultivar proved advantageous, with the longest bunch length (27.96 cm), heaviest bunch weight (651.39 g), highest total soluble solids (25.50° Brix), and highest sugars (18.11%). Victoria, a white grape cultivar, had the largest berry diameter (2.15 cm) and highest ascorbic acid content (22.23 mg/100 g). The study highlights Sultanine’s exceptional quality and suitability for the Saïs region, making it an ideal candidate for high-quality local sultanas. There is potential to boost production and reduce Morocco’s dependence on imported golden raisins. [ABSTRACT FROM AUTHOR]

Published

2024

7. A diel multi-tissue genome-scale metabolic model of Vitis vinifera.

Author

Sampaio, Marta, Rocha, Miguel, and Dias, Oscar

Subjects

*MACHINE learning, *PLANT metabolism, *METABOLIC models, *GRAPE quality, *CABERNET wines, *VITIS vinifera, *GRAPES

Abstract

Vitis vinifera, also known as grapevine, is widely cultivated and commercialized, particularly to produce wine. As wine quality is directly linked to fruit quality, studying grapevine metabolism is important to understand the processes underlying grape composition. Genome-scale metabolic models (GSMMs) have been used for the study of plant metabolism and advances have been made, allowing the integration of omics datasets with GSMMs. On the other hand, Machine learning (ML) has been used to analyze and integrate omics data, and while the combination of ML with GSMMs has shown promising results, it is still scarcely used to study plants. Here, the first GSSM of V. vinifera was reconstructed and validated, comprising 7199 genes, 5399 reactions, and 5141 metabolites across 8 compartments. Tissue-specific models for the stem, leaf, and berry of the Cabernet Sauvignon cultivar were generated from the original model, through the integration of RNA-Seq data. These models have been merged into diel multi-tissue models to study the interactions between tissues at light and dark phases. The potential of combining ML with GSMMs was explored by using ML to analyze the fluxomics data generated by green and mature grape GSMMs and provide insights regarding the metabolism of grapes at different developmental stages. Therefore, the models developed in this work are useful tools to explore different aspects of grapevine metabolism and understand the factors influencing grape quality. Author summary: Grapevine is one of the most important crops in the world, mainly due to wine production. Understanding grape metabolism is key to improving fruit quality. Towards this aim, we reconstructed a generic genome-scale metabolic model of grapevine to represent grapevine metabolism in silico as well as tissue-specific models by integrating omics data of stem, leaf, and berry. These models were combined into day-night multi-tissue models to explore grapevine metabolism under different conditions. Then, we trained machine learning models with the fluxomics data predicted by the metabolic models to identify the changes in grape metabolism during development. This first effort of integrating omics, metabolic models and machine learning showcases the potential of applying this strategy for more insightful analyses, as additional data becomes available. [ABSTRACT FROM AUTHOR]

Published

2024

8. Optimizing Grape Quality Through Tillage and Organic Fertilization: A Comprehensive Analysis of Phenolic and Anthocyanin Variability Over Three Years.

Author

Kaya, Ozkan, Ates, Fadime, Daler, Selda, Canturk, Sevil, Turan, Metin, and Hatterman‐Valenti, Harlene

Subjects

*TILLAGE, *AGRICULTURE, *GRAPE quality, *FERTILIZER application, *ORGANIC fertilizers, *BERRIES, *BROCCOLI

Abstract

ABSTRACT Knowing the concentration levels of phenolic compounds and anthocyanins in grape berries plays a key role, as these compounds significantly contribute to the nutritional value and quality of grapes, affecting both health benefits and grape quality. The current study was conducted to investigate how different tillage (disc harrow, chisel, no tillage) and organic fertilizer (Antep radish and broccoli chopped residue, olive blackwater) treatments affect the concentration of these valuable compounds in Royal grape berries over three consecutive years (2020–2022), providing insights into optimal agricultural practices for enhancing grape quality. Our results documented significant variations in phenolic and anthocyanin concentrations across different soil tillage, organic fertilizer treatments and years. Among the soil treatments, the disc harrow treatment emerged as the most effective in increasing the levels of most phenolic compounds and anthocyanins, while the broccoli fertilizer treatment was identified as the superior fertilizer application for achieving the same goal. Excluding disc harrow and broccoli fertilizer treatments, other treatments such as no tillage and chisel tillage, and fertilizers like olive blackwater and Antep radish, showed variable effectiveness. These treatments, although less effective overall than the leading treatments, contributed to increased levels of certain compounds such as resveratrol and pterostilbene, indicating their specific benefits. The findings also indicated specific combinations of tillage and fertilizer treatments that maximized the accumulation of certain phenolic compounds, like the combination of no tillage with broccoli fertilizer, which was particularly effective in increasing the levels of vanillic acid and trans‐caffeic acid. To sum up, by adopting practices such as disc harrow tillage and broccoli fertilizer application, viticulturists can enhance the phenolic and anthocyanin profiles of grapes, thus improving their nutritional value and potentially the quality of grape and wine produced from these grapes. [ABSTRACT FROM AUTHOR]

Published

2024

9. Grape Endophytic Microbial Community Structures and Berry Volatile Components Response to the Variation of Vineyard Sites.

Author

Ren, Ruihua, Zeng, Maoyu, Liu, Yunqi, Shi, Jingjing, Wan, Zhuowu, Wang, Miaomiao, Zhang, Shibo, Zhang, Zhenwen, and Zeng, Qingqing

Subjects

*VITIS vinifera, *GRAPES, *MICROBIAL diversity, *GRAPE quality, *CABERNET wines, *BERRIES

Abstract

Vitis vinifera L. is a commercially important horticultural plant with abundant microbial resources. However, the impact of grape-associated microbiota on grape quality and flavor has been largely overlooked. We integrated volatomics and microbiomics to explore temporal variations in berry volatiles and microbial diversity of 'Cabernet Sauvignon' in Ningxia (NX) and Shanxi (SX), and the correlation between microbial communities and volatiles. A total of 38 and 35 free and bound aroma compounds, respectively, were identified in NX berries and SX berries. For free aroma, these 38 compounds were classified into aldehydes (69%), alcohols (22%), acids (4%), aromatics (4%), terpenes (0.6%), esters (0.37%), and norisoprenoids (0.3%). Similarly, the 35 bound aromas were attributed to aromatics (58%), acids (29%), terpenes (4%), esters (3%), alcohols (2.82%), aldehydes (2.78%), and norisoprenoids (0.4%). Additionally, a total of 616 bacterial genera and 254 fungal genera were detected in all samples from both regions. The results demonstrated that vineyard sites significantly shaped the characteristics of berry volatiles and microbial biogeographic patterns. SX berries exhibited more abundant free aroma and higher microbial diversity than NX berries, with three key taxa (Sphingomonas, Massilia, and Bacillus) identified in the bacterial network. Correlation analysis results highlighted that these key taxa might play an important role in berry-free aroma. This study reveals the crucial role of microbes in shaping grape flavor and uncovers the link between microbial diversity and the regional attributes of grapes and wine. [ABSTRACT FROM AUTHOR]

Published

2024

10. Enhancing functional features of pectin‐based coating by incorporating cellulose nanofibre/peppermint oil.

Author

Marcellino, Vincensius, Kusuma, Gracella, Wardana, Ata Aditya, Wigati, Laras Putri, Liza, Chandra, Wulandari, Retno, Setiarto, R. Haryo Bimo, Tanaka, Fumina, and Tanaka, Fumihiko

Subjects

*EDIBLE coatings, *ACTIVE food packaging, *GRAPE quality, *PENICILLIUM digitatum, *LIGHT transmission

Abstract

Summary: Fruit loss frequently occurs due to physical and microbial deterioration. This study aimed to develop an emulsified coating formulation based on pectin (BP)/cellulose nanofibre (CNF)/(peppermint essential oil) PEO using the Pickering technique with an appropriate level of CNF as a stabiliser and to study its effect on grape quality during storage. The incorporation of 0.4% PEO‐stabilised with various 0.1%–0.325% CNF into 0.5% BP edible coatings was developed. A 0.175% concentration of CNF was found to be appropriate for stabilising the emulsion system. This technique improved the functional performance of BP coatings, including their antifungal activity against Penicillium digitatum by 64.94% on the 7th day of incubation. Moreover, light transmission at UV and visible wavelengths and elongation improved by 23.17% and 71.26% respectively compared to the pure BP‐based coating. Scanning electron microscopy and Fourier‐transform infrared spectroscopy were used to characterise the biocompatibility of each coating formulation. The PEO‐CNF emulsion coating may be an alternative for the active coating of fresh fruit commodities. [ABSTRACT FROM AUTHOR]

Published

2024

11. Enhancing Red Table Grape Coloration Using Tsikoudia: A Novel and Sustainable Approach.

Author

Kontaxakis, Emmanouil, Lydakis, Dimitrios, and Fisarakis, Ioannis

Subjects

TABLE grapes, SUSTAINABILITY, GRAPE quality, ABSCISIC acid, ANTHOCYANINS

Abstract

Achieving optimal coloration in red table grapes, especially in warm-climate regions, presents significant challenges due to high temperatures that inhibit anthocyanin biosynthesis. Conventional methods to enhance grape coloration, including the use of abscisic acid (ABA), ethephon, foliar nutrient supplementation, and viticultural practices like cluster trimming and girdling, have limitations related to cost, regulatory restrictions, and potential adverse effects on grapes quality. This study proposes the application of tsikoudia, a traditional Greek alcoholic beverage, as a novel, sustainable, and cost-effective alternative to conventional practices. Tsikoudia, applied during the veraison stage, significantly improved the coloration of 'Crimson Seedless' and 'Red Globe' grapes by enhancing anthocyanin accumulation and altering color parameters. Specifically, lightness (L*), chroma (C*), and hue angle (h), measured using the CIE-Lab color system, were reduced, while the Color Index for Red Grapes (CIRG) was increased. Additionally, total anthocyanin content, determined through spectrophotometric analysis, also showed an increase. These changes indicate a more intense red coloration. This research highlights the effectiveness of tsikoudia in improving grape coloration and contributes to the development of more sustainable viticultural practices. [ABSTRACT FROM AUTHOR]

Published

2024

12. Exploring the Interplay of Bud Load and Pruning Type in Shaping 'Xinomavro' (Vitis vinifera L.) Vine Growth, Yield, and Berry Composition.

Author

Theocharis, Serafeim, Gkrimpizis, Theodoros, Karadimou, Christina, Nikolaou, Kleopatra-Eleni, Koundouras, Stefanos, and Taskos, Dimitrios

Subjects

GRAPES, GRAPE yields, VITIS vinifera, GRAPE quality, FARMERS, PRUNING, BERRIES

Abstract

'Xinomavro' (V. vinifera L.) is an important native red wine grape variety in Northern Greece, particularly in PDO (protected designation of origin) regions. Despite its significance, there is limited research on the effects of pruning type and severity on 'Xinomavro' vine physiology, yield, and berry quality across diverse environmental conditions. This study aimed to address this knowledge gap and provide growers with crucial information for optimizing vineyard management practices. The study was conducted over two consecutive years (2016 and 2017) in a vineyard in Thessaloniki, Northern Greece. Four treatments (B12: 12 buds on 6 spurs, B24: 24 buds on 12 spurs, M12: 12 buds on 2 canes, and M24: 24 buds on 4 canes) combining two bud load levels (12 or 24 count nodes) and two pruning types (short spurs or long canes) were applied to 'Xinomavro' vines in a complete block randomized design. The vine water status, gas exchange, canopy characteristics, yield components, and berry composition were measured. Bud load and pruning type significantly influenced vine canopy development, microclimate, and yield components. Short pruning with high bud load (B24) resulted in denser canopies and higher yields, whereas cane pruning (M12 and M24) led to more open canopies and improved berry quality indicators. Treatment effects on berry composition were inconsistent across years but showed a tendency for higher anthocyanin and total phenol content in cane-pruned vines. This study demonstrates that pruning type (short or long fruiting units) may have a greater impact on vine growth, yield, and berry composition than bud load alone in 'Xinomavro' vines. Cane pruning appears to be a more effective strategy for achieving vine balance and potentially improving grape quality under given experimental conditions. [ABSTRACT FROM AUTHOR]

Published

2024

13. Special Issue: 'Advanced Studies in Maintaining Post-Harvest Quality of Fruits and Vegetables'.

Author

Hu, Wenzhong

Subjects

ENZYMATIC browning, CONTROLLED atmosphere packaging, GRAPE quality, FRUIT growing, MACHINE learning, STRAWBERRIES, AVOCADO, MANGO, HORTICULTURAL products

Abstract

The document "Special Issue: 'Advanced Studies in Maintaining Post-Harvest Quality of Fruits and Vegetables'" published in the journal Horticulturae focuses on new preservation technologies to enhance the quality, safety, and shelf life of fruits and vegetables. It includes articles on physical and chemical preservation technologies, preharvest treatment technologies, and other innovative methods. The research presented in this special issue aims to improve communication and collaboration in the field of horticultural post-harvest preservation technology, benefiting the horticultural industry's healthy development. [Extracted from the article]

Published

2024

14. A Machine Learning Pipeline for Predicting Pinot Noir Wine Quality from Viticulture Data: Development and Implementation.

Author

Kulasiri, Don, Somin, Sarawoot, and Kumara Pathirannahalage, Samantha

Subjects

WEB-based user interfaces, GRAPE juice, GRAPE quality, FARMERS, FACTORS of production, VITICULTURE, PINOT noir

Abstract

The quality of wine depends upon the quality of the grapes, which, in turn, are affected by different viticulture aspects and the climate during the grape-growing season. Obtaining wine professionals' judgments of the intrinsic qualities of selected wine products is a time-consuming task. It is also expensive. Instead of waiting for the wine to be produced, it is better to have an idea of the quality before harvesting, so that wine growers and wine manufacturers can use high-quality grapes. The main aim of the present study was to investigate the use of machine learning aspects in predicting Pinot Noir wine quality and to develop a pipeline which represents the major steps from vineyards to wine quality indices. This study is specifically related to Pinot Noir wines based on experiments conducted in vineyards and grapes produced from those vineyards. Climate factors and other wine production factors affect the wine quality, but our emphasis was to relate viticulture parameters to grape composition and then relate the chemical composition to quality as measured by the experts. This pipeline outputs the predicted yield, values for basic parameters of grape juice composition, values for basic parameters of the wine composition, and quality. We also found that the yield could be predicted because of input data related to the characteristics of the vineyards. Finally, through the creation of a web-based application, we investigated the balance of berry yield and wine quality. Using these tools further developed, vineyard owners should be able to predict the quality of the wine they intend to produce from their vineyards before the grapes are even harvested. [ABSTRACT FROM AUTHOR]

Published

2024

15. Dynamics of Energy Fluxes in a Mediterranean Vineyard: Influence of Soil Moisture.

Author

Egipto, Ricardo, Aquino, Arturo, and Andújar, José Manuel

Subjects

EDDY flux, GRAPE quality, WATER use, MEDITERRANEAN climate, WATER management, BERRIES

Abstract

Accurate evaluation of grapevine water use is essential for optimizing water management and maximizing grapevine yield and berry quality in Mediterranean climates. Understanding the water and heat flux dynamics in a vineyard during grapevine berry maturation is of utmost importance. This study focuses on evaluating sensible and latent energy fluxes at the canopy, the soil beneath the canopy, and the interrow areas. The primary objective is to develop a model framework for accurately estimating these energy fluxes, contributing to a better understanding of their behavior during berry ripening. The model's accuracy was assessed by comparing the estimated fluxes with those measured by an eddy-covariance system installed at a reference height of three meters in the experimental vineyard. This validation step was essential to confirm the model's ability to capture the intricate energy flux dynamics of the vineyard, especially during grape maturation. The results revealed a high level of agreement between the observed and estimated fluxes, confirming the model's reliability. This comprehensive evaluation of energy fluxes provides valuable insights for optimizing irrigation strategies. By doing so, this study contributes to improving grape quality, ensuring sustainable water resource use, and ultimately enhancing vineyard productivity in arid and water-scarce regions. [ABSTRACT FROM AUTHOR]

Published

2024

16. 2 株贝莱斯芽孢杆菌在上海葡萄上的应用.

Author

张岳峰

Subjects

*ORGANIC fertilizers, *GRAPE quality, *ORGANIC gardening, *FRUIT quality, *BACILLUS (Bacteria), *MICROBIAL inoculants

Abstract

To explore the effects of two strains of Bacillus spp. combined with organic fertilizer on the growth and fruit of sunshine rose, and to further expand the application range of microbial fertilizer on grapes. In November 2020, two strains of Bacillus velezensis YH-18 and B. velezensis YH-20 were applied to the sunshine rose grapes planted in Fengxian District of Shanghai. Two kinds of microbial liquid inoculants were applied to the grape planting soil, diluted and mixed according to the ratio of bacterial liquid : water = 1 : 2, and then poured into the pesticide applicator. The bacterial liquid was directly sprayed on the applied organic fertilizer in the garden by spraying, and the soil was covered in time after application. In March 2021, the in situ reapplication was carried out.30 days after the first application, the chlorophyll content of grape leaves in the YH-18 and YH-20 treatment groups increased by 10.12% and 3.26% compared with the control; the leaf thickness increased by 22.16% and 10.80% compared with the control; the leaf area increased by 23.92% and 19.87% compared with the control. After two times of application, the ear weight ratio of grapes in the YH-18 and YH-20 treatment groups increased by 19.55% and 16.19% compared with the control; the longitudinal diameter of single fruit increased by 3.15% and 3.76% compared with the control; the fruit shape index was improved. The soluble solids content of grapes in the YH-18 and YH-20 treatment groups increased by 22.08% and 13.58% compared with the control; the titratable acid content of grapes in the YH-18 treatment group increased by 21.05% compared with the control;the water content of grapes decreased by 2.18% and 1.96% compared with the control;the hardness of grapes in the YH-18 treatment group increased by 20.9% compared with the control. The application of YH-18 and YH-20 microbial inoculants on the basis of organic fertilizer in the garden significantly improved the growth of grapes and improved the quality of fruits, which is suitable for widespread promotion in grape plantations. [ABSTRACT FROM AUTHOR]

Published

2024

17. Exploring the Impact of Viticultural and Winemaking Factors on Amino Acids and Biogenic Amines in Wine: A Comprehensive Review.

Author

Aliaño–González, María José and Cantos–Villar, Emma

Subjects

*BIOGENIC amines, *GRAPES, *GRAPE growing, *GRAPE quality, *AMINO acids

Abstract

The current review provides a thorough examination of the intricate interplay between viticultural and winemaking factors and their influence on the levels of amino acids and biogenic amines in grapes and wine. The study encompasses a comprehensive analysis of diverse viticultural practices, including the influence of grape variety, ripeness, climate, and terroir among others. Furthermore, the review scrutinizes the impact of various winemaking factors on the accumulation of amino acids and biogenic amines. These factors encompass a range of variables, including maceration techniques and must conditions as well as sulfur dioxide application, and aging and storage conditions. By considering these factors, the review aims to provide a holistic understanding of the complex dynamics governing the formation and concentration of amino acids and biogenic amines throughout the grape – growing and winemaking processes. The findings underscore the importance of viticultural and winemaking decisions in shaping the aromatic and sensory profile and safety of wines, emphasizing the need for a nuanced approach to grape cultivation and wine production. Additionally, the review explores potential future research directions and implications for oenology practices, paving the way for advancements in optimizing grape and wine quality while maintaining a focus on safety – related aspects associated with biogenic amines. [ABSTRACT FROM AUTHOR]

Published

2024

18. The Transcriptional Landscape of Berry Skin in Red and White PIWI ("Pilzwiderstandsfähig") Grapevines Possessing QTLs for Partial Resistance to Downy and Powdery Mildews.

Author

Scariolo, Francesco, Gabelli, Giovanni, Magon, Gabriele, Palumbo, Fabio, Pirrello, Carlotta, Farinati, Silvia, Curioni, Andrea, Devillars, Aurélien, Lucchin, Margherita, Barcaccia, Gianni, and Vannozzi, Alessandro

Subjects

GENE expression, VITIS vinifera, DOWNY mildew diseases, GRAPE quality, GENE regulatory networks, POWDERY mildew diseases

Abstract

PIWI, from the German word Pilzwiderstandsfähig, meaning "fungus-resistant", refers to grapevine cultivars bred for resistance to fungal pathogens such as Erysiphe necator (the causal agent of powdery mildew) and Plasmopara viticola (the causal agent of downy mildew), two major diseases in viticulture. These varieties are typically developed through traditional breeding, often crossbreeding European Vitis vinifera with American or Asian species that carry natural disease resistance. This study investigates the transcriptional profiles of exocarp tissues in mature berries from four PIWI grapevine varieties compared to their elite parental counterparts using RNA-seq analysis. We performed RNA-seq on four PIWI varieties (two red and two white) and their noble parents to identify differential gene expression patterns. Comprehensive analyses, including Differential Gene Expression (DEGs), Gene Set Enrichment Analysis (GSEA), Weighted Gene Co-expression Network Analysis (WGCNA), and tau analysis, revealed distinct gene clusters and individual genes characterizing the transcriptional landscape of PIWI varieties. Differentially expressed genes indicated significant changes in pathways related to organic acid metabolism and membrane transport, potentially contributing to enhanced resilience. WGCNA and k-means clustering highlighted co-expression modules linked to PIWI genotypes and their unique tolerance profiles. Tau analysis identified genes uniquely expressed in specific genotypes, with several already known for their defense roles. These findings offer insights into the molecular mechanisms underlying grapevine resistance and suggest promising avenues for breeding strategies to enhance disease resistance and overall grape quality in viticulture. [ABSTRACT FROM AUTHOR]

Published

2024

19. The Wine Quality of Merlot Relies in Irrigation Supplementation and Spotlights Sustainable Production Constraints in Mediterranean‐Type Ecosystems.

Author

Ribalta-Pizarro, Camila, Muñoz, Paula, Munné-Bosch, Sergi, and Wilkinson, Kerry

Subjects

*SUSTAINABILITY, *GRAPE quality, *WATER management, *WATER shortages, *MEDITERRANEAN climate, *VINEYARDS

Abstract

Background and Aims. The Mediterranean climate has been traditionally favorable for winemaking and irrigation practice has been historically avoided and even forbidden, but current productive scenarios are suffering radical changes because of global warming. Therefore, seeking sustainable approaches to improve water availability is key to obtaining high‐quality wines and maintain its style, without affecting yields. Methods and Results. Here, we aim to evaluate the effect of irrigation in Merlot vineyards, on grapes production and quality, and also on wine acceptability. Field‐grown grapevines from cv. "Merlot" were subjected to two different water supplies in the field: (i) nonirrigated plants and (ii) irrigated plants with 50% of crop evapotranspiration, from veraison to commercial harvest. We assessed water stress markers such as leaf relative water content, leaf hydration, and the maximum efficiency of photosystem II photochemistry, as well as grape and wine quality parameters, wine acceptability, and preference with a panel composed of 100 participants. Furthermore, we performed a systematic review study for comparison, including 9 published reports on Merlot grapevines subjected to different water regimes, oriented to improve irrigation decisions, yield, and/or quality. Results showed that half water supply on grapevines not only induced an increase in the volume and weight of grapes, but the resulting wines had a lower total acidity and showed more desirable chromatic properties, increasing colour intensity and hue, and decreasing brightness. Sensory analysis revealed that 63% of the untrained panel preferred wines from the irrigation treatment. Integrating previously reported data, it is observed that water scarcity is favorable for quality only when compared with fully irrigated vineyards. Conclusions. It is concluded that a half irrigation can be enough to improve grape quality under Mediterranean conditions, without affecting yield components and enhancing sensory characteristics that can improve wine acceptance by consumers. Water management approaches to sustainably provide this extra amount of water to irrigate field‐grown grapevines under the current context of climate change are discussed. Significance of the Study. The present study's findings provide valuable information regarding water management in Mediterranean vineyards and its effects on the suitability of these areas to maintain high‐quality wine production. [ABSTRACT FROM AUTHOR]

Published

2024

20. The molecular basis of flavonoid biosynthesis response to water, light, and temperature in grape berries.

Author

Tianci Shi, Yue Su, Yibin Lan, Changqing Duan, and Keji Yu

Subjects

FLAVONOIDS, MOLECULAR biology, FLAVONOLS, PROANTHOCYANIDINS, GRAPE quality

Abstract

Flavonoids, including proanthocyanidins (PAs), anthocyanins and flavonols are essential secondary metabolites that contribute to the nutritional value and sensory quality of grape berry and red wine. Advances in molecular biology technology have led to substantial progress in understanding the regulation of flavonoid biosynthesis. The influence of terroir on grape berries and wine has garnered increasing attention, yet its comprehensive regulatory network remains underexplored. In terms of application, environmental factors such as water, light, and temperature are more easily regulated in grapevines compared to soil conditions. Therefore, we summarize their effects on flavonoid content and composition, constructing a network that links environmental factors, hormones, and metabolites to provide a deeper understanding of the underlying mechanisms. This review enriches the knowledge of the regulatory network mechanisms governing flavonoid responses to environmental factors in grapes. [ABSTRACT FROM AUTHOR]

Published

2024

21. Transcriptome analysis reveals the promoting effects of exogenous melatonin on the selenium uptake in grape under selenium stress.

Author

Jin Wang, Yuhang Lu, Shanshan Xing, Jinman Yang, Lei Liu, Kewen Huang, Dong Liang, Hui Xia, Xiaoli Zhang, Xiulan Lv, and Lijin Lin

Subjects

HORTICULTURAL crops, PHOTOSYNTHETIC pigments, GRAPE quality, CROP growth, SUPEROXIDE dismutase, METALLOTHIONEIN, PLANT hormones

Abstract

Introduction: Exogenous melatonin (MT) can promote horticultural crops growth under stress conditions. Methods: In this study, the effects of exogenous MT on the accumulation of selenium (Se) in grape were studied under Se stress. Results and discussion: Under Se stress, exogenous MT increased the biomass, content of photosynthetic pigments and antioxidant enzyme activity of grapevines. Compared with Se treatment, MT increased the root biomass, shoot biomass, chlorophyll a content, chlorophyll b content, carotenoids, superoxide dismutase activity, and peroxidase activity by 18.11%, 7.71%, 25.70%, 25.00%, 25.93%, 5.73%, and 9.41%, respectively. Additionally, MT increased the contents of gibberellin, auxin, and MT in grapevines under Se stress, while it decreased the content of abscisic acid. MT increased the contents of total Se, organic Se and inorganic Se in grapevines. Compared with Se treatment, MT increased the contents of total Se in the roots and shoots by 48.82% and 135.66%, respectively. A transcriptome sequencing analysis revealed that MT primarily regulated the cellular, metabolic, and bioregulatory processes of grapevine under Se stress, and the differentially expressed genes (DEGs) were primarily enriched in pathways, such as aminoacyl-tRNA biosynthesis, spliceosome, and flavonoid biosynthesis. These involved nine DEGs and nine metabolic pathways in total. Moreover, a field experiment showed that MT increased the content of Se in grapes and improved their quality. Therefore, MT can alleviate the stress of Se in grapevines and promote their growth and the accumulation of Se. [ABSTRACT FROM AUTHOR]

Published

2024

22. MRI and HR-MAS NMR spectroscopy to correlate structural characteristics and the metabolome of Fiano and Pallagrello grapes with the action of field spray preparation 500 and the soil spatial microvariability.

Author

Mazzei, Pierluigi, Sica, Andrea, Migliaro, Claudio, Altieri, Gessica, Funicello, Nicola, De Pasquale, Salvatore, Piccolo, Alessandro, and Celano, Giuseppe

Subjects

ELECTRIC conductivity of soils, SUSTAINABILITY, GRAPE quality, DIFFUSION coefficients, NUCLEAR magnetic resonance spectroscopy

Abstract

Background: A number of Italian grape berry varieties, such as Fiano (F) and Pallagrello Nero (P), represent National strategic products. Therefore, it is important to identify soil conditions emphasizing their peculiar characteristics as well as find innovative and sustainable treatments improving their compositional and nutraceutical quality. The field spray preparation 500 is a biodynamic product that is presumed to serve as biostimulant on the vine. However, so far, the scientific results probing its effectiveness are still lacking. Moreover, it is necessary to establish a reliable relationship between the grape quality and the spatial microvariability of the vineyard's soil. On this basis, the main objective of this work consisted in correlating structural and morphological characteristics (via MRI), the primary metabolome (via semi-solid state HRMAS NMR) and important nutraceutical parameters (total phenols and antioxidants via DPPH assay) of F and P grapes with both the action of preparation 500 biostimulant and the vineyard soil microvariability, based on soil apparent electrical conductivity. Results: HRMAS enabled the identification of the primary metabolome of F and P. The elaboration of 1H NMR spectra through chemometrics revealed significant changes in F and P grapes, accounting for both soil microvariability and the application of field spray (the latter also confirmed by PLS-DA and Heat-map clustering). Interestingly, for both F and P it was observed a significantly lower content of carbohydrates after biostimulant treatment while MRI revealed diagnostic structural and internal details of intact grapes. The combined use of proton parametric indices, such as relaxation times and diffusion coefficients, indicated alterations induced in grapes by both the spatial microvariability of the soil and the effects of investigated biostimulant. Interestingly, a tight correlation was found between MRI transverse relaxation time and the contents in total phenols and antioxidants. Conclusions: Our results have proven that both soil spatial microvariability and the application of field spray preparation 500 significantly affect the structural, metabolomic and nutraceutical characteristics of grapes. Moreover, the preparation 500 treatment has increased the nutraceutical value of grapes. Importantly, these data may be potentially used to promote and protect biodynamic grape and predict the quality of the resulting wines. [ABSTRACT FROM AUTHOR]

Published

2024

23. Effects of Different Water Stress Levels, Heterogeneity, and Location on Berry Phytochemical Properties in an Organic and Conventional Vineyard (Vitis vinifera cv. Cabernet-Sauvignon).

Author

BAHAR, Elman, KORKUTAL, İlknur, and UZUN, Müge

Abstract

Copyright of Journal of Agriculture & Nature / Kahramanmaraş Sütçü İmam Üniversitesi Tarım & Doğa Dergisi is the property of Kahramanmaras Sutcu Imam Universitesi and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

24. Yield Performance and Quality Assessment of Brazilian Hybrid Grapes Influenced by Rootstocks and Training Systems.

Author

Domingues Neto, Francisco José, Tecchio, Marco Antonio, Borges, Cristine Vanz, Rodrigues, João Domingos, Ono, Elizabeth Orika, Lima, Giuseppina Pace Pereira, Moura, Mara Fernandes, Hernandes, José Luiz, Silva, Marcelo de Souza, and Leonel, Magali

Subjects

WATER efficiency, GRAPE quality, FRUIT quality, PHOTOSYNTHETIC rates, PHENOLS, GRAPES

Abstract

The choice of training system impacts the architecture and physiological characteristics of grapevines, affecting grape production and quality. Continuous studies are necessary to optimize viticulture production in Brazil. This study aimed to evaluate the effects of rootstocks and different training systems on the production and quality of 'IAC 138-22 Máximo' and 'BRS Violeta' grapevines for juice and wine. The experiment was conducted over two productive cycles (2019/2020 and 2020/2021) in an experimental vineyard at the Advanced Center for Fruit Research as part of the Agronomic Institute (IAC), in Jundiaí, São Paulo, Brazil (23°06′ S, 46°55′ W, and 745 m altitude). For each cultivar, a randomized block design in a 2 × 2 factorial scheme was used, with two rootstocks ('IAC 766 Campinas' and 106-8 'Mgt') and two training systems (low and high trellises), with five blocks of three plants per experimental plot. In both cycles, the gas exchange and grapevine production, the chemical characteristics of the grape juice (must), and the chemical compounds in the berry skins were evaluated. The rootstocks and training systems influenced the variables evaluated in both cultivars, with the high trellis system providing the best results. This approach increased the photosynthetic rate, improved water-use efficiency, elevated grapevine production, and enhanced fruit quality. Therefore, its use is recommended for training grapevines. Regarding rootstocks, the best scion–rootstock affinity was found between hybrid grapevines and 'IAC 766 Campinas'. [ABSTRACT FROM AUTHOR]

Published

2024

25. Sulphur dioxide sheet and cold storage synergy for post-harvest management of Thompson seedless grapes (Vitis vinifera).

Author

Mahajan, Komal and Chudasama, Mehul

Subjects

VITIS vinifera, COLD storage, SULFUR dioxide, GRAPE quality, GRAPE harvesting, ANTHOCYANINS, GRAPES

Abstract

Purpose: This study examined the influence of various storage conditions on Thompson seedless (Vitis vinifera) grapes quality. Research method: Grapes were stored under four conditions: control (room temperature i.e., 20-22°C, no SO2), T1 with SO2 sheets at room temperature i.e., 20-22°C, T2 with SO2 sheets in cold storage at 1°C and T3 without SO2 sheets in cold storage at 1°C. Changes in acidity, total soluble solids (TSS), total anthocyanin content, total phenols, sugars (glucose and fructose), transresveratrol, decay %, weight loss % and antioxidant activity were monitored over 60 days. Findings: The findings revealed a synergistic effect between SO2 and cold storage. Grapes stored with both SO2 sheets and cold storage (T1) exhibited the slowest decline in anthocyanin, phenols and antioxidant activity of 211.06 mg/L, 2102.39 mg/L and 7.19 mM DPPH, respectively after 60 days. T1 grapes found to have slower reduction in sugars and transresveratrol concentration i.e., 15.47 to 15.37 g/100mL and 695 to 516 µg/g, respectively compared to control samples 15.47 to 14.81 g/100mL and 695 to 500 µg/g, respectively. Research limitations: The study focused solely on storage conditions of Thompson seedless variety grapes, limiting the generalizability of the findings to different grape varieties and maturity levels. Originality/value: These results highlighted the importance of proper storage techniques, particularly the combined use of SO2 and cold storage, for maintaining grape quality and extending shelf life. [ABSTRACT FROM AUTHOR]

Published

2024

26. Pesticides and winemaking: A comprehensive review of conventional and emerging approaches.

Author

Martín‐García, Beatriz, Longo, Edoardo, Ceci, Adriana Teresa, Pii, Youry, Romero‐González, Roberto, Garrido Frenich, Antonia, and Boselli, Emanuele

Subjects

PESTICIDE residues in food, FERMENTATION, PESTICIDE pollution, GRAPE quality, GRAPES, PESTICIDES, BIOPESTICIDES

Abstract

The use of pesticides in viticulture may play a crucial role in ensuring the health and quality of grapes. This review analyzes the most common pesticides used, illustrating their classification and toxicity, and their variations throughout the winemaking process. Fungicides are generally harmless or mildly toxic, whereas insecticides are classified as either highly or moderately hazardous. Potential alternatives to synthetic pesticides in wine production are also reviewed, thereby including biopesticides and biological agents. Analytical methods for detecting and quantifying pesticide residues in wine are then described, including liquid chromatography and gas chromatography coupled with mass spectrometry. This review also discusses the impact of the winemaking process on pesticide content. Pesticides with strong hydrophobicity were more likely to accumulate in solid byproducts, whereas hydrophilic pesticides were distributed more in the liquid phase. Grape's skin contains lipids, so hydrophobic pesticides adsorb strongly on grape surfaces and the clarification has been shown to be effective in the reduction of hydrophobic compounds. Therefore, the final wine could have more quantities of hydrophilic pesticides. Alcoholic fermentation has been shown to be crucial in pesticide dissipation. However, pesticide residues in wine have been shown an antagonistic effect on yeasts, affecting the safety and quality of wine products. Therefore, proteomic and genomic analyses of yeast growth are reviewed to understand the effects of pesticides on yeast during fermentation. The last section describes new effective methods used in removing pesticides from grapes and wine, thereby improving product quality and reducing harmful effects. [ABSTRACT FROM AUTHOR]

Published

2024

27. Anti-Hail Nets in Viticulture: Do They Affect White Grape Quality in the Mediterranean Region?

Author

Domanda, Corrado, Blanco, Ileana, Buccolieri, Riccardo, and Rustioni, Laura

Subjects

COLOR space, PHOTOSYNTHETIC pigments, GRAPE quality, GRAPE growing, HUMAN skin color

Abstract

Anti-hail nets have been employed in viticulture to reduce the damage caused by hailstorms, but whether this strategy may have detrimental effects on grape quality in the Mediterranean region is still unknown. This study was carried out in the Salento region during the 2023 harvest to evaluate the grape microclimate and fruit quality attributes of 'Fiano' white grapes grown uncovered or covered with either crystal or black nets. The nets had a small but significant effect on the air temperature (about 0.3 °C and 0.1 °C higher with black and crystal nets, respectively) and relative humidity (about 1% lower with both black and crystal nets) in the grape zone. However, no significant variation was recorded for grape colouration (except for the chromaticity coordinate a*) nor for the main skin photosynthetic pigments (chlorophyll a, chlorophyll b, carotenoids), the total polyphenolic content, and the total soluble solids. Our preliminary results suggest that anti-hail nets can be effective to protect the grapevines against hailstorms and other adverse weather conditions, without having negative impacts on the colour development and bioactive compounds of white grapes in the Mediterranean region. [ABSTRACT FROM AUTHOR]

Published

2024

28. The influence of different methods of under-vine management on the structure of vegetation and the qualitative parameters of the grapes in the Moravian wine region.

Author

Kopta, Tomáš, Ragasová, Lucia Nedorost, Sotolář, Radek, Sedláček, Jozef, Ferby, Vojtěch, Hurajová, Erika, and Winkler, Jan

Subjects

*GRAPE quality, *GROUND cover plants, *GRAPE yields, *CHEMICAL composition of plants, *SOIL management

Abstract

The present article explores the importance of vineyard soil management. Studies on under-vine management have yielded a wide range of results, with some indicating potential benefits for vine growth and productivity. However, the methods of under-vine management and their specific effects on vineyard parameters require further research. The aim of this study is to evaluate the relationships existing between the different types of management of under-vine areas and the vegetation grown in this zone and to determine the effects of under-vine management on the yield and quality of Traminer grapevines. By examining various approaches, the research aims to provide insights into the optimising of vineyard management methods to achieve enhanced biodiversity and grape quality in this specific geographical context. The findings indicated that management of the under-vine area can impact the composition of plants, grape yield and quality. Under-row management had an effect on the number of plant species and their composition. The highest weight of bunches was found in MIX (a species from the Fabaceae family), while the lowest was found in the MECH treatment (bare soil). MULCH, MONO and MIX consistently had higher yeast assimilable nitrogen (YAN) in grapes than other treatments. In many of the evaluated parameters, the influence of the seasons was evident. [ABSTRACT FROM AUTHOR]

Published

2024

29. Histological and transcriptomic insights into the interaction between grapevine and Colletotrichum viniferum.

Author

Mengru Dou, Yuhang Li, Yu Hao, Kangzhuang Zhang, Xiao Yin, Zinuo Feng, Xi Xu, Qi Zhang, Wenwu Bao, Xi Chen, Guotian Liu, Yuejin Wang, Ling Tian, and Yan Xu

Subjects

PLANT genes, REACTIVE oxygen species, GRAPE quality, SECONDARY metabolism, DISEASE resistance of plants, NICOTIANA benthamiana

Abstract

Introduction: Grape is of high economic value. Colletotrichum viniferum, a pathogen causing grape ripe rot and leaf spot, threatens grape production and quality. Methods: This study investigates the interplay between C. viniferum by Cytological study and transcriptome sequencing. Results: Different grapevine germplasms, V. vinifera cv. Thompson Seedless (TS), V. labrusca accession Beaumont (B) and V. piasezkii Liuba-8 (LB-8) were classified as highly sensitive, moderate resistant and resistant to C. viniferum, respectively. Cytological study analysis reveals distinct differences between susceptible and resistant grapes post-inoculation, including faster pathogen development, longer germination tubes, normal appressoria of C. viniferum and absence of white secretions in the susceptible host grapevine. To understand the pathogenic mechanisms of C. viniferum, transcriptome sequencing was performed on the susceptible grapevine "TS" identifying 236 differentially expressed C. viniferum genes. These included 56 effectors, 36 carbohydrate genes, 5 P450 genes, and 10 genes involved in secondary metabolism. Fungal effectors are known as pivotal pathogenic factors that modulate plant immunity and affect disease development. Agrobacterium-mediated transient transformation in Nicotiana benthamiana screened 10 effectors (CvA13877, CvA01508, CvA05621, CvA00229, CvA07043, CvA05569, CvA12648, CvA02698, CvA14071 and CvA10999) that inhibited INF1 (infestans 1, P. infestans PAMP elicitor) induced cell death and 2 effectors (CvA02641 and CvA11478) that induced cell death. Additionally, transcriptome analysis of "TS" in response to C. viniferum identified differentially expressed grape genes related to plant hormone signaling (TGA, PR1, ETR, and ERF1/2), resveratrol biosynthesis genes (STS), phenylpropanoid biosynthesis genes (PAL and COMT), photosynthetic antenna proteins (Lhca and Lhcb), transcription factors (WRKY, NAC, MYB, ERF, GATA, bHLH and SBP), ROS (reactive oxygen species) clearance genes (CAT, GSH, POD and SOD), and disease-related genes (LRR, RPS2 and GST). [ABSTRACT FROM AUTHOR]

Published

2024

30. A lightweight and efficient model for grape bunch detection and biophysical anomaly assessment in complex environments based on YOLOv8s.

Author

Wenji Yang and Xiaoying Qiu

Subjects

OBJECT recognition (Computer vision), FEATURE extraction, COMPUTATIONAL complexity, NUTRITIONAL value, GRAPE quality

Abstract

As one of the most important economic crops, grapes have attracted considerable attention due to their high yield, rich nutritional value, and various health benefits. Identifying grape bunches is crucial for maintaining the quality and quantity of grapes, as well as managing pests and diseases. In recent years, the combination of automated equipment with object detection technology has been instrumental in achieving this. However, existing lightweight object detection algorithms often sacrifice detection precision for processing speed, which may pose obstacles in practical applications. Therefore, this thesis proposes a lightweight detection method named YOLOv8s-grape, which incorporates several effective improvement points, including modified efficient channel attention (MECA), slim-neck, new spatial pyramid pooling fast (NSPPF), dynamic upsampler (DySample), and intersection over union with minimum point distance (MPDIoU). In the proposed method, MECA and NSPPF enhance the feature extraction capability of the backbone, enabling it to better capture crucial information. Slim-neck reduces redundant features, lowers computational complexity, and effectively reuses shallow features to obtain more detailed information, further improving detection precision. DySample achieves excellent performance while maintaining lower computational costs, thus demonstrating high practicality and rapid detection capability. MPDIoU enhances detection precision through faster convergence and more precise regression results. Experimental results show that compared to other methods, this approach performs better in the grapevine bunch detection dataset and grapevine bunch condition detection dataset, with mean average precision (mAP50-95) increasing by 2.4% and 2.6% compared to YOLOv8s, respectively. Meanwhile, the computational complexity and parameters of the method are also reduced, with a decrease of 2.3 Giga floating-point operations per second and 1.5 million parameters. Therefore, it can be concluded that the proposed method, which integrates these improvements, achieves lightweight and highprecision detection, demonstrating its effectiveness in identifying grape bunches and assessing biophysical anomalies. [ABSTRACT FROM AUTHOR]

Published

2024

31. Foliar Co-Applications of Nitrogen and Iron on Vines at Different Developmental Stages Impacts Wine Grape (Vitis vinifera L.) Composition.

Author

Fu, Xiaoke, Chen, Xi, Chen, Yiwen, Hui, Yueran, Wang, Rui, and Wang, Yaqi

Subjects

GRAPES, NITROGEN fertilizers, GRAPE quality, FLAVONOIDS, NUTRITIONAL value, VITIS vinifera, BERRIES

Abstract

The co-application of N and Fe can improve wine grape composition and promote the formation of flavor compounds. To understand the effects of foliar co-application of N and Fe on wine grape quality and flavonoid content, urea and EDTA-FE were sprayed at three different developmental stages. Urea and EDTA-Fe were sprayed during the early stage of the expansion period, at the end of the early stage of the expansion period to the late stage of the veraison period, and during the late stage of the veraison period. The results demonstrated that the co-application of urea and EDTA-Fe, particularly N application during the late stage of the veraison period and Fe application during the early stage of the berry expansion period (N3Fe1), significantly improved grape quality. Specifically, the soluble solid content of berries increased by 2.78–19.13%, titratable acidity decreased by 6.67–18.84%, the sugar-acid ratio became more balanced, and yield increased by 13.08–40.71%. Further, there was a significant increase in the relative content of amino acids and flavonoids. In conclusion, the application of Fe and N fertilizers at the pre-expansion and late veraison stages of grapes can significantly improve the quality and yield of berries; ultimately, this establishes a foundation for future improvement in the nutritional value of grapes and wine. [ABSTRACT FROM AUTHOR]

Published

2024

32. Evaluation of soil nutrients and berry quality characteristics of Cabernet Gernischet (Vitis vinifera L.) vineyards in the eastern foothills of the Helan Mountains, China.

Author

Yashan Li, Qi Li, Yinfang Yan, Weiqiang Liu, Chengdong Xu, Yanjun Wang, Lijun Nan, and Xu Liu

Subjects

PRINCIPAL components analysis, VITIS vinifera, GRAPE quality, CLUSTER analysis (Statistics), QUALITY factor, BERRIES

Abstract

Soil is the basis of the existence of fruit tree and soil nutrients plays a crucial role in plant growth and berry quality. To investigate the characteristics and interrelationships between soil nutrients and berry quality in Cabernet Gernischet vineyards, this study focused on seven representative vineyards in the eastern foothills of the Helan Mountains. Fifteen soil physicochemical factors and 10 berry quality factors were measured, followed by variation analysis, correlation analysis, multiple linear regression (MLR), partial-least squares regression (PLSR), principal component analysis (PCA), and systematic cluster analysis. We identified the main soil nutrient indicators influencing berry quality and developed linear regression equations. Utilizing PCA, a comprehensive evaluation model for berry quality was constructed, which enabled the calculation and ranking of integrated berry quality scores. The results indicated that soil nutrients in the vineyards of the eastern foothills of the Helan Mountains are relatively deficient and alkaline. The coefficient of variation for soil nutrient factors ranged from 3.19 to 118.08% and for berry quality factors 2.41-26.37%. Correlation analysis revealed varying degrees of correlation between soil nutrient indicators and fruit quality indicators. PCA extracted four principal components with a cumulative contribution rate of 91.506%. Based on the scores of these components and their corresponding weights, a comprehensive model for evaluating the quality of Cabernet Gernischet berries was established. The vineyards were ranked from the highest to the lowest combined scores as Zhenbeibu (ZBB), Yuquanying (YQY), Dawukou (DWK), Beihaizi (BHZ), Shuxin (SX), Huangyangtan (HYT), and Hongde (HD). These findings provide insights into soil nutrient management and comprehensive quality assessment of vineyards in the eastern foothills of the Helan Mountains. In conclusion, this study offers a theoretical foundation for vineyard managers to enhance grape berries quality through soil nutrient management. This will aid in the diagnosis of vineyard soil nutrition and the efficient use of fertilizers, with critical practical and theoretical implications for the meticulous management of vineyards and the production of high-quality wines. [ABSTRACT FROM AUTHOR]

Published

2024

33. Impact of the Plant Growth-promoting Rhizobacterium Streptomyces saraceticus Strain 31 on Berry Quality of 'Benifuji' Grape: Improvements through the Reconfiguration of Fine Root Morphology and Vessel Anatomy.

Author

Chuang Ma, Yinghua Li, Shufen Tian, Rong Wang, and Chaoxia Wang

Subjects

*PLANT growth-promoting rhizobacteria, *HYDRAULIC conductivity, *MARITIME shipping, *GRAPE quality, *SOIL profiles

Abstract

In an effort to mitigate the environmental impact of chemical fertilizers, plant growth-promoting rhizobacteria (PGPR) have emerged as a more sustainable alternative. Streptomyces saraceticus 31 ('SS31'), a new strain of biocontrol bacteria, was inoculated into rhizosphere soils of 'Benifuji' grape to evaluate its impact on grape roots and berries. The results indicated significant improvements in soil fertility, with higher levels of organic matter, phosphorus, potassium, and nitrate nitrogen compared with those of the controls. Moreover, 'SS31' application elicited a notable reduction in soil pH levels, along with a substantial augmentation in the enzymatic activities of both phosphatase and invertase. The grapes treated with 'SS31' exhibited a notable increase in the number, length, surface area, and volume of fine roots in both 0- to 10-cm and 10- to 20-cm soil profiles. The application of 'SS31' resulted in the observation of greater diameter, lower density, and larger lumen area, along with increased specific hydraulic conductivity in the vessels of roots with 1- to 2-mm diameters. Despite a slight reduction in berry weight compared with that of the controls, 'Benifuji' grape berries displayed higher total soluble solids and lower total titratable acidity after 'SS31' application. Furthermore, 'SS31' treatment elevated the levels of volatile compounds in berries, especially fatty acid-derived compounds. A network analysis revealed a robust positive correlation between the observed improvements in grape berry quality and the morphology as well as the hydraulic conductivity of the grape fine roots. In conclusion, these findings suggest that 'SS31' has the potential to enhance grape root function by expanding the root absorption area and facilitating water transportation. This, in turn, may improve the flavor and aroma of 'Benifuji' grape berries. [ABSTRACT FROM AUTHOR]

Published

2024

34. Unveiling the transformations in phytochemicals and grape features: a thorough examination of 'Italia' and 'Bronx Seedless' cultivars throughout multiple berry development stages.

Author

Kaya, Ozkan

Subjects

*BERRIES, *GRAPES, *CULTIVARS, *GRAPE harvesting, *AGRICULTURAL productivity, *GRAPE products, *GRAPE quality

Abstract

Understanding the physical and phytochemical characteristics of grape cultivars across different berry development stages is crucial for optimizing grape production and quality in the agricultural and viticultural industries. The study, therefore, investigated the physical characteristics and phytochemical composition of 'Italia' and 'Bronx Seedless' grape cultivars harvested across six distinct periods. In grape cultivars displayed an intriguing journey in terms of resveratrol, ranging from 5.96 mg/kg in Period I to 11.59 mg/kg in Period VI. These vital compounds known for contributing to grape color and potential health benefits showed substantial variation across the grape cultivars and harvest periods. In addition, significant variations in phytochemical compositions were observed between 'Italia' and 'Bronx Seedless' grape cultivars, with 'Italia' generally exhibiting higher concentrations of key compounds such as resveratrol, pterostilbene, anthocyanidins, and flavonoids. The longitudinal analysis across six berry developmental periods highlighted a progressive increase in the concentrations of these phytochemicals in cultivar, indicating a dynamic evolution of grape biochemistry over time. Particularly, delphinidin-3-O-glycoside, cyanidin-3-O-glycoside, and petunidin-3-O-glycoside showed marked increases, indicating significant growth in anthocyanin content from Period I to Period VI. Utilizing PCA biplots and a hierarchical clustering heatmap, the study visually represented the relationships and variances among various phytochemical components. The insights revealed how certain compounds clustered together, suggesting similarities and dissimilarities. The positioning of compounds on these plots indicated their significance in characterizing grape cultivars and their maturation over time. In summary, the data underlined the strong influence of berry development time on phytochemical composition, emphasizing the importance of strategic grape harvesting to attain desired phytochemical profiles for wine or other grape products. The findings provide valuable insights for grape growers, winemakers, and researchers aiming to exploit the full potential of these compounds in grape-based products and for those interested in understanding the dynamics of grape phytochemistry. [ABSTRACT FROM AUTHOR]

Published

2024

35. The Application of Carbon-Based Fertilizer Changed the Microbial Composition and Co-Occurrence Network Topological Properties of Vineyard Soil.

Author

Sun, Ping, Wu, Jiaqi, Lin, Xianrui, Chen, Chenfei, Zhu, Jianxi, Wang, Yi, Zhou, Jian, Wang, Huaxin, Shen, Jiansheng, and Jia, Huijuan

Subjects

FERTILIZER application, TOPOLOGICAL property, SOIL microbiology, SOILS, GRAPE quality, POTASSIUM

Abstract

Charcoal-based fertilizer could be used extensively and is environmentally friendly. An experiment was designed to investigate the effects of different charcoal-based fertilizer application methods on soil microbiology and grape quality in a vineyard to guide the cultivation of 'Shine-Muscat'. A control treatment without fertilization and six other treatments were set up. Four treatments applied carbon-based fertilizer as a base fertilizer with or without potassium fulvic acid, a complex microbial agent, or Bacillus subtilis, and two treatments were only applied with two applications of carbon-based fertilizer or compound fertilizer during the expansion period. The results showed that the bacterial phyla were mainly Proteobacteria and Bacteroidetes. Ascomycota, Basidiomycota, and Mortierellomycota dominated the fungal community. At the genus level, the composition of fungi, compared to bacteria, varied significantly, while the dominant flora differed among fertilization practices. Application of charcoal-based fertilizer enriched beneficial microorganisms, while chemical fertilizers enriched pathogenic microorganisms. The addition of microbial fungicides and biostimulants for a period reduced the size of the microbial network, lowered positive correlations, and enhanced resistance to adverse conditions and diseases and there was no significant correlation between agronomic traits and microbial network topology. A combination of soil microbial and grape agronomic traits suggests that a charcoal-based fertilizer base, with microbial fungicides applied, is the optimal fertilization regimen for grape. [ABSTRACT FROM AUTHOR]

Published

2024

36. 产区和成熟度对'黑比诺'葡萄酿酒品质的影响.

Author

田萌勃, 吴杨鹏, 胡瑞祺, 王军, 赵德升, and 何非

Subjects

VITIS vinifera, WINE districts, GRAPE quality, PRINCIPAL components analysis, DISCRIMINANT analysis, GRAPE harvesting, BERRIES, PINOT noir

Abstract

Copyright of Journal of Chinese Institute of Food Science & Technology / Zhongguo Shipin Xuebao is the property of Journal of Chinese Institute of Food Science & Technology Periodical Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

37. Particle film treatments on ‘Assyrtiko’ grapevines enhance physiology and grape attributes in Santorini Island.

Author

XYRAFIS, Efstratios Guillaume, BINIARI, Katerina, and STAVRAKAKI, Maritina

Subjects

*PLANT physiology, *GRAPE quality, *HEAT waves (Meteorology), *CLIMATE change, *SUSTAINABILITY, *KAOLIN, *BERRIES

Abstract

Like many viticultural regions of the Mediterranean region, Santorini is also affected by climate change. These changing climatic conditions pose challenges to adapt the island’s traditional viticulture practices to the new climatic conditions of climate change, which will intensify in the future, with the use of short- and long- term solutions with a sustainable manner respecting the tradition and the island’s landscape. Viticulture in this region copes with high temperatures, heat waves and drought which affect the maturity process, the technological maturity, as well as the physiology of the grapevine. The aim of this study was to investigate the effects of kaolin and calcium carbonate foliar application on water relations, photosynthesis and berry composition of vines of grape cultivar ‘Assyrtiko’, trained with the traditional training system ‘Kouloura’, under drought conditions and vertical shoot positioned training system in Santorini. The effects of foliar application with kaolin and CaCO3 on vines of grape cultivar ‘Assyrtiko’ were evaluated, focusing on the impact on the vine’s physiology attributes, grape quality, and environmental sustainability. Based on the results of the present study, there were statistically significant differences on vine water stress where the foliar application of inert films reduced water stress during the three studied years. Kaolin and CaCO3 increased significantly the photosynthesis and stomatal conductance of the vines in comparison to the control. Furthermore, the foliar application with inert minerals has reduced sunburn and pest damage. The results of the present study confirm that the application of kaolin and CaCO3 constitutes an effective and economical solution for the water saving of the vines in dry conditions, while at the same time, it can improve the physiology of the plant and preserve the qualitative and quantitative attributes of the grapes. The foliar use of inert particle films on Santorini’s traditional vineyards could consist a sustainable and effective alternative to mitigate the effects of climate change which have intensified over the last decades in the region. [ABSTRACT FROM AUTHOR]

Published

2024

38. Mechanism of improving the quality of table grapes (Vitis. spp.) by exogenous eugenol based on transcriptome.

Author

Jiang, Nan, Wang, Liuqing, Gao, Yuan, Li, Qianqian, Jiang, Dongmei, Yao, Weirong, and Wang, Meng

Subjects

*TABLE grapes, *BERRIES, *EUGENOL, *GRAPE quality, *TRANSCRIPTOMES, *GENE expression, *GRAPES

Abstract

Summary: Grape is widely consumed all over the world for its rich nutritious and health‐promoting effects. While grape berries are prone to quality deterioration after harvest. This study aimed to investigate the effect of eugenol treatment on the quality of grape berries based on the transcriptome. Harvested grape berries were treated with eugenol, and then collected for nutrient component determination and transcriptomics analyses. As a results, treatment with eugenol enhanced the berries firmness, increased the contents of soluble sugars, organic acids and phenolic compounds, improved the antioxidant capacity, and altered gene expression levels of related pathways. Transcriptome analysis revealed 699 differentially expressed genes by 100 mmol L−1 eugenol‐treated berries. Among these DEGs, the transcriptional levels involved in the cell wall, sugar and acid metabolism, phenylpropane metabolism, antioxidant enzymes, and WRKY, MYB family transcription factors were significantly regulated. This study will help to promote the application of eugenol for quality improvements in grape berries. [ABSTRACT FROM AUTHOR]

Published

2024

39. The Arrestin-like Protein palF Contributes to Growth, Sporulation, Spore Germination, Osmolarity, and Pathogenicity of Coniella vitis.

Author

Yin, Xiangtian, Chen, Zihe, Li, Tinggang, Liu, Qibao, Jiang, Xilong, Han, Xing, Wang, Chundong, Wei, Yanfeng, and Yuan, Lifang

Subjects

*RNA interference, *SMALL interfering RNA, *PHYTOPATHOGENIC fungi, *GRAPES, *GRAPE quality

Abstract

Coniella vitis is a dominant phytopathogen of grape white rot in China, significantly impacting grape yield and quality. Previous studies showed that the growth and pathogenicity of C. vitis were affected by the environmental pH. Arrestin-like protein PalF plays a key role in mediating the activation of an intracellular-signaling cascade in response to alkaline ambient. However, it remains unclear whether palF affects the growth, development, and virulence of C. vitis during the sensing of environmental pH changes. In this study, we identified a homologous gene of PalF/Rim8 in C. vitis and constructed CvpalF-silenced strains via RNA interference. CvpalF-silenced strains exhibited impaired fungal growth at neutral/alkaline pH, accompanied by reduced pathogenicity compared to the wild-type (WT) and empty vector control (CK) strains. The distance between the hyphal branches was significantly increased in the CvpalF-silenced strains. Additionally, CvpalF-silenced strains showed increased sensitivity to NaCl, H2O2, and Congo red, and decreased sensitive to CaSO4. RT-qPCR analysis demonstrated that the expression level of genes related to pectinase and cellulase were significantly down-regulated in CvpalF-silenced strains compared to WT and CK strains. Moreover, the expression of PacC, PalA/B/C/F/H/I was directly or indirectly affected by silencing CvpalF. Additionally, the expression of genes related to plant cell wall-degrading enzymes, which are key virulence factors for plant pathogenic fungi, was regulated by CvpalF. Our results indicate the important roles of CvpalF in growth, osmotolerance, and pathogenicity in C. vitis. [ABSTRACT FROM AUTHOR]

Published

2024

40. Investigation of physical, chemical and microbiological quality of grape and mulberry leathers sold in Elazig (In Türkiye).

Author

Demir, Pelin and Patır, Bahri

Subjects

*GRAPE quality, *MULBERRY, *AEROBIC bacteria, *LEATHER, *CITRIC acid, *MANUFACTURING processes, *BLACKBERRIES, *PRODUCTION standards

Abstract

The aim of this study is the determination some quality parameters of grape and mulberry pestils (leathers) sold in Elazig. For this purpose, a total of 45 fruit pestil samples, of which 23 were grape pestils and 22 were mulberry pestils, were analyzed for their physical properties, chemical properties, and microbiological characteristics. In grape and mulberry pestils, the average L* (lightness/darkness) values were 42.72 and 44.81, a* (redness) values were 10.29 and 9.07, and b* (yellow) values were 20.90 and 20.90, respectively. In grape and mulberry fruit pestil samples, the thickness values were 1.62 and 1.34, pH values were 3.82 and 4.75, acidity values (as citric acid) were 0.63 and 0.22%, aw values were 0.602 and 0.627, dry matter values were 68.78% and 72.99 %, ash values were 2.25% and 0.64%, insoluble ash values in 10% HCl were 0.20 and 0.29, and Brix values were 18.83 and 19.36, respectively. TMAB, coliform, Staphylococcus-Micrococcus, and yeast-mold counts were found to be 4.72 and 4.48, 1.30 and 1.89, 2.11 and 2.12, and 2.04 and 2.11 log10 cfu/g, respectively, in all samples examined. In 14 of the samples (31.11%), the total number of mesophilic aerobic microorganisms was found to be >5 log10 cfu/g. Escherichia coli and Salmonella spp. were not found in any of the samples. However, the samples were found to contain significant levels of yeast-mold. There was no difference between the groups in microbiological terms in statistical analysis (P > 0.05). According to the current study, there was no standard production and not enough hygiene rules were observed in the pestil production process in family businesses in Elazig. On the other hand, essential information was obtained on some physical, chemical and microbiological quality parameters of grape and blackberry pulps sold in markets and stores in Elazig. [ABSTRACT FROM AUTHOR]

Published

2024

41. Dynamics of Berry Characteristics, Biochemical Composition, and Physiological Responses Across Ripening Stages: Investigating the Impact of Pollinizer Varieties on Physiological Femaleness in Bozcaada Çavuşu (Vitis vinifera L. cv).

Author

Ates, Fadime, Delavar, Hava, Dardeniz, Alper, Yilmaz, Turhan, Turan, Metin, and Kaya, Ozkan

Subjects

VITIS vinifera, BERRIES, GRAPE quality, ORGANIC acids, GALLIC acid, PHENOLS, SUPEROXIDE dismutase, GRAPES

Abstract

Understanding the dynamic changes in grape characteristics during ripening is crucial for enhancing grape quality, which, in turn, influences overall viticulture practices. This study aimed to investigate the temporal and cultivar-specific variations in grape characteristics, focusing on BAs, phenolic compounds, antioxidant enzymes, and organic acids. Our results revealed that Bozcaada Çavuşu*Kuntra and Kuntra grapes exhibited the most significant growth in size, weight, and maturity index at the final developmental stage (EL-38), while Vasilâki showed a nuanced maturation pattern with significant increases in berry width but not weight. Across all varieties, the highest maturity index and Total Soluble Solids percentages were observed at EL-38. The investigation of BAs revealed a significant decrease in Put levels from 2.62 at EL-32 to 2.04 mg L−1 at EL-38, contrasting with an increasing trend in Agm concentrations from 0.25 at EL-29 to 0.37 mg L−1 at EL-38. Bozcaada Çavuşu*Kuntra stood out with the highest Cad concentration at 2.96 mg L−1. The analysis of phenolic compounds highlighted a distinct temporal pattern for gallic acid, increasing from 1.60 at EL-29 to 3.77 g L−1 at EL-32 and maintaining stability at 3.74 g L−1 at EL-38. Bozcaada Çavuşu*Vasilâki consistently exhibited higher concentrations of phenolic compounds, such as epicatechin (5.69 g L−1) and tyrosol (7.00 g L−1). Antioxidant enzymes like catalase and superoxide dismutase in grape cultivars showed significant temporal variations, indicating a dynamic oxidative stress response during berry ripening. Catalase activity decreased from 14.04 to 11.20 EU/gr berry between EL-29 and EL-38. The multifaceted regulation of superoxide dismutase by sampling time and cultivar highlighted the complexity of antioxidant dynamics in grapevine physiology. In conclusion, this comprehensive study sheds light on the intricate interplay of temporal and cultivar-specific factors influencing grape characteristics, providing valuable insights for optimizing viticulture practices and enhancing overall grape quality. [ABSTRACT FROM AUTHOR]

Published

2024

42. Integrated Transcriptomic and Metabolomic Analysis Revealed Abscisic Acid-Induced Regulation of Monoterpene Biosynthesis in Grape Berries.

Author

Li, Xiangyi, Yan, Yixuan, Wang, Lei, Li, Guanhan, Wu, Yusen, Zhang, Ying, Xu, Lurong, and Wang, Shiping

Subjects

ABSCISIC acid, GENE regulatory networks, GENE expression, GRAPE quality, VOLATILE organic compounds, BERRIES, VITICULTURE

Abstract

Monoterpenes are a class of volatile organic compounds that play crucial roles in imparting floral and fruity aromas to Muscat-type grapes. However, our understanding of the regulatory mechanisms underpinning monoterpene biosynthesis in grapes, particularly following abscisic acid (ABA) treatment, remains elusive. This study aimed to explore the impact of exogenous ABA on monoterpene biosynthesis in Ruiduhongyu grape berries by employing Headspace Solid-Phase Micro-Extraction Gas Chromatography–Mass Spectrometry (HS-SPME/GC–MS) analysis and transcriptome sequencing. The results suggested significant differences in total soluble solids (TSS), pH, and total acid content. ABA treatment resulted in a remarkable increase in endogenous ABA levels, with concentrations declining from veraison to ripening stages. ABA treatment notably enhanced monoterpene concentrations, particularly at the E_L37 and E_L38 stages, elevating the overall floral aroma of grape berries. According to the variable gene expression patterns across four developmental stages in response to ABA treatment, the E_L37 stage had the largest number of differential expressed genes (DEGs), which was correlated with a considerable change in free monoterpenes. Furthermore, functional annotation indicated that the DEGs were significantly enriched in primary and secondary metabolic pathways, underlining the relationship between ABA, sugar accumulation, and monoterpene biosynthesis. ABA treatment upregulated key genes involved in the methylerythritol phosphate (MEP) pathway, enhancing carbon allocation and subsequently impacting terpene synthesis. This study also identified transcription factors, including MYB and AP2/ERF families, potentially modulating monoterpene and aroma-related genes. Weighted gene co-expression network analysis (WGCNA) linked ABA-induced gene expression to monoterpene accumulation, highlighting specific modules enriched with genes associated with monoterpene biosynthesis; one of these modules (darkgreen) contained genes highly correlated with most monoterpenes, emphasizing the role of ABA in enhancing grape quality during berry maturation. Together, these findings provide valuable insights into the multifaceted effects of exogenous ABA on monoterpene compounds and grape berry flavor development, offering potential applications in viticulture and enology. [ABSTRACT FROM AUTHOR]

Published

2024

43. Long-Term Evolution of the Climatic Factors and Its Influence on Grape Quality in Northeastern Romania.

Author

Filimon, Roxana Mihaela, Bunea, Claudiu Ioan, Filimon, Răzvan Vasile, Bora, Florin Dumitru, and Damian, Doina

Subjects

HARVESTING time, GRAPE quality, GLOBAL warming, ATMOSPHERIC temperature, LONG-Term Evolution (Telecommunications), VITICULTURE, VITIS vinifera

Abstract

Climate change is currently the greatest threat to the environment as we know it today. The present study aimed to highlight the changes in the main climatic elements during the last five decades (1971–2020) in northeastern Romania (Copou-Iaşi wine-growing center) and their impact on grape quality, as part of precision viticulture strategies and efficient management of grapevine plantations. Data analysis revealed a constant and significant increase in the average air temperature in the last 50 years (+1.70 °C), more pronounced in the last 10 years (+0.61 °C), with a number of days with extreme temperatures (>30 °C) of over 3.5-fold higher, in parallel with a fluctuating precipitation regime. The increase in average temperatures in the last 40 years was highly correlated with the advancement of the grape harvest date (up to 12 days), a significant increase in Vitis vinifera L. white grape sugar concentration (+15–25 g/L), and a drastic decrease in total acidity (−2.0–3.5 g/L tartaric acid). The significant increase in the values of the bioclimatic indices require the reclassification of the wine-growing area in higher classes of favorability, raising the opportunity to grow cultivars that are more suited to warmer climates, ensuring the efficiency of the plantation, and meeting current consumer expectations. [ABSTRACT FROM AUTHOR]

Published

2024

44. Role of Pre-Harvest Sorbitol–Calcium Treatments in Controlling Berry Drop in Bagged Table Grapes of the "Doña María" Variety.

Author

Guirao, Alberto, Valverde, Juan Miguel, Díaz-Mula, Huertas María, Valero, Daniel, Serrano, María, and Martínez-Romero, Domingo

Subjects

TABLE grapes, GRAPE quality, ORGANIC acids, METABOLITES, FRUIT quality, BERRIES

Abstract

Cv 'Doña María' table grape is a high-quality table grape variety included in the Protected Designation of Origin (PDO) of the European Union "The bagged grape of the Vinalopó". The PDO stipulates that grape clusters must be protected with paper bags from inclement weather and insects, which helps enhance the final grape quality. However, 'Doña María' is a variety prone to high shattering in the late stages of ripening on the vine and during postharvest. Inorganic calcium treatments are one of the most commonly used tools to reduce this disorder, but the translocation of this mineral from veraison onward has been questioned. In this study, five applications were performed, from veraison to harvest, using sorbitol-chelated calcium (0.7% + 1.0%), Ca(NO3)2 (Ca) at 0.7% and sorbitol at 1%. It was observed that bagged grapes (not wetted with the solutions) only increased the concentration of total and bound calcium when treated with sorbitol–Ca. This resulted in reduced berry drop during cultivation and postharvest and improved fruit firmness. Additionally, it reduced grape metabolism indicators such as respiration rate, weight loss, malic acid degradation, prevented abscisic acid (ABA) and malondialdehyde (MDA) accumulation, and favored the accumulation of secondary metabolites such as total polyphenols, increased antioxidant activity, and sugar content. The application of sorbitol-chelated calcium is an effective and safe tool that enhances fruit quality and prevents losses due to shattering during postharvest. [ABSTRACT FROM AUTHOR]

Published

2024

45. Effect of timing of leaf removal on yield, grape primary composition and volatile composition of Vitis vinifera cv. Merlot grapevines.

Author

ANIĆ, Marina, OSREČAK, Mirela, HARAMINA, Janko, and KAROGLAN, Marko

Subjects

GRAPE ripening, GRAPE quality, LEAF area, VOLATILE organic compounds, DEFOLIATION, GRAPE yields

Abstract

Copyright of Journal of Central European Agriculture is the property of Journal of Central European Agriculture and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

46. Impact of spray drying operating conditions on yield, secondary metabolites, antioxidant potential and storage quality of grape (Vitis vinifera L.) pomace powder.

Author

Shoukat, Aurbab, Imran, Muhammad, Khan, Muhammad Kamran, Ahmad, Muhammad Haseeb, Ahmad, Rabia Shabir, Ramadan, Mohamed Fawzy, Nadeem, Muhammad, Yasmin, Adeela, Rahim, Muhammad Abdul, and Khan, Muhammad Imran

Subjects

*VITIS vinifera, *SPRAY drying, *GRAPE quality, *METABOLITES, *FOOD industry, *POWDERS

Abstract

In the present investigation, spray drying independent operating conditions such as the inlet air temperature (A-IAT 130, 150 and 170 °C), outlet air temperature (B-OAT 60, 70 and 80 °C), needle speed (C-NS 3S, 4S, 5S), maltodextrin concentration (D-MD 10, 15, 20 %), pump speed (E-PS 5, 10, 15 mL/min) and water/grape pomace ratio (F-W/GP ratio 10, 15, 20) were optimized to develop the spray-dried grape pomace powder (SDGPP) with maximum yield. The impact of these conditions on total phenolic contents (TPC), total flavonoid contents (TFC), and antioxidant activity (DPPH· values) of SDGPP samples were analyzed. The independent spray drying factors (IAT, OAT, NS, MD, PS, and W/GP ratio) impart a strong direct effect (p ≤ 0.05) on powder yield, TPC, TFC, and DPPH· values. The interaction effects (A × B, A × C, A × D, A × E, A × F, B × C, B × D, B × E, B × F, C × D, C × E, C × F, D × E, D × F, and E × F) of independent variables were noted non-significant (p ≥ 0.05) for response values. After validation of the model and verification of results, the independents' variables were found in the range of 170 °C (IAT), 80 °C (OAT), 4S (NS), 15 % (MD), 10 mL/min (PS) and 15 (W/GP ratio) for yield (64.7 ± 1.18 %), TPC (7.66 ± 0.53 mg GAE/g), TFC (3.19 ± 0.30 mg CE/g) and DPPH· 140.3 ± 1.59 (100 µL/mL), respectively. The decrease in TPC, TFC, and DPPH· values of SDGPP samples was noted during 60 days of storage at 25 ± 2 °C and 65 ± 5 % RH (p ≤ 0.05) but not greater than unprocessed samples. It could be concluded that the protection of phenolic contents and retention of antioxidant activity of dried powders can be achieved at optimized spray drying conditions for discerning food and byproduct processing industries. [Display omitted] • Spray drying of phenolics rich grape pomace is a promising method for encapsulation. • Interaction for spray drying independent factors was optimized for pomace powder. • The quality of raw and spray-dried grape pomace was evaluated during storage. [ABSTRACT FROM AUTHOR]

Published

2024

47. The effect of different vine training systems on the shelf life of Vitis vinifera cv. Bidane Sefid.

Author

Shokri, M., J oneidabad, M. Rahmati, Heidari, M., Rasouli, M., and Zare, A.

Subjects

*BERRIES, *POLYPHENOL oxidase, *FACTORIAL experiment designs, *GRAPE quality, *COLD (Temperature), *FRUIT harvesting, *VITIS vinifera

Abstract

In this study, the effect of vine training system and storage time were evaluated on some grape characteristics, such as berry contamination percentage, berry shedding percentage, berry browning rate, titratable acidity, soluble solids, total phenol and the activity of peroxidase, polyphenol oxidase and phenylalanine ammonia -lyase enzymes, in order to maintain the quality of grape during storage time. Factorial experiment was conducted based on completely randomized design with two factors of vine training system (Khazandeh, pergola and cordon) and storage time (zero, 20, 40 and 60 days after storage) with three replications during 2018 -2019. After transferring the fruits to the cold storage with temperature of +4 ◦C, relative humidity of 85 -90% and storage for two months, some characteristics of grape were examined on different days after storage. The results showed that the level of contamination of the berry increased over time, and during the storage period, the lowest level of contamination (13.706%) was related to the cordon training system. Also, after 60 days of storage, the lowest percentage of berry drop (27.535%) was observed in the fruits harvested from the cordon training system. The amount of berry browning after 60 days of storage was significantly higher than other times. The highest amount of TSS (26.182 degrees Brix) was related to the Khazandeh training system in 40 days after storage, however, a significant decrease in the value of this index was observed during 60 days after storage. The results showed that the amount of phenol increased until the end of the storage period, and the maximum amount of phenol in all three training systems was significantly higher than other days in 60 days after storage. The level of peroxidase enzyme activity in the Khazandeh training system reached its highest level at 20 days after storage, while in the other two training systems, it was significantly higher than the other days at 40 days after storage. Also, the activity of polyphenol oxidase enzyme reached its maximum level in 40 days after storage in Khazandeh and pergola training systems and then decreased. While in cordon training system, the highest activity of this enzyme was observed after 60 days of storage. The activity of phenylalanine ammonia -lyase enzyme increased during the storage period, and 60 days after storage, the highest activity of this enzyme was related to the pergola training system. In general, the results showed that the cordon training system had the best effect in maintaining the characteristics of grape during the storage period compared to other training methods. [ABSTRACT FROM AUTHOR]

Published

2024

48. Impact of exogenous melatonin foliar application on physiology and fruit quality of wine grapes (Vitis vinifera) under salt stress.

Author

Li, Yuanyuan, Zhang, Congcong, Lu, Xu, Yan, Haokai, Nai, Guojie, Gong, Meishuang, Lai, Ying, Pu, Zhihui, Wei, Li, Ma, Shaoying, and Li, Sheng

Subjects

*GRAPES, *VITIS vinifera, *BERRIES, *FRUIT quality, *FRUIT wines, *GRAPE quality, *PINOT noir, FRUIT physiology

Abstract

Soil salinisation is an important abiotic stress faced in grape cultivating, leading to weakened plant vigour and reduced fruit quality. Melatonin as a novel hormone has shown positive exogenous application value. Therefore, this study used wine grape (Vitis vinifera) 'Pinot Noir' as a test material to investigate the changes of foliar spraying with different concentrations of melatonin on the physiology and fruit quality of wine grapes in a field under simulated salt stress (200 mmol L−1 NaCl). The results showed that foliar spraying of melatonin significantly increased the intercellular CO2 concentration, maximum photochemical quantum yield of PSII, relative chlorophyll and ascorbic acid content of the leaves, as well as the single spike weight, 100-grain weight, transverse and longitudinal diameters, malic acid, α-amino nitrogen and ammonia content of fruits, and decreased the initial fluorescence value of leaves, ascorbate peroxidase activity, glutathione content, fruit transverse to longitudinal ratio and tartaric acid content of plants under salt stress. Results of the comprehensive evaluation of the affiliation function indicated that 100 μmol L−1 melatonin treatment had the best effect on reducing salt stress in grapes. In summary, melatonin application could enhance the salt tolerance of grapes by improving the photosynthetic capacity of grape plants under salt stress and promoting fruit development and quality formation, and these results provide new insights into the involvement of melatonin in the improvement of salt tolerance in crop, as well as some theoretical basis for the development and industrialisation of stress-resistant cultivation techniques for wine grapes. In this study, by foliar spraying of 100 and 300 μmol L−1 melatonin, the results showed that melatonin was able to reduce the damage of salt stress on the photosynthetic system and antioxidant system of wine grape (Vitis vinifera) leaves, and also improve the shape of the fruit and the intrinsic quality of the grape berries, such as sugar, acid, and nitrogenous compounds. Melatonin at 100 μmol L−1 was found to be the most effective. [ABSTRACT FROM AUTHOR]

Published

2024

49. Ethephon effect on defoliation of cluster zone, Botrytis bunch rot, and viticultural performance of 'Cabernet Sauvignon' grapevine in highland region of southern Brazil.

Author

Furini, Giovani, de Oliveira Anese, Rogerio, Reinehr, Juliana, Nascimento da Silva, Fabio, Trezzi Casa, Ricardo, Rufato, Leo, Rufato, Daiana Petry, and Bogo, Amauri

Subjects

*CABERNET wines, *GRAPE quality, *ETHEPHON, *BOTRYTIS cinerea, *BLOCK designs, *DEFOLIATION, *BOTRYTIS, *UPLANDS, *GRAPES, *VITIS vinifera

Abstract

Phytoregulators have been used as grapevine defoliants in cluster zones to manage and improve grape quality and production. The present study evaluated the effect of the phytoregulator ethephon on the grapevine defoliation of the cluster region, Botrytis bunch rot (BBR) epidemiology, and the viticultural performance of 'Cabernet Sauvignon', during the 2018/2019 and 2019/2020 growing seasons, in the highland region of the Santa Catarina State, Southern Brazil. Ethephon was applied in the bunch region of both sides of the grapevine vegetative canopy, at the phenological stage of beginning of ripening (BBCH-81) in five active ingredient doses (0 mg L-1 (control); 720 mg L-1; 1,440 mg L-1; 2,160 mg L-1; and 2,880 mg L-1), following a randomized block design with four replications and five plants per replication. The following parameters were evaluated: BBR epidemiology, vegetative, productive, and technological and phenolic maturation. The increasing ethephon doses significantly reduced the linear leaf drop and affected the technological and phenolic grape maturation parameters, improving the must pH, total polyphenols, color 420, 520, and 620 m, color intensity (°hue angle), and anthocyanin, and reducing the total solubre solids in the 'Cabernet Sauvignon' grapevine. However, this significant effect on the linear leaf drop and the technological and phenolic maturation parameters did not interfere with other vegetative, productive, and BBR epidemiology parameters evaluated in the edaphoclimatic conditions of the highland region of southern Brazil. [ABSTRACT FROM AUTHOR]

Published

2024

50. Canopy Architecture and Sun Exposure Influence Berry Cluster–Water Relations in the Grapevine Variety Muscat of Alexandria.

Author

Zarrouk, Olfa, Pinto, Clara, Alarcón, Maria Victoria, Flores-Roco, Alicia, Santos, Leonardo, David, Teresa S., Amancio, Sara, Lopes, Carlos M., and Carvalho, Luisa C.

Subjects

SUNSHINE, GRAPES, BERRIES, VITIS vinifera, GRAPE quality, GRAPE yields

Abstract

Climate-change-related increases in the frequency and intensity of heatwaves affect viticulture, leading to losses in yield and grape quality. We assessed whether canopy-architecture manipulation mitigates the effects of summer stress in a Mediterranean vineyard. The Vitis vinifera L variety Muscat of Alexandria plants were monitored during 2019–2020. Two canopy shoot-positioning treatments were applied: vertical shoot positioning (VSP) and modulated shoot positioning (MSP). In MSP, the west-side upper foliage was released to promote partial shoot leaning, shading the clusters. Clusters were sampled at pea size (PS), veraison (VER), and full maturation (FM). Measurements included rachis anatomy and hydraulic conductance (Kh) and aquaporins (AQP) and stress-related genes expression in cluster tissues. The results show significant seasonal and interannual differences in Kh and vascular anatomy. At VER, the Kh of the rachis and rachis+pedicel and the xylem diameter decreased but were unaffected by treatments. The phloem–xylem ratio was either increased (2019) or reduced (2020) in MSP compared to VSP. Most AQPs were down-regulated at FM in pedicels and up-regulated at VER in pulp. A potential maturation shift in MSP was observed and confirmed by the up-regulation of several stress-related genes in all tissues. The study pinpoints the role of canopy architecture in berry–water relations and stress response during ripening. [ABSTRACT FROM AUTHOR]

Published

2024