Multivariate Statistical Analysis of the UV-Vis Profiles of Wine Polyphenolic Extracts during Vinification

Sanna, Roberta; Piras, Cristina; Marincola, Flaminia Cesare; Lecca, Valentina; Maurichi, Sergio; Scano, Paola

doi:10.5539/jas.v6n12p152

Cited by 11 publications

(12 citation statements)

References 36 publications

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“…Spectroscopic methods, like Ultraviolet-to-Visible spectroscopy (UV-Vis) [61][62][63][64], Fourier Transformed Infrared spectroscopy (FTIR) [48,[65][66][67][68][69][70][71] are also applied due to their easiness of use, cost-effective and no sample preparation also in combination with numerical/statistical methods (e.g., chemometric methods) [48,66,68,[72][73][74][75].…”

Section: Methods For Characterization Of Must and Winementioning

confidence: 99%

Helium Atmospheric Pressure Plasma Jet Source Treatment of White Grapes Juice for Winemaking

Huzum

Nastuta

2021

Applied Sciences

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In the last few years, new emerging technologies to develop novel winemaking methods were reported. Most of them pointed out the need to assess the barrel aging on the wine product, fermentation process, green technologies for wine treatment for long term storage. Among these, plasma technologies at atmospheric pressure are on the way of replacing old and expensive methods for must, wine and yeast treatment, the goal being the long-term storage, aging and even decontamination of such products, and seems to meet the requirements of the winemakers. Using the principles of dielectric barrier discharge, we power up an atmospheric pressure plasma jet in helium. This plasma is used for treatment of fresh must obtained from white grapes. Our research manuscript is focused on the correlation of plasma parameters (applied voltage, plasma power, reactive species, gas temperature) with the physico-chemical properties of white must and wine (1 and 2 years old), via ultraviolet–visible and infrared spectroscopy, and colorimetry. Two types of white must were plasma treated and studied over time. The 10 W plasma source did not exceed 40 °C during treatment, the must did not suffer during thermal treatment. A higher quantity of RONS was observed during plasma-must exposure, supporting further oxidation processes. The UV-Vis and FTIR spectroscopy revealed the presence of phenols, flavones and sugar in the wine samples. Simultaneous visualization of CIE L*a*b* and RGB in color space charts allows easier understanding of wine changing in color parameters. These experimental results supporting the possible usability of atmospheric pressure plasma for winemaking.

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Section: Methods For Characterization Of Must and Winementioning

confidence: 99%

Helium Atmospheric Pressure Plasma Jet Source Treatment of White Grapes Juice for Winemaking

Huzum

Nastuta

2021

Applied Sciences

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“…Conjugation lowers the energy required for electron transitions to take place between OH-phenolic groups, causing an increase of absorption wavelengths in the UV-Vis spectra and subsequent displays of colour (Vallverdú-Queralt et al 2016, Waterhouse et al 2016b. As such, the visible colour of a compound is influenced by its degree of conjugation, with less conjugation causing a material to absorb light at shorter wavelengths (perceived as yellow and red hues) and greater conjugation causing absorption at longer wavelengths (perceived as blue and green hues) (Sanna et al 2014). Experiments have shown that tannins display yellow hues (Amendola et al 2010, Burtch et al 2017, pyranoanthocyanins express red-orange and red-brown hues (Figure 7), copigmentation reactions generate red and brown colours (Amendola et al 2010, Escribano-Bailón et al 2019, Morata et al 2019 and ethyl-linked pigments generate purple colours (Lee et al 2004b).…”

Section: Phenolic Compounds and Wine Colourmentioning

confidence: 99%

Mathematical modelling to enhance winemaking efficiency: a review of red wine colour and polyphenol extraction and evolution

Tindal

Jeffery

Muhlack

2021

Australian Journal of Grape and Wine Research

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Red wine quality is determined greatly by phenolic substances whose presence relies on extraction of grape skins and seeds during fermentation. Monitoring phenolic behaviour is beneficial for fermentation management because of the importance of maceration during red winemaking and its influence on phenolics that contribute to predominant red wine characteristics, such as colour, flavour and mouthfeel. Properly quantifying the kinetics associated, however, with red grape and wine phenolics is an intricate process. This review focuses on the extraction and ensuing reactions of principal phenolic substances during various stages of red winemaking as described by dynamic and spatial mathematical models. The extraction and reaction phenomena are concurrently influenced by several environmental and technological factors during fermentation, such as temperature, oxidation and mixing regimes, resulting in complex phenolic behaviour over time. As such, employing mathematical modelling is extremely useful for ascertaining the kinetic and spatial basis for phenolic behaviour, and the models significantly enhance the existing understanding of the extraction and reaction mechanisms of phenolic substances that are critical to red wine quality. Ultimately, this knowledge will allow for the development of predictive tools for phenolic extraction based on fruit composition and can potentially contribute to increased wine quality with optimised and sustainable production practices.

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“…red anthocyanins or yellow flavonols). The UV-visible spectra of a wine is thus attributed to the electronic transitions occurring within the hydroxyl groups of the phenolic molecules, with different transitions corresponding to the different phenolic subclasses [12]. A number of UV-visible applications have been exploited to quantify phenolic compounds.…”

Section: Introductionmentioning

confidence: 99%

The Role of UV-Visible Spectroscopy for Phenolic Compounds Quantification in Winemaking

Aleixandre-Tudó¹,

Toit²

2019

Frontiers and New Trends in the Science of Fermented Food and Beverages

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Phenolic compounds are bioactive substances present in a large number of food products including wine. The importance of these compounds in wine is due to their large effect on the organoleptic attributes of wine. Phenolic compounds play a crucial role in the colour as well as mouthfeel properties of wines. UV-visible spectroscopy appears as a suitable technique for the evaluation of phenolic compounds' properties and content. The ability of the phenolic ring to absorb UV light and the fact that some of the phenolic substances are coloured compounds, i.e. show absorption features in the visible region, make UV-visible spectroscopy a suitable technique to investigate and quantify grape and wine phenolic compounds. A number of analytical techniques are currently used for phenolic quantification. These include both simpler approaches (spectrophotometric determinations) as well as more complex methodologies such liquid chromatography analysis. Moreover, a number of spectroscopy applications have also been recently reported and are becoming popular within the wine industry. This chapter reviews information on the UV-visible spectral properties of phenolic compounds, changes occurring during wine ageing and also discusses the current UV-visible based analytical techniques used for the quantification of phenolic compounds in grapes and wine.

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Multivariate Statistical Analysis of the UV-Vis Profiles of Wine Polyphenolic Extracts during Vinification

Cited by 11 publications

References 36 publications

Helium Atmospheric Pressure Plasma Jet Source Treatment of White Grapes Juice for Winemaking

Helium Atmospheric Pressure Plasma Jet Source Treatment of White Grapes Juice for Winemaking

Mathematical modelling to enhance winemaking efficiency: a review of red wine colour and polyphenol extraction and evolution

The Role of UV-Visible Spectroscopy for Phenolic Compounds Quantification in Winemaking

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