V. Daniela Barrera-García scite author profile

V. Daniela Barrera-García

3Publications

102Citation Statements Received

60Citation Statements Given

How they've been cited

103

How they cite others

Affiliations

Institut Français de la Vigne et du Vin, University of Burgundy, University of Palermo

Publications

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Sorption Behavior of Volatile Phenols at the Oak Wood/Wine Interface in a Model System

Barrera-García

Gougeon

Voilley

et al. 2006

J. Agric. Food Chem.

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The sorption in a model system of aroma compounds of enological interest (mixture of the eight derivatives from guaiacol, 4-ethylphenol, and whiskylactone) onto wood was investigated to assess the influence of wood on the concentration of these volatiles during the aging of wine. To evaluate the influence of the solubility of aroma compounds in sorption phenomena, this parameter was determined for each volatile compound in model wine at 10 and 25 °C. The solubility is significantly higher in the model wine than in water and remains constant in the range of temperatures studied, except for guaiacol and vanillin. Kinetic and equilibrium sorptions were investigated. Sorption kinetics showed that the sorption equilibrium for all aroma compounds was reached after 6−7 days. From the study of the individual sorption isotherms, two distinct kinds of sorption behavior were observed depending on the presence or not of an ethylenic para substituent conjugated to the phenyl ring. K ww partition coefficients between the wood and the model wine were determined, which exhibited an unusual positive variation with temperature. Keywords: Oak wood; model wine; phenolic compounds; sorption; isotherm; solubility

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Different Sorption Behaviors for Wine Polyphenols in Contact with Oak Wood

Barrera-García

Gougeon

Majo

et al. 2007

J. Agric. Food Chem.

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The evolution of polyphenols of enological interest- monomeric anthocyanins, (+)-catechin, (-)-epicatechin, gallic acid, and trans-resveratrol-in the presence of oak wood was investigated in aging-model conditions. Disappearance kinetics showed that, except for gallic acid, all of the wine polyphenols tend to disappear from the model wine in presence of oak wood, to reach an equilibrium after 20 days of contact. At equilibrium, the higher disappearance rates were obtained for monomeric anthocyanins and trans-resveratrol with values of 20 and 50%, respectively. For monomeric anthocyanins, the rate of disappearance seemed to be independent of their nature. In order to evaluate the contribution of sorption to oak wood in the disappearance phenomena, sorption kinetics were determined for trans-resveratrol and malvidin-3-glucoside through the extraction and the quantification of the fraction sorbed to wood. These curves showed that the wood intake of trans-resveratrol and malvidin-3-glucoside followed a two-step behavior, with a higher rate during the first 2 days, likely due to a surface sorption mechanism, and then a slower rate to reach the equilibrium, which could be related to a diffusion mechanism. The comparison of disappeared and sorbed amounts at equilibrium showed that a minor part of the disappeared monomeric anthocyanins were sorbed by wood. In contrast, half of the concentration decrease of trans-resveratrol in wine finds its origin in a sorption mechanism by oak wood. Results in real wine show similar sorption kinetics.

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Sorption and diffusion properties of volatile phenols into cork

et al. 2010

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