Impact of Oak Wood Barrel Tannin Potential and Toasting on White Wine Antioxidant Stability.

Wines aged in oak wood barrels with various uniform tannin contents (which were classified according to their total ellagitannins contents as predicted by Near Infrared Spectroscopy on the untoasted wood) and different toasting levels (high precision toasting by radiation) were distinguished according to their overall abilities to resist against oxidation. Wine trials were carried out on two different vintages (2015, 2016) and three grape varieties (Sauvignon blanc, Sémillon, Chardonnay). Regardless of the vintage and the wine matrix, a relationship was established between wine oxidative stability (based on EPR spin trapping methodology) and oak barrel tannin potential. The extraction kinetic of ellagitannins by wines appeared linear during barrel aging and achieved its maximum at six or eight months, in a grape variety dependent manner. Oak wood barrel tannin potentials and toastings had no effect on wine glutathione and polyphenols contents. However, wines aged in new barrels with both low and medium tannin potentials, preserved at the end of aging and important number of S-N containing compounds, which was in addition to the known ellagitanins, revealed wines better antioxidant stability.

Determination of biogenic amines in wine by thin-layer chromatography/densitometry.

Biogenic amines are small-molecular-weight organic bases that can be encountered in all fermented foods, including wine. Ingestion of wine containing biogenic amines, and especially histamine, can result in health nuisances. HPLC is the analytical technique most often employed in the determination of biogenic amines in wine but HPLC-based methods are expensive and time-consuming. A new method, based upon amine dansylation and TLC/densitometry, was developed and validated. This allowed for the determination of histamine, tyramine, putrescine and cadaverine in wine at concentrations between 1 and 20mg/L. Analytical performances adequately complied with the needs of routine wine analysis, moreover the method was high-throughput and inexpensive. A simpler, semi-quantitative version of the method, based on visual evaluation of spot intensity, was also developed.

Influence of fermentation temperature on volatile thiols concentrations in Sauvignon blanc wines.

The effect of Saccharomyces cerevisiae strains on the amount of 4-mercapto-4-methylpentan-2-one, a major varietal aroma of Sauvignon blanc wines, was demonstrated by previous research work. However, the influence of different alcoholic fermentation parameters on the levels of volatile thiols (4-mercapto-4-methylpentan-2-one, 3-mercaptohexan-1-ol and 3-mercaptohexyl acetate) in wines has not yet been investigated. The impact of fermentation temperature on the final amount of volatiles thiols and on some other analytical parameters (ethanol, total acidity, residual sugars, volatile acidity) was determined in a model medium and in grape juice. Interaction between fermentation temperature and yeast strain was also tested. The fermentation temperature influenced the amount of volatile thiols irrespective of the yeast strain used. The final levels of 4MMP and 3MH in model medium and in wines were higher when the alcoholic fermentation is conducted at 20 degrees C than at 13 degrees C. The 3MHA, which was correlated with the amount of 3MH determined in wines, was also higher when the alcoholic fermentation was conducted at 20 degrees C. From a technological point of view, the choice of yeast strain and fermentation temperature has a decisive influence on the concentrations of the varietal aromas of Sauvignon blanc wines.