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3. Using ethanol as postharvest treatment to increase polyphenols and anthocyanins in wine grape

Author

Modesti Margherita, Alfieri Gianmarco, Magri Anna, Forniti Roberto, Ferri Serena, Petriccione Milena, Taglieri Isabella, Mencarelli Fabio, and Bellincontro Andrea

Subjects
Ethanol postharvest treatments, Red wine grapes, Polyphenols, Anthocyanins, Fermentative metabolism, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

Red wine grapes are qualitatively evaluated for their content in polyphenols and anthocyanins. Due to certain conditions (weather, latitude, temperature), the concentration of these compounds may be not at the right level for reaching a high-quality wine, thus postharvest technologies can be operated as a remediation strategy. Ethanol is a secondary volatile metabolite and its application has been demonstrated to delay fruit ripening, to reduce decay, and to increase secondary metabolites. The present study investigates the effects of ethanol post-harvest application on wine grapes’ metabolism and composition. Red wine grapes (Vitis Vinifera L. cv Aglianico) were exposed to different ethanol doses (0.25, 0.5, or 1 mL L−1) for 12, 24, or 36 h. Ethanol increased sugar concentration, malic acid, free amino nitrogen, polyphenols, and anthocyanins. Particularly, anthocyanins reached an average value of 1820 mg/L in treated samples versus the 1200 mg/L of control grapes already after 12 h whatever the concentration was. Moreover, the highest concentration of ethanol modified berry metabolism shifting from aerobic to anaerobic one. Obtained results suggest that 12 h of ethanol postharvest treatment could be an interesting solution to improve anthocyanins in wine grapes, especially when the quality is not as good as expected.

Published
2024
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6. The effect of terroir on volatilome fingerprinting and qualitative attributes of non‐irrigated grapes reveals differences on glycosylated aroma compounds.

Author

Georgiadou, Egli C., Mina, Minas, Valanides, Nicolas, Taliadorou, Anna‐Maria, Koundouras, Stefanos, D'Onofrio, Claudio, Bellincontro, Andrea, Mencarelli, Fabio, Barbayiannis, Nikolaos, Fotopoulos, Vasileios, and Manganaris, George A.

Subjects
VOLATILE organic compounds, CLIMATE extremes, RAINFALL, CHEMICAL industry, ALIPHATIC alcohols, BERRIES
Abstract

BACKGROUND: 'Xynisteri' is considered as the reference white grape cultivar in Cyprus with remarkable adaptation to adverse edaphoclimatic conditions and appreciable oenological properties that renders it as an appropriate cultivar for studies within a global context due to climate change. To this aim, two distinct non‐irrigated plots with different climatic conditions, soil properties and levels of rainfall were selected; Koilani [KO, altitude 800 m, 76% calcium carbonate (CaCO3) content, pH 7.97, average temperature: 16.5 °C, rainfall: 229 mm] and Kyperounda (KY, altitude 1200 m, CaCO3‐free soil, pH 6.47, average temperature: 14.9 °C, rainfall: 658 mm). An array of physiological, biochemical and qualitative indices during successive developmental stages (BBCH 75–89) were determined. During the advanced on‐vine developmental stages (BBCH 85–89), the aromatic profile of grapes was assessed with the employment of gas chromatography–mass spectrometry (GC–MS). Such analysis was complemented with non‐destructive chemometric analyses. RESULTS: Berry ripening process substantially differed on the examined plots; BBCH 89 stage reached at 267 and 303 Julian days for KO and KY, respectively. Results indicated that berry weight, soluble solids content (SSC) and α‐amino nitrogen were higher in KO than in KY, with exception made for ammonium nitrogen content. A total of 75 compounds, including aliphatic alcohols, benzenic compounds, phenols, vanillins, monoterpenes and C13‐norisoprenoids were identified and quantified. The variations of mesoclimatic conditions affected the volatile organic compound (VOC) profiles at the fully‐ripe stage, showing a considerable rise in glycosylated aroma compounds, especially monoterpenes and benzenic compounds. In particular, the higher amount of glycosylated aroma compounds were obtained in KY berries up to mid‐ripe, whereas KO showed higher glycosylated aroma compounds at fully‐ripe stage. Results reported herein indicate that aroma profile of 'Xynisteri' grapes varied substantially in the examined terroirs. Interestingly, the limited rainfall in KΟ non‐irrigated vine did not compromise qualitative and aromatic properties of berries. CONCLUSIONS: The present study aimed at dissecting the impact of terroir on bush‐trained, non‐irrigated grapevines of a cultivar appropriate for extreme climate change scenarios. The volatilome fingerprint was highly variable among the examined plots; such results can be further exploited at vinification level towards production of single vineyard premium end products. © 2024 The Author(s). Journal of the Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published
2025
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7. Postharvest dehydration of red grapes: impact of temperature and water‐loss conditions on free and glycosylated volatile metabolites of exocarp and epicarp of Nebbiolo and Aleatico varieties.

Author

Piombino, Paola, Pittari, Elisabetta, Genovese, Alessandro, Bellincontro, Andrea, and Moio, Luigi

Subjects
VOLATILE organic compounds, METABOLITES, SUSTAINABILITY, WATER temperature, GRAPES
Abstract

BACKGROUND: Postharvest dehydration affects the metabolism of grapes, impacting odorous secondary metabolites and therefore the features of the corresponding passito wines – high‐quality products with winemaking practices linked to specific territories and related autochthonous grape varieties. Water loss and temperature conditions are the main variables of the dehydration process. This study assessed how they impacted the patterns of free and glycosylated volatile organic compounds (VOCs) of the exocarp (pulp) and epicarp (skin) in Nebbiolo and Aleatico, a neutral and semi‐aromatic red grape variety, respectively. Dehydration parameters were set in tunnel conditions, and VOCs were quantitatively analyzed by solid phase extraction–gas chromatography–mass spectrometry. RESULTS: For Nebbiolo grapes, weight loss had a greater impact on free volatiles than dehydration temperature, with a 20% weight loss increasing total VOCs in both exocarp and epicarp. Low temperature (10 °C) significantly increased (P < 0.05) the glycosylated VOCs' terpene content. In Aleatico grapes, weight loss was key in modulating free volatiles, with 30% weight loss and 15 °C leading to significant increases in VOCs, especially exocarp terpenes, acids and benzenoids. More stressful dehydration (30% weight loss at 25 °C) resulted in higher aroma precursor concentrations. CONCLUSION: These findings can assist passito wine production in preserving varietal aromas of original grapes trough optimized dehydration conditions, preventing sensory homologation occurring because of strong uncontrolled dehydration. They can also promote optimization of energy consumption, thus fostering financial and environmental sustainability. © 2024 The Author(s). Journal of the Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published
2025
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8. Recent Advances and Future Perspectives in the E-Nose Technologies Addressed to the Wine Industry.

Author

Alfieri, Gianmarco, Modesti, Margherita, Riggi, Riccardo, and Bellincontro, Andrea

Subjects
WINE industry, WINE ratings, ELECTRONIC noses, ELECTRONIC equipment, FOOD quality
Abstract

Electronic nose devices stand out as pioneering innovations in contemporary technological research, addressing the arduous challenge of replicating the complex sense of smell found in humans. Currently, sensor instruments find application in a variety of fields, including environmental, (bio)medical, food, pharmaceutical, and materials production. Particularly the latter, has seen a significant increase in the adoption of technological tools to assess food quality, gradually supplanting human panelists and thus reshaping the entire quality control paradigm in the sector. This process is happening even more rapidly in the world of wine, where olfactory sensory analysis has always played a central role in attributing certain qualities to a wine. In this review, conducted using sources such as PubMed, Science Direct, and Web of Science, we examined papers published between January 2015 and January 2024. The aim was to explore prevailing trends in the use of human panels and sensory tools (such as the E-nose) in the wine industry. The focus was on the evaluation of wine quality attributes by paying specific attention to geographical origin, sensory defects, and monitoring of production trends. Analyzed results show that the application of E-nose-type sensors performs satisfactorily in that trajectory. Nevertheless, the integration of this type of analysis with more classical methods, such as the trained sensory panel test and with the application of destructive instrument volatile compound (VOC) detection (e.g., gas chromatography), still seems necessary to better explore and investigate the aromatic characteristics of wines. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Destructive and non‐destructive early detection of postharvest noble rot (Botrytis cinerea) in wine grapes aimed at producing high‐quality wines.

Author

Modesti, Margherita, Alfieri, Gianmarco, Chieffo, Chiara, Mencarelli, Fabio, Vannini, Andrea, Catalani, Alessia, Chilosi, Gabriele, and Bellincontro, Andrea

Subjects
BOTRYTIS cinerea, WINES, ELECTRONIC noses, NEAR infrared spectroscopy, WINE districts, GRAPES, ROSE wines, GRAPE harvesting
Abstract

BACKGROUND: Botrytis cinerea (Bc) is the causative agent of gray mold disease in wine grape bunches. Under particular climatic and edaphic conditions, typical of some wine regions, the grapes infected by this fungus can develop noble rot, the basic phenomenon for the production of sweet botrytized wines or some high‐quality dry wines, such as Amarone. The possibility of early detection of noble rot on plants and at postharvest is an interesting option for managing botrytized wines. RESULTS: The present work aimed at early detection of noble rot and monitoring its development, at postharvest, on Trebbiano wine grapes by means of destructive and non‐destructive analytical approaches (e.g., electronic nose and near‐infrared spectroscopy). The development of Bc led to substantial modifications in grape composition, including dehydration, biosynthesis, and accumulation of different compounds due to Bc metabolism, grape stress responses, or both. However, these modifications are appreciable, notably at advanced stages of infection. Consequently, a specific focus was to monitor the infection in the first 72 h post inoculation for testing, potentially through non‐destructive technologies, and to identify the real early stages of Bc development. CONCLUSION: The destructive chemical analyses performed over the 16 monitored days confirmed what is widely reported in the literature regarding the metabolic/compositional changes that occur following the development of Bc. Moreover, non‐destructive technologies allowed us to identify the evolution of Bc, even at early stages of its presence. © 2023 The Authors. Journal of The Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Postharvest wine grape dehydration: ethanol dissipation from grape and biochemical changes.

Author

Bianchi, Alessandro, Pettinelli, Stefano, Santini, Gregorio, Taglieri, Isabella, Zinnai, Angela, Petriccione, Milena, Magri, Anna, Modesti, Margherita, Cerreta, Raffaele, and Bellincontro, Andrea

Subjects
ACETALDEHYDE, ALCOHOL dehydrogenase, ANAEROBIC metabolism, DEHYDRATION, ETHANOL, LACTATE dehydrogenase
Abstract

BACKGROUND: During postharvest dehydration, grapes are subject to metabolic changes including ethanol anabolism and catabolism. These changes affect the quality of the final product and ethanol production is a key step. Ethanol dissipation has never been measured during postharvest wine grape dehydration. Thus, the present study aimed to: (i) monitor ethanol dissipation and (ii) investigate chemical–biochemical changes in berries during dehydration. RESULTS: Ethanol dissipation from Raboso grapes, under controlled postharvest dehydration, was found to comprise up to 36% of weight loss (w.l.). Moreover, the activity of enzymes involved in the anaerobic metabolism of grapes was investigated. Ethanol dissipation was highly correlated with grape weight loss (r2 = 0.989). Alcohol dehydrogenase activity, responsible for the reduction of ethanol to acetaldehyde, declined significantly with w.l. Similarly, pyruvate decarboxylase and lactate dehydrogenase reduced their activity. High lipoxygenase activity was measured at 27% w.l., whereas polyphenol oxidation was constant and declined in the last sampling. CONCLUSION: Ethanol dissipation during postharvest dehydration allows for reducing anaerobic metabolism and promotes oxidative metabolism. The sensor used can be a useful commercial tool for monitoring berry metabolism. © 2023 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Air speed and plastic crate vent‐holes for wine grape quality during postharvest dehydration: commercial and laboratory studies.

Author

Santini, Gregorio, Bianchi, Alessandro, Pettinelli, Stefano, Modesti, Margherita, Cerreta, Raffaele, and Bellincontro, Andrea

Subjects
AIR speed, GRAPE quality, CRATES, DEHYDRATION, AIR ducts
Abstract

BACKGROUND: Airflow is an important issue to favor postharvest dehydration keeping wine grape quality. The aim of this experimental work was to analyze the grape quality during postharvest dehydration: (i) in a commercial facility ('fruttaia') by monitoring the efficiency of the ventilation system and (ii) at laboratory level, studying the influence of crate type and airflow direction. RESULTS: In the fruttaia, the airflow was provided by an air duct hanging from the ceiling, and by floor fans. A great gap in air speed from 0 up to 3.7 m s−1 was measured in different sectors of the fruttaia, leading to a different weight loss and grape quality in crates, depending on crate stack height and sector. At the laboratory level, two tunnels, with exhaust or supply fans, were used and four crate types with different percentages of vent‐holes were adopted. A decrease of about 5% delayed the weight loss rate depending on the type of crate, and the exhaust fan guaranteed a faster dehydration. CONCLUSION: The results clarified the inefficiency of the commercial ventilation system in ensuring homogeneous grape weight loss in all crates. In addition, the exhaust fan guaranteed a more uniform air distribution around crates, and a slightly higher air speed. © 2023 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published
2023
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13. Effects of Leaf Removal on Free and Glycoconjugate Aromas of Skins and Pulps of Two Italian Red Grapevine Varieties.

Author

Piombino, Paola, Pittari, Elisabetta, Genovese, Alessandro, Bellincontro, Andrea, Failla, Osvaldo, and Moio, Luigi

Subjects
GRAPES, AROMATIC plants, GRAPE quality, WINE aging, DEFOLIATION, METABOLITES, CLIMATE change, BERRIES
Abstract

Leaf removal is a cultural practice mainly aimed at improving cluster zone microclimates and impacting primary and secondary metabolites, such as volatiles. This research aimed to assess the impact of defoliation on free and glycosylated aromas of a neutral ('Nebbiolo') and a semi-aromatic ('Aleatico') red variety. Defoliation was performed at fruit set (BBCH 71) and, for 'Nebbiolo', also at berries touch (BBCH 81) phenological stages. Skins and pulps were separately analyzed by Solid Phase Extraction–Gas Chromatography/Mass Spectrometry. Results showed that the response to defoliation was variety-dependent. For 'Nebbiolo', especially when performed at the berries' touch stage, defoliation had a significant effect on the accumulation of free volatiles and glycosidic precursors. Differently, free and bound 'Aleatico' volatiles were less impacted by defoliation. Interestingly, in both grapevine varieties, defoliation significantly enhanced the accumulation of aroma precursors in grapes' skins, which is of particular relevance for red wine production and their aging potential. Moreover, results could be helpful for the management of grape quality, as defoliation is currently considered as a strategy to address climate change issues. [ABSTRACT FROM AUTHOR]

Published
2023
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15. Effects of treatments with ozonated water in the vineyard (cv Vermentino) on microbial population and fruit quality parameters

Author

Modesti Margherita, Baccelloni Simone, Brizzolara Stefano, Aleandri Maria Pia, Bellincontro Andrea, Mencarelli Fabio, and Tonutti Pietro

Subjects
Microbiology, QR1-502, Physiology, QP1-981, Zoology, QL1-991
Abstract

Ozone (O3) is currently employed in wineries as a sanitizing agent and is used to control microbial growth and infection. This molecule decomposes spontaneously to oxygen upon application and the use of ozonated water can represent an alternative for the control of pathogens in the vineyard. Entire canopies of Vitis vinifera (cv Vermentino) plants have been sprayed throughout the vegetative growth with water saturated with O3 to assess the effects of these treatments in reducing the microorganism population, and to evaluate if and how the oxidative stress, induced in the plant by this strong oxidizing agent, affects fruit development, the activity of the cellular antioxidant system, and the production of aromas by the grape berries at ripening. Ozonated water treatments resulted in a partial control of microorganism population, especially considering fungi. Furthermore, the treatments induced a slight delay in the technological maturity of grapes, a significant increase in antioxidant capacity and changes of aroma profile of the grapes at harvest, with an accumulation of monoterpenes. In general, ozonized water treatments showed promising results and seem to be a feasible protocol to be applied in the vineyard in order to reduce the use of chemicals.

Published
2019
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16. The beneficial effect of leaf removal during fruit set on physiological, biochemical, and qualitative indices and volatile organic compound profile of the Cypriot reference cultivar 'Xynisteri'.

Author

Georgiadou, Egli C., Mina, Minas, Neoptolemou, Varnavas, Koundouras, Stefanos, D'Onofrio, Claudio, Bellincontro, Andrea, Mencarelli, Fabio, Fotopoulos, Vasileios, and Manganaris, George A.

Subjects
VOLATILE organic compounds, GAS chromatography/Mass spectrometry (GC-MS), BERRIES, FRUIT, GRAPES, GRAPE ripening, CHEMICAL industry, VITIS vinifera
Abstract

Background: 'Xynisteri' is the reference Cypriot white cultivar that, despite its significant societal and economic impact, is poorly characterized regarding its qualitative properties, while scarce information exists regarding its aroma profile. In the current study, the effect of leaf removal during fruit set (BBCH 71) on 6‐year cordon‐trained, spur‐pruned grapevines was assessed and an array of physiological, biochemical, and qualitative indices were monitored during successive developmental stages (BBCH 75, BBCH 85, BBCH 87, and BBCH 89). Grapes were additionally monitored for the volatile organic compounds (VOCs) profile during the advanced on‐vine developmental stages (BBCH 85–BBCH 89) with the employment of gas chromatography–mass spectrometry (GC–MS), Fourier‐transform near infrared (FT‐NIR) spectra and electronic nose (E‐nose) techniques. Results: Grape berries from the vines subjected to leaf removal were characterized by higher solid soluble sugars (SSC), titratable acidity (TA), tartaric acid, and ammonium nitrogen contents, while this was not the case for assimilable amino nitrogen (primary amino nitrogen). A total of 75 compounds were identified and quantified, including aliphatic alcohols, benzenic compounds, phenols, vanillins, monoterpenes, and C13‐norisoprenoids. Leaf removal led to enhanced amounts of glycosylated aroma compounds, mainly monoterpenes, and C13‐norisoprenoids. Chemometric analysis, used through FT‐NIR and E‐nose, showed that the aromatic patterns detected were well associated to the grape ripening trend and differences between leaf removal‐treated and control grapes were detectable during fully ripe stage. Conclusion: Leaf removal at fruit set resulted in an overall induction of secondary metabolism, with special reference to glycosylated aroma compounds, namely monoterpenes and C13‐norisoprenoids. © 2022 The Authors. Journal of The Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published
2023
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21. Postharvest Ozone Fumigation of Grapes (cv Sangiovese) Differently Affects Volatile Organic Compounds and Polyphenol Profiles of Berries and Wine.

Author

Modesti, Margherita, Brizzolara, Stefano, Forniti, Roberto, Ceccantoni, Brunella, Bellincontro, Andrea, Catelli, Cesare, Mencarelli, Fabio, and Tonutti, Pietro

Subjects
VOLATILE organic compounds, VINTNERS, PHENYLALANINE ammonia lyase, GRAPES, OZONE, VITIS vinifera
Abstract

Consumers are more and more oriented towards the purchase of safer food and beverages, which is pushing the wine sector to find alternatives to the use of sulfur dioxide. Ozone (O3) is already applied in the wine industry to produce sulfur dioxide-free wines through the patented method Purovino®. The aim of this two-year study was that of evaluating whether the postharvest treatment of grapes with ozone affects volatile organic compounds (VOCs) and polyphenol profile in berries, and in turn, wine composition. Grape bunches (Vitis vinifera L.) of cv Sangiovese were fumigated overnight with gaseous ozone (max 20 g·h−1 with 6% w.w−1 of ozone) in a cold room at 4°C (±0.5). After treatment, grapes were processed into wine. In grapes, ozone treatments increased total polyphenol and flavonoid content and upregulated specific genes (phenylalanine ammonia lyase, VvPAL, flavanol synthase 1, and VvFLS1) involved in polyphenol biosynthesis. Wine obtained from ozone-treated grapes had higher flavanol content than the control. Fumigation only slightly affected the different VOC classes of grapes and wine, including aroma compounds derived from the lipoxygenase (LOX) pathway. Although a season-dependent effect was observed, results showed that postharvest ozone treatments applied to avoid the use of sulfur dioxide introduced limited but, in general, positive modifications to grape and wine composition. This information provides assurance to winemakers that the maintenance of wine quality and typicity will be guaranteed when using ozone treatments. [ABSTRACT FROM AUTHOR]

Published
2023
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22. Ozone-Induced Biochemical and Molecular Changes in Vitis vinifera Leaves and Responses to Botrytis cinerea Infections.

Author

Modesti, Margherita, Marchica, Alessandra, Pisuttu, Claudia, Risoli, Samuele, Pellegrini, Elisa, Bellincontro, Andrea, Mencarelli, Fabio, Tonutti, Pietro, and Nali, Cristina

Subjects
BOTRYTIS cinerea, VITIS vinifera, GENE regulatory networks, REACTIVE oxygen species, GENETIC transcription regulation, GENETIC regulation
Abstract

To investigate how plants cope with multi-stress conditions, we analyzed the biochemical and molecular changes of Vitis vinifera leaves subjected to single or sequential double stresses (infection by Botrytis cinerea (Bc) and ozone (O3, 100 ppb for 3 h) treatment). In Bc+/O3 leaves, the hydrogen peroxide (H2O2) induction (observed at 12 and 24 h from the end of treatment (FET)) triggered a production of ethylene (Et; +35% compared with Bc/O3 leaves), which was preceded by an increase of salicylic acid (SA; +45%). This result confirms a crosstalk between SA- and Et-related signaling pathways in lesion spread. The ozone induced an early synthesis of Et followed by jasmonic acid (JA) and SA production (about 2-fold higher), where Et and SA signaling triggered reactive oxygen species production by establishing a feedback loop, and JA attenuated this cycle by reducing Et biosynthesis. In Bc+ + O3+ leaves, Et peaked at 6 and 12 h FET, before SA confirmed a crosstalk between Et- and SA-related signaling pathways in lesion propagation. In O3+ + Bc+ leaves, the H2O2 induction triggered an accumulation of JA and Et, demonstrating a synergistic action in the regulation of defence reactions. The divergence in these profiles suggests a rather complex network of events in the transcriptional regulation of genes involved in the systemic acquired resistance. [ABSTRACT FROM AUTHOR]

Published
2023
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23. Innovative "Soft" Maceration Techniques in Red Grape Fermentation.

Author

Pettinelli, Stefano, Pardini, Luca, De Angeli, Giorgio, Bianchi, Alessandro, Najar, Basma, Cerreta, Raffaele, Bellincontro, Andrea, Floridia, Giuseppe, and Mencarelli, Fabio

Subjects
FERMENTATION, GRAPES, WINE vintages, AIR speed, CABERNET wines, WINE making, COMPRESSED air
Abstract

Two innovative soft maceration techniques of vinification based on red grape Cabernet Sauvignon were compared in 2020 and 2021 vintages with the most used system of maceration (pump-over and delestage) in today's wine sector in order to verify the efficiency in polyphenol extraction and fermentation rate. Fermentation kinetics and final wine characteristics were evaluated as the main parameters for comparing the systems. The AIR MIX (AIRMIXING M.I.™) technique is based on the use of a fixed sequential small injections of compressed air (3 jets) from the bottom of the tank, aimed at creating waves (resonance waves) able to prevent the cap formation. The ADCF (NECTAR-ADCF™) technique uses the overpressure produced by carbon dioxide in the wine tank during alcoholic fermentation to keep the cap submerged and to favor its disruption by the CO2 outside release through a valve. As a reference, the control vinification consisted of the use of "delestage" and pump-over to facilitate the extraction and good management of the cap. ADCF, at the end, extracted a greater quantity of polyphenols and anthocyanins. AIR MIX speeded up the fermentation, which ended 4–7 days before the control and, initially, provoked a greater extraction of phenols and anthocyanins as ADCF. By the end, the concentration of polyphenols and anthocyanins was the highest in ADCF, followed by control and AIR MIX approximately at the same amount. The control wine had a slightly higher volatile acidity. AIR MIX consumed more than 60% less energy because the nonuse of pump-over and delestage, and also, no personnel was requested. [ABSTRACT FROM AUTHOR]

Published
2022
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24. E-Senses, Panel Tests and Wearable Sensors: A Teamwork for Food Quality Assessment and Prediction of Consumer's Choices.

Author

Modesti, Margherita, Tonacci, Alessandro, Sansone, Francesco, Billeci, Lucia, Bellincontro, Andrea, Cacopardo, Gloria, Sanmartin, Chiara, Taglieri, Isabella, and Venturi, Francesca

Subjects
CONSUMER preferences, WEARABLE technology, EMOTION recognition, ELECTRONIC noses, FOOD quality, NEUROMARKETING, ACCURACY of information
Abstract

At present, food quality is of utmost importance, not only to comply with commercial regulations, but also to meet the expectations of consumers; this aspect includes sensory features capable of triggering emotions through the citizen's perception. To date, key parameters for food quality assessment have been sought through analytical methods alone or in combination with a panel test, but the evaluation of panelists' reactions via psychophysiological markers is now becoming increasingly popular. As such, the present review investigates recent applications of traditional and novel methods to the specific field. These include electronic senses (e-nose, e-tongue, and e-eye), sensory analysis, and wearables for emotion recognition. Given the advantages and limitations highlighted throughout the review for each approach (both traditional and innovative ones), it was possible to conclude that a synergy between traditional and innovative approaches could be the best way to optimally manage the trade-off between the accuracy of the information and feasibility of the investigation. This evidence could help in better planning future investigations in the field of food sciences, providing more reliable, objective, and unbiased results, but it also has important implications in the field of neuromarketing related to edible compounds. [ABSTRACT FROM AUTHOR]

Published
2022
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25. Ozone Gas for Low Cost and Environmentally Friendly Desulfurization of Mute Grape Must.

Author

Delogu, Marina, Ceccantoni, Brunella, Forniti, Roberto, Taglieri, Isabella, Sanmartin, Chiara, Mencarelli, Fabio, and Bellincontro, Andrea

Subjects
DESULFURIZATION, OZONE, VITAMIN C, WATER purification, TANNINS, GRAPE seed extract, GASES
Abstract

Ozone is widely used for storage and processing facilities and food sanitization. In this research, ozone was tested as an alternative to high temperature vacuum must desulfurization in order to make a more sustainable process. Bubbling ozone in highly sulfited red must (mute must) at two treatment temperatures, a significant reduction in total and free sulfites from around 1000 mg/L to 200 and 120 mg/L at 20 and 10 °C, respectively, was observed in 24 h, but already after 4 h the concentration was halved. Air flushing of the mute must did not reduce the SO2 content. To evaluate the potential ozone effect on polyphenol oxidation, we carried out the ozone treatment on a water solution with tannins, ascorbic acid, or potassium metabisulfite (MBK) as single and as mixture. In 1 h, 2/3 of sulfite disappeared with the treatment, but the reduction was greater with ascorbate and tannins; the same was observed for ascorbate, whereas tannins decreased to a lesser extent when combined with ascorbate and MBK. Taken together, the results indicate that ozone could be an environmentally friendly, low cost, treatment for desulfurization, especially for white must, and is also easy to use by small wineries. [ABSTRACT FROM AUTHOR]

Published
2022
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26. Optimization of Phenolic Compound Extraction from Brewers' Spent Grain Using Ultrasound Technologies Coupled with Response Surface Methodology.

Author

Iadecola, Rosamaria, Ciccoritti, Roberto, Ceccantoni, Brunella, Bellincontro, Andrea, and Amoriello, Tiziana

Abstract

Brewers' spent grain (BSG) is the main solid by-product from the brewery industry, rich in valuable nutrients and bioactive compounds. The aim of this study was to valorize this by-product, recovering phenolic compounds from BSG using ultrasound-assisted extraction (UAE) and chemometric techniques, such as the response surface methodology (RSM). Therefore, UAE process parameters (temperature and time) and solvent composition (ethanol aqueous mixtures) were optimized using a three-level Box–Behnken design, in order to carry out the maximum yield in phenols. Then, the extract obtained under optimal conditions was characterized for the total phenolic content and antioxidant capacity (2,20-azino-bis(3-ethylbenothiazoline-6-sulphonic acid, ABTS, and 2,2-diphenyl-1-picrylhydrazyl, DPPH), and individual phenolic compounds were identified using HPLC-DAD. The results show the highest level of total soluble phenolic content (4.1 ± 0.1 mg GAE/g d.w.) at 80 °C, 50 min and 65:35% ethanol:water, with a high goodness of fit between experimental and predicted values (R2 = 0.987), and a high antioxidant potential (DPPH: 0.42 ± 0.01 mg TE eq/g d.w.; ABTS: 5.82 ± 0.04 mg TE eq/g d.w.). A comparison between the classic extraction techniques and the UAE with the same solvent showed an increase of 156% in the phenol yield. The characterization of phenolic profile revealed that ferulic acid (1.5 ± 0.2 mg/L), vanillic acid (0.78 ± 0.18 mg/L) and p-coumaric acid (0.12 ± 0.03 mg/L) were the prevalent ones. UAE coupled with RSM was a useful tool to inexpensively and quickly recover bioactive phenolic compounds from BSG, which can be used in the food, pharmaceutical or cosmetic industries. [ABSTRACT FROM AUTHOR]

Published
2022
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27. Use of water and ethanol extracts from wine grape seed pomace to prepare an antioxidant toothpaste.

Author

Emmulo, Emanuela, Ceccantoni, Brunella, Bellincontro, Andrea, and Mencarelli, Fabio

Subjects
GRAPE seeds, WATER use, GRAPE seed extract, TOOTHPASTE, ETHANOL, GRAPES, RED wines
Abstract

BACKGROUND: Extracts of fresh wine grape seeds/skin or of grape pomace seeds were used to prepare antioxidant natural toothpastes. RESULTS: Ethanol extracted twice more polyphenols than water; ultrasound did not provide any improvement in the extraction. The addition of freeze‐dried ethanol extracts of seeds or skin, at 2% and 10%, to the commercial toothpaste significantly increased the polyphenol content, both from white grape seeds and skin and from red grape seed pomace. The evaluation of time stability (shelf life) revealed a decrease, after 4 months, of 3.9% and 9.4% in total polyphenol content, in 5% and 10% water extracts, but not for ethanol extracts. 1,1‐Diphenyl‐2‐picrilhydrazil1 antiradical activity was the highest in 10% of seed water extract toothpaste and, after 4 months, the activity was stable. CONCLUSION: Ethanol and water are efficient and safe solvents to create natural toothpaste with grape or pomace seed extract with antioxidant activity. © 2021 The Authors. Journal of The Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published
2021
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28. E-Nose and Olfactory Assessment: Teamwork or a Challenge to the Last Data? The Case of Virgin Olive Oil Stability and Shelf Life.

Author

Modesti, Margherita, Taglieri, Isabella, Bianchi, Alessandro, Tonacci, Alessandro, Sansone, Francesco, Bellincontro, Andrea, Venturi, Francesca, and Sanmartin, Chiara

Subjects
OLIVE oil, ELECTRONIC noses, SENSOR arrays, MEDITERRANEAN diet, QUALITY control, FOOD industry, TECHNOLOGY assessment
Abstract

Electronic nose (E-nose) devices represent one of the most trailblazing innovations in current technological research, since mimicking the functioning of the biological sense of smell has always represented a fascinating challenge for technological development applied to life sciences and beyond. Sensor array tools are right now used in a plethora of applications, including, but not limited to, (bio-)medical, environmental, and food industry related. In particular, the food industry has seen a significant rise in the application of technological tools for determining the quality of edibles, progressively replacing human panelists, therefore changing the whole quality control chain in the field. To this end, the present review, conducted on PubMed, Science Direct and Web of Science, screening papers published between January 2010 and May 2021, sought to investigate the current trends in the usage of human panels and sensorized tools (E-nose and similar) in the food industry, comparing the performances between the two different approaches. In particular, the focus was mainly addressed towards the stability and shelf life assessment of olive oil, the main constituent of the renowned "Mediterranean diet", and nowadays appreciated in cuisines from all around the world. The obtained results demonstrate that, despite the satisfying performances of both approaches, the best strategy merges the potentialities of human sensory panels and technological sensor arrays, (i.e., E-nose somewhat supported by E-tongue and/or E-eye). The current investigation can be used as a reference for future guidance towards the choice between human panelists and sensorized tools, to the benefit of food manufacturers. [ABSTRACT FROM AUTHOR]

Published
2021
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29. Combining Color Chart, Colorimetric Measurement and Chemical Compounds for Postharvest Quality of White Wine Grapes

Author

Sollazzo, Marco, Baccelloni, Simone, D'Onofrio, Claudio, and Bellincontro, Andrea

Subjects
Chlorophyll, white winegrape, Terpenes, Color, VOCs, Agriculture, Esters, Wine, Carotenoids, chlorophyll and carotenoids, color chart, quality, Fruit, Colorimetry, Vitis, white wine grape, chlorophyll, carotenoids
Abstract

This paper provides data for the potential use of a color chart to establish the best quality of white wine grapes destined for postharvest processing. Grechetto, Vermentino and Muscat of Alexandria white wine grape varieties were tested by sampling berries at different dates during their quality attribute evolution. A color chart and reflectance spectrocolorimeter were used in combination with analyses of total carotenoids and chlorophylls in all three varieties and of volatile organic compounds (VOCs) in Grechetto alone.Total carotenoids decreased from 0.85 to 0.76 µg gThis experimental work highlights that a color chart is cheap and easy to use to define the right quality stage for white wine grapes. The color chart enabled the enochemical features to be matched with the VOC results for the aromatic maturity of Grechetto. © 2018 Society of Chemical Industry.

Published
2018

30. Advances in cultivar choice, hazelnut orchard management, and nut storage to enhance product quality and safety: an overview.

Author

Silvestri, Cristian, Bacchetta, Loretta, Bellincontro, Andrea, and Cristofori, Valerio

Subjects
ORCHARD management, NUTS, HAZELNUTS, PRODUCT safety, HAZEL, PRODUCT quality, ORCHARDS
Abstract

European hazelnut (Corylus avellana L.) is a major species of interest for nutritional use within the Betulaceae family and its nuts are widely used throughout the world in the chocolate, confectionery, and bakery industries. Recently its cultivation has been expanded in traditional producer countries and established in new places in the southern hemisphere, including Chile, South Africa, and Australia. Introducing hazelnut in new environments could reduce its productivity, lead the trees to experience eco‐physiological disorders, and expose the crop to high pressure from common and new pests and diseases. Thus, new approaches in cultivar choice guidance, in the sustainable orchard management and even in nut storage and kernel quality evaluation are urgently required to improve the hazelnut production and processing chain. The main objective of this study was to systematize the published information regarding recent findings about the cultural operations that directly influence nut and kernel quality, support varietal choice for new plantations, and list the recent advances in nut storage and in quality and safety evaluation. © 2020 Society of Chemical Industry [ABSTRACT FROM AUTHOR]

Published
2021
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31. Nebulized water cooling of the canopy affects leaf temperature, berry composition and wine quality of Sauvignon blanc

Author

Paciello, Pericle, Mencarelli, Fabio, Palliotti, Alberto, Ceccantoni, Brunella, Thibon, Cécile, Darriet, Philippe, Pasquini, Massimiliano, Bellincontro, Andrea, Department for Innovation in Biological, Agro-Food and Forest systems (DIBAF), Tuscia University, Dipartimento di Scienze Agrarie, University of Bologna, Unité de Recherche Oenologie [Villenave d'Ornon], and Institut National de la Recherche Agronomique (INRA)-Université de Bordeaux (UB)-Institut des Sciences de la Vigne et du Vin (ISVV)

Subjects
Light, qualité du raisin, [SDV]Life Sciences [q-bio], Wine, nebulized water cooling, Global Warming, vitis vinifera, Pentanones, Humans, Vitis, Sulfhydryl Compounds, nébulisation, Aerosols, grape composition, warm-climate viticulture, nebulization, Sauvignon blanc, Temperature, Polyphenols, Water, wine thiols, Agriculture, Hydrogen Peroxide, Catalase, Plant Leaves, Oxidative Stress, spraying, Fruit, pulvérisation, Carbohydrate Metabolism, Seasons, régulation de la température, Acids
Abstract

BACKGROUND The present paper details a new technique based on spraying nebulized water on vine canopy to counteract the negative impact of the current wave of hot summers with temperatures above 30 °C, which usually determine negative effects on vine yield, grape composition and wine quality.RESULTS The automatized spraying system was able to maintain air temperature at below 30 °C (the threshold temperature to start spraying) for all of August 2013, when in the canopy of uncooled vines the temperature was as high as 36 °C. The maintenance of temperature below 30 °C reduced leaf stress linked to high temperature and irradiance regimes as highlighted by the decrease of H2O2 content and catalase activity in the leaves. A higher amount of total polyphenols and organic acids and lower sugars characterized the grapes of cooled vines. Wine from these grapes had a higher content of some volatile thiols like 3-sulfanylhexanol (3SH) and 3-sulfanylhexylacetate (3SHA), and lower content of 4-methyl-4-sulfanylpentan-2-one (4MSP).CONCLUSION Under conditions of high temperature and irradiance regimes, water nebulization on the vine canopy can represent a valid solution to reduce and/or avoid oxidative stress and associated effects in the leaves, ensure a regular berry ripening and maintain high wine quality. The consumption of water during nebulization was acceptable, being 180 L ha−1 min−1, which lasted an average of about 1 min to reduce the temperature below the threshold value of 30 °C. A total of 85–90 hL (from 0.8 to 0.9 mm) of water per hectare per day was required.

Published
2017
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32. Future opportunities of proximal near infrared spectroscopy approaches to determine the variability of vineyard water status

Author

Diago, Mari Paz, Bellincontro, Andrea, Scheidweiler, Mathias, Tardaguila, Javier, Tittmann, Suzanne, Stoll, Manfred, European Commission, Ministerio de Economía y Competitividad (España), Diago, Maria P., Bellincontro, A., Tardáguila, Javier, Diago, Maria P. [0000-0003-4049-0879], Bellincontro, A. [0000-0001-5856-7024], and Tardáguila, Javier [0000-0002-6639-8723]

Subjects
Water stress, Contactless NIR sensing, contactless NIR sensing, near infrared spectrometer, plant-based method, stomatal conductance, water stress, Stomatal conductance, Near infrared spectrometer, Plant‐based method
Abstract

[Background and Aims] Non‐destructive, reliable, fast and automated plant‐based methods for the assessment of the water status of a grapevine are necessary to design irrigation strategies. The goal of this work was to test the capability of near infrared (NIR) spectroscopy using a vehicle‐mounted and remote NIR sensor without plant contact (contactless) to assess the water status of grapevines in the vineyard. [Methods and Results] An NIR spectrometer (1100–2100 nm) mounted on an all‐terrain vehicle was used to acquire spectra (contactless, in stop‐and‐go mode) from leaves of water‐stressed and non‐stressed vines of Riesling at two timings during the season. Calibration and cross‐validation models yielded R2c = 0.95 and R2cv = 0.88 for the estimation of the stomatal conductance measured in the same grapevines. [Conclusions] The study demonstrates that NIR spectroscopy may become a potential tool for on‐the‐go assessment of proximal plant water status, although further research will be required for full confirmation. [Significance of the Study] The NIR technology tested, capable of being installed on vineyard machinery, paves the way to collect data on plant water status at high spatial and temporal resolution to assist in irrigation scheduling., The work leading to these results has received funding from the European Union under grant agreement no. 610953 (VINEROBOT project). Dr Maria P. Diago was funded by the Spanish Ministry of Economy, Industry and Competitiveness (MINECO) with a Ramon y Cajal grant RYC‐2015‐18429.

Published
2017

33. Postharvest ozone fumigation of Petit Verdot grapes to prevent the use of sulfites and to increase anthocyanin in wine

Author

Bellincontro, Andrea, Catelli, Cesare, Cotarella, Riccardo, and Mencarelli, Fabio

Subjects
anthocyanin, grape, microbial count, ozone, sensory evaluation, SO2
Abstract

This is the final version of the paper: "Postharvest ozone fumigation of Petit Verdot grapes to prevent the use of sulfites and to increase anthocyanin in wine." Published in Australian journal of grape and wine research 23(2), 2017, 200-206

Published
2017

34. Recent advances in postharvest technology of the wine grape to improve the wine aroma.

Author

Mencarelli, Fabio and Bellincontro, Andrea

Subjects
*GRAPES, *WINE flavor & odor, *GRAPE harvesting, *HORTICULTURAL crops, *BERRIES, *ODORS, *VOLATILE organic compounds, *GRAPE quality
Abstract

Postharvest techniques are widely used for the handling and storage of fresh horticultural crops. Some of these techniques are interesting for use with wine grapes to improve the quality of wine. In this review, we consider the postharvest techniques that are already commercially used in the wine sector and others that may be significant in inducing or extracting the aroma from grapes to produce high‐quality wines. Precooling consists of rapidly lowering the grape temperature, which allows the preservation/increase of volatile organic compounds (VOCs). We also discuss sustainability. Partial dehydration consists of the partial removal of water from grapes, and if a suitable environment is adopted it can be used to produce and extract berry VOCs. As a solid, carbon dioxide is used in wine processing for the rapid cooling of grapes and, as a gas, it is used for carbonic maceration. Ozone has been used for sanitation purposes in wineries for a long time, but more recently it has been used to produce wine without sulfite addition and to increase the aromatic quality of wine grapes. Ethylene application is not used commercially for wine grapes, but promising results in terms of phenolic extraction and aromatic changes in grapes are discussed. A comparison among the proposed techniques is reported in terms of grape aromatic quality and process features. The proposed techniques could help a winemaker to maintain or induce aromatic compounds in grape berries before the vinification process. The choice depends on the desired wine and economic consistency. © 2018 Society of Chemical Industry [ABSTRACT FROM AUTHOR]

Published
2020
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35. Effect of flotation and vegetal fining agents on the aromatic characteristics of Malvasia del Lazio (Vitis vinifera L.) wine.

Author

Pettinelli, Stefano, Pollon, Matteo, Costantini, Lorenzo, Bellincontro, Andrea, Segade, Susana R, Rolle, Luca, and Mencarelli, Fabio

Subjects
VITIS vinifera, WHITE wines, FLOTATION, VOLATILE organic compounds, YEAST extract, CHEMICAL industry
Abstract

BACKGROUND Flotation is a process to reduce the must turbidity after grape pressing. The use of fining agents to reduce the polyphenol content is essential for white wine, but their impact on volatile compounds must be considered. Malvasia del Lazio juice (Vitis vinifera L.) was treated before flotation with animal gelatin (GEL), legume protein plus chitin (LEGCHIT), and legume protein plus yeast extract (LEGYEAST). The clarification efficiency, total polyphenols, and total proteins were determined in the grape must before and after flotation, as well as the volatile composition and sensory characteristics of the resulting wines. RESULTS: The LEGCHIT trial was the most efficient, it being the fastest and achieving the lowest turbidity values. The GEL trial was the slowest, showing grape must turbidity values similar to LEGYEAST but also the highest total protein content. The vegetal protein treatments caused a decrease in the concentration of volatile organic compounds (VOCs) with respect to gelatin, which resulted in a reduction of aroma intensity, particularly for fruity and floral notes, but also for green notes. Furthermore, LEGCHIT wines were appreciated by panelists for their greater body and reduced astringency perception. CONCLUSION: The use of legume protein combined with chitin as a fining agent for flotation is advantageous in terms of clarification efficiency for grape must. Furthermore, the wines obtained showed high perceived global quality, even though a higher loss (38% and 27% respectively for LEGYEAST and LEGCHIT) of VOCs occurred when compared with gelatin. © 2020 Society of Chemical Industry [ABSTRACT FROM AUTHOR]

Published
2020
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36. Using UAV‐based remote sensing to assess grapevine canopy damage due to fire smoke.

Author

Brunori, Elena, Maesano, Mauro, Moresi, Federico V, Antolini, Adriano, Bellincontro, Andrea, Forniti, Roberto, Biasi, Rita, and Mencarelli, Fabio

Subjects
REMOTE sensing, SMOKE, GRAPES, VITIS vinifera, WILDFIRES, CLIMBING plants, CHEMICAL industry
Abstract

BACKGROUND Bushfires are becoming an increasing issue for the wine sector due to grape and vine losses and smoke taint in wine. Smoke affects vine physiology and the smoke's volatile phenols are absorbed by plants and berries, contaminating the wine. Our hypothesis was that, for the first time, unmanned aerial vehicle (UAV)‐based visible images can be used to study the physiology of smoke‐affected vines and to assess compromised vines. RESULTS: Procanico vines were exposed to two smoke treatments, a week apart. Gas exchanges and leaf biochemical traits were measured in the short term (30 min after smoke exposure) and in the long term (24 h after smoke exposure). Canopy damage was assessed with conventional vegetation indices (VIs) and by an innovative index derived by UAV‐based visible images, the Canopy Area Health Index (CAHI). Gas exchange showed a reduction after the first smoke exposure, but the vines recovered within 24 h. The second smoke exposure led to an irreversible reduction in functional parameters. The VIs exhibited significant differences and CAHI presented a damage gradient related to bushfire nearby. CONCLUSION: The vineyard damage assessment by UAV‐based visible images may represent a tool to study the physiological activity of smoke‐affected vines and to quantify the loss of destroyed or damaged vines. © 2020 Society of Chemical Industry [ABSTRACT FROM AUTHOR]

Published
2020
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38. Alternating temperature in postharvest cooling treatment of 'Fiano' and 'Falanghina' grapes affects cell wall enzyme rate, berry softening and polyphenols.

Author

Coletta, Cosimo, Botondi, Rinaldo, Forniti, Roberto, Baccelloni, Simone, Bellincontro, Andrea, and Mencarelli, Fabio

Subjects
WINES, TEMPERATURE control, ENZYMES, POLYGALACTURONASE, POLYPHENOLS
Abstract

BACKGROUND: In wine production, temperature control is important and cooling techniques are frequently used to cool down grape must. Grape compound extraction is facilitated by enzymatic cell wall disassembly. Accordingly, our hypothesis is that the use of an alternating temperature could favor enzyme activity and thus berry compound extraction. RESULTS: White wine grapes (cvs 'Falanghina' and 'Fiano') were kept at 4 °C or at an alternating temperature (4 and 20 °C with a 6‐h interval) for 24 h. During the cooling treatment, berry skin resistance, berry firmness and native enzymes from the cell wall were analyzed; sugars, total acidity, malic acid and polyphenols were also measured. In 'Falanghina', α‐d‐glucosidase, β‐d‐galactosidase and pectinmethylesterase increased in grape berry kept at an alternating temperature, and the berry firmness decreased and the polyphenol content was greater than in the other sample. In 'Fiano', polygalacturonase and pectinmethylesterase were responsable for berry softening and, overall, with an alternating temperature, the activity was higher and, consequently, sugars and polyphenol contents were higher. CONCLUSION: Instead of just cooling wine grape, a 24‐h cycle of low and high temperature on wine grape after harvest could be used to increase cell wall enzyme activity and, consequently, decrease the berry firmness, favouring an increase in sugars and polyphenol contents. © 2018 Society of Chemical Industry [ABSTRACT FROM AUTHOR]

Published
2019
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39. Chemical and biochemical change of healthy phenolic fractions in wine grape by postharvest dehydratation

Author

Mencarelli Fabio (1), Bellincontro Andrea (1), Nicoletti Isabella (2), Cirilli Marco (3), Muleo Rosario (3), and Corradini Danilo (2)

Subjects
postharvest dehydratation, HPLC, stilbenes, polyphenols, wine grape
Abstract

Clusters of Aleatico winegrape were picked at 18 °Brix and placed at 10, 20, or 30 °C, 45% relative humidity (RH) and 1.5 m/s of air flow to dehydrate the berries up to 40% of loss of initial fresh weight. Sampling was done at 0, 10, 20, 30, and 40% weight loss (wl). Selected polyphenols and sugar content (expressed as SSC = soluble solids content) both measured on dry weight basis, polyphenol oxidase (PPO), and phenylpropanoid pathway gene expression were analyzed. Phenolic acids increased significantly at 20% wl at 20 °C, while at 10 °C the increase was lower. Stilbenes (trans-resveratrol and trans-piceid) and catechins rose more than double to 100 mg/kg and more than 3-fold to 135 mg/kg at 20 °C and 10% wl. At 10 °C the increase of these compounds was less, but higher than initial values. At 30 °C, except for a significant rise at 10% wl for catechins and stilbenes, all the rest of the compounds diminished. Anthocyanins increased at 10 and 20 °C, but decreased at 30 _C. PPO rapidly increased at 20 and 30 °C at 10% wl and then declined, while at 10 °C the activity lasted longer. Relative gene expression of phenylalanine ammonia lyase (PAL), stilbene synthase (STS), chalcone isomerase (CHI), dihydroflavonol reductase (DFR) were upregulated at 10 °C more than at 20 °C, at 20% wl, while at 30 °C the gene expression was downregulated.

Published
2010
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40. Feasibility assessment of a low‐cost visible spectroscopy‐based prototype for monitoring polyphenol extraction in fermenting musts.

Author

Alfieri, Gianmarco, Modesti, Margherita, Bellincontro, Andrea, Renzi, Francesco, and Aleixandre‐Tudo, Jose Luis

Abstract

BACKGROUND RESULTS CONCLUSIONS Polyphenols have long been used to evaluate grape and wine quality and it is necessary to measure them throughout various winemaking stages. They are currently assessed predominantly through analytical methods, which are characterized by time‐consuming procedures and environmentally harmful practices. Non‐destructive spectroscopy‐based devices offer an alternative but they tend to be costly and not readily accessible for smaller wineries. This study introduces the initial steps in employing a portable, user‐friendly, and cost‐effective visible (VIS) spectrophotometer prototype for direct polyphenol measurement during winemaking.Grapes (cv Syrah, Bobal, and Cabernet Sauvignon) at different maturation stages were fermented with or without stems. Throughout fermentation, parameters such as color intensity, total polyphenol index, total anthocyanins, and tannins were monitored. Concurrently, VIS spectra were acquired using both the prototype and a commercial instrument. Chemometric approaches were then applied to establish correlation models between spectra and destructive analyses. The prototype models demonstrated an acceptable level of confidence for only a few parameters, indicating their lack of complete reliability at this stage.Visible spectroscopy is already utilized for polyphenol analysis in winemaking but the aspiration to automate the process in wineries, particularly with low‐cost devices, remains unrealized. This study investigates the feasibility of a low‐cost and user‐friendly spectrophotometer. The results indicate that, in the early stages of prototype utilization, the goal is attainable but requires further development and in‐depth assessments. © 2024 The Authors. Journal of The Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published
2024
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41. Control of environmental parameters in postharvest partial dehydration of wine grapes reduces water stress.

Author

Bellincontro, Andrea, Prosperi, Paolo, De Santis, Diana, Botondi, Rinaldo, and Mencarelli, Fabio

Subjects
*GRAPE drying, *DEHYDRATION reactions, *EFFECT of stress on plants, *FERMENTATION, WATER requirements for grapes
Abstract

The hypothesis that a controlled environmental condition of postharvest partial dehydration of wine grapes may reduce berry water stress keeping a better grape quality, was verified on white wine grapes, var. ‘Pecorino’. Grapes were harvested at 21.5% solid soluble content (SSC) and kept at 15 °C, 60% relative humidity (RH), and 2.5 m s −1 or 1.2 m s −1 air speed (tunnel), with a vapor pressure deficit (VPD) of 7.5–8 mbar; control bunches were kept in an uncontrolled condition (VPD = 0.7–6.4 mbar). Samplings for chemical and biochemical analyses were performed on grapes with 10, 25, 35, and 45% mass loss (m.l.). Tunnel and control samples reached 31.5% (in 24-26 days) and 28.5% (in 28 days) SSC, respectively. Control grapes had higher CO 2 production, alcohol dehydrogenase (ADH) and lipooxygenase (LOX) activities and proline content. Ethanol and acetaldehyde contents reflected ADH activity patterns. Control grape had higher percentage of branched alcohols than control ones. An activation of aerobic fermentation in control grapes is discussed with comment on related generation of specific volatile organic compounds (VOCs). [ABSTRACT FROM AUTHOR]

Published
2017
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42. Distinct transcriptome responses to water limitation in isohydric and anisohydric grapevine cultivars.

Author

Dal Santo, Silvia, Palliotti, Alberto, Zenoni, Sara, Battista Tornielli, Giovanni, Fasoli, Marianna, Paci, Paola, Tombesi, Sergio, Frioni, Tommaso, Silvestroni, Oriana, Bellincontro, Andrea, d'Onofrio, Claudio, Matarese, Fabiola, Gatti, Matteo, Poni, Stefano, and Pezzotti, Mario

Subjects
GRAPE growing, VITIS vinifera, PHOTOSYNTHESIS, GRAPES, HORTICULTURAL crops
Abstract

Background: Grapevine ( L.) is an economically important crop with a wide geographical distribution, Vitis vinifera reflecting its ability to grow successfully in a range of climates. However, many vineyards are located in regions with seasonal drought, and these are often predicted to be global climate change hotspots. Climate change affects the entire physiology of grapevine, with strong effects on yield, wine quality and typicity, making it difficult to produce berries of optimal enological quality and consistent stability over the forthcoming decades. Results: Here we investigated the reactions of two grapevine cultivars to water stress, the isohydric variety Montepulciano and the anisohydric variety Sangiovese, by examining physiological and molecular perturbations in the leaf and berry. A multidisciplinary approach was used to characterize the distinct stomatal behavior of the two cultivars and its impact on leaf and berry gene expression. Positive associations were found among the photosynthetic, physiological and transcriptional modifications, and candidate genes encoding master regulators of the water stress response were identified using an integrated approach based on the analysis of topological co-expression network properties. In particular, the genome-wide transcriptional study indicated that the isohydric behavior relies upon the following responses: i) faster transcriptome response after stress imposition; ii) faster abscisic acid-related gene modulation; iii) more rapid expression of heat shock protein (HSP) genes and iv) reversion of gene-expression profile at rewatering. Conversely, that reactive oxygen species (ROS)-scavenging enzymes, molecular chaperones and abiotic stress-related genes were induced earlier and more strongly in the anisohydric cultivar. Conclusions: Overall, the present work found original evidence of a molecular basis for the proposed classification between isohydric and anisohydric grapevine genotypes. [ABSTRACT FROM AUTHOR]

Published
2016
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43. Portable NIR-AOTF spectroscopy combined with winery FTIR spectroscopy for an easy, rapid, in-field monitoring of Sangiovese grape quality.

Author

Barnaba, Federico Emanuele, Bellincontro, Andrea, and Mencarelli, Fabio

Subjects
*GRAPE ripening, *SPECTROPHOTOMETRY, *WINES, *HYDROGEN-ion concentration, *TARTARIC acid, *PREDICTION models, *LEAST squares, *FOURIER transform spectroscopy
Abstract

BACKGROUND A near infrared acousto-optically tunable filter ( NIR-AOTF) spectrophotometer was tested for three seasons on four different vineyards with the aim of monitoring the ripening evolution of the Italian red wine grape variety Sangiovese. Predictive models for the estimation of several enological parameters were carried out applying the partial least squares chemometric approach. Reference analysis was conducted using Fourier transform infrared spectroscopy ( FTIR). Spectral detections were obtained working on whole grape berries. A global set of 96 samples ( n = 76 in 2009, and n = 20 in 2010) each one represented by 100 intact grape berries was tested. Finally, in 2011, an external validation on an independent data set of 25 samples (50 grape berries per set) was carried out. RESULTS Coupling the two spectroscopic applications, the following enological parameters were tested: °Brix, °Babo, total sugars (g L−1), glucose (g L−1), fructose (g L−1), density (g mL−1), titratable acidity (g L−1), tartaric acid (g L−1), pH, malic acid (g L−1), gluconic acid (g L−1), assumable nitrogen (mg L−1), anthocyanins (mg L−1), and total phenols (mg L−1). NIR-AOTF spectroscopy was able to predict with a high correlation versus the measured data: °Brix, °Babo, total sugars, glucose, fructose and density. The coefficient of determination ( R2) and the standard error in prediction were: 0.93 and 0.73 for °Brix; 0.93 and 0.62 for °Babo; 0.94 and 7.39 g L−1 for total sugars; 0.93 and 5.39 g L−1 for glucose; 0.92 and 5.07 g L−1 for fructose; and 0.91 and 0.004 g mL−1 for density, respectively. Significant correlations were found in prediction for tartaric acid and pH value. Promising validation results were recorded for anthocyanins and total phenols, even though predictive models were affected by the method of sample preparation in compound extraction. CONCLUSIONS This study shows how NIR-AOTF spectroscopy can be used in viticulture to investigate, directly in-field, the most significant markers of ripening evolution and of Sangiovese grape quality definition. The use of the vinery FTIR spectroscopy provided the reduction of the time required by reference analysis, with the big advantage of obtaining many different parameters in just a few seconds and allowing easier calibration of the NIR spectrometer. © 2013 Society of Chemical Industry [ABSTRACT FROM AUTHOR]

Published
2014
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44. Feasibility of an electronic nose to differentiate commercial Spanish wines elaborated from the same grape variety.

Author

López de Lerma, María de las Nieves, Bellincontro, Andrea, García-Martínez, Teresa, Mencarelli, Fabio, and Moreno, Juan José

Subjects
*WINE analysis, *ELECTRONIC noses, *FEASIBILITY studies, *GRAPE varieties, *GAS chromatography, *PRINCIPAL components analysis, SPANISH wines
Abstract

Abstract: Five wines obtained from the same grape variety and viticultural zone were analyzed by gas chromatographic (GC), chemical (CA) and electronic nose (E-Nose) techniques. The principal component (PC) analysis based on the concentration of 11 volatile compounds, volatile acidity, ethanol, glycerol and 2,3-butanediol provides 2 PCs allowing 5 different groups to be established. Nevertheless 4 different groups of wines were obtained by means of the first 2 PCs from E-Nose data. Wines with an ethanol content of 18% (v/v) and different concentration in ethyl esters were not discriminated by the E-Nose, showing that new sensors will be required for its differentiation. A good linear correlation (R =0.909) was obtained between a combination of the PCs from the E-Nose data and those from GC-CA. The E-Nose is revealed as a rapid tool to differentiate among wines obtained by different elaboration techniques, helping to protect the quality of wines produced in the Protected Denominations of Origin. [Copyright &y& Elsevier]

Published
2013
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45. Oil accumulation in intact olive fruits measured by near infrared spectroscopy-acousto-optically tunable filter.

Author

Bellincontro, Andrea, Caruso, Giovanni, Mencarelli, Fabio, and Gucci, Riccardo

Abstract

Background A field experiment was conducted to test the reliability of the near infrared spectroscopy (NIR)-acousto-optically tunable filter (AOTF) method to measure mesocarp oil content in vivo against nuclear magnetic resonance ( NMR) determinations using three different olive cultivars at different stages of ripening. Results In the partial least squares model carried out for the cultivar 'Arbequina', the coefficient of determination in calibration ( R2c) was 0.991, while the coefficient of determination in cross-validation ( R2cv) was 0.979. For the cultivar 'Frantoio' the indexes were 0.982 and 0.971, respectively; while for the cultivar 'Leccino' R2c was 0.977 and R2cv was 0.965. Finally, for the combined model (sum of the three varieties) these indexes were 0.921 and 0.903, respectively. The residual predictive deviation ( RPD) ratio was insufficient for the predictive model of cultivar 'Leccino' only (1.98), whereas in the other cases the RPD ratios were completely sufficient, within the estimation range over 2.5-3 (2.61 in the global model, and 4.23 in the cultivar 'Frantoio'), or in describing a large capacity with values greater than 5, as in the cultivar 'Arbequina' (9.58). Conclusion NIR-AOTF spectroscopy proved to be a novel, rapid and reliable method to monitor the oil accumulation process in intact olive fruits in the field. The innovative approach of coupling NIR and NMR technologies opens up new scenarios for determining the optimal time for harvesting olive trees to obtain maximum oil production. [ABSTRACT FROM AUTHOR]

Published
2013
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47. Discrimination of sweet wines partially fermented by two osmo-ethanol-tolerant yeasts by gas chromatographic analysis and electronic nose

Author

García-Martínez, Teresa, Bellincontro, Andrea, de Lerma, María de las Nieves López, Peinado, Rafael Andrés, Mauricio, Juan Carlos, Mencarelli, Fabio, and Moreno, Juan José

Subjects
*WINES, *FERMENTATION, *POLYOLS, *GAS chromatography, *ALCOHOL, *CARBONYL compounds, *YEAST, *ETHANOL
Abstract

Abstract: Some special sweet wines are obtained by partial fermentation of musts from off-vine dried grapes containing large amounts of sugars. This process is very slow and subject to serious stop problems that can be avoided by using osmo-ethanol-tolerant yeasts. Musts containing 371g/l of sugars were partially fermented with selected Saccharomyces cerevisiae strains, X4 and X5, to 12% (v/v) and the wines obtained with X5 exhibited a higher volatile acidity but lower concentrations of higher alcohols, carbonyl compounds and polyols than those obtained with X4. A principal component analysis (PCA) of the data provided by an electronic nose (E-nose) afforded discrimination between fermented and unfermented musts, but not between wines obtained with X4 or X5. The PCA applied to the major volatile compounds and polyols shows similar results, but a clear discrimination between wines is obtained by removing the polyols glycerol and 2,3-butanediol from the PCA. [Copyright &y& Elsevier]

Published
2011
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48. Electronic nose to study postharvest dehydration of wine grapes

Author

Santonico, Marco, Bellincontro, Andrea, De Santis, Diana, Di Natale, Corrado, and Mencarelli, Fabio

Subjects
*GRAPES, *VOLATILE organic compounds, *AIR flow, *WEIGHT loss, *REGRESSION analysis, *FOOD dehydration
Abstract

Abstract: Montepulciano grapes were dehydrated at 10 and 20°C, 45% RH and 1–1.5m/s of air flow. Samplings were performed at 10%, 20%, 30%, and 40% of weight loss (wl). TSS (total solids content) increased up to 43° and 36° Brix at 20 and 10°C, respectively, in 27 and 48days. A straight regression line between M (kg water/kg dry matter) loss and days of dehydration with R 2 values, equal to 0.97, was found but an angular coefficient of −0.048 and −0.038, respectively at 20 and 10°C indicated a different rate of weight loss. Volatiles compounds profile changed significantly with the temperature during the dehydration process. Anaerobic metabolites such as ethanol, acetaldehyde, and ethylacetate were much higher at 20°C than at 10°C and rose progressively, while at 10°C, the significant rise was observed between 30% and 40% weight loss. Alcohols and esters prevailed at 20°C while at 10°C larger abundances of aldehydes and terpene alcohols are observed. PCA analysis of GC/MS confirmed the volatiles compounds separation between the samples held at 20 and 10°C. A progressive evolution of the profile is observed for the samples held at 20°C while those held at 10°C show a change of volatiles compounds profile only at 40% wl. Loadings analysis show that aldehydes and terpenols are oriented towards the direction of 10°C samples while alcohols and esters in that of 20°C samples. The behaviours of GC/MS data were partially corroborated by the data of electronic nose. Electronic nose was able to follow the progressive change of aroma profile at 20°C while at 10°C grouped the responses obtained at 10%, 20%, 30% wl all together but at 40% wl, it discriminated the aroma response. This result opens a window on the potential use to monitor commercially the grape dehydration. [Copyright &y& Elsevier]

Published
2010
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