Abstract
Analytical determinations for selected parameters in grapes/wines help planning technology treatments in the vineyards and cellars, improving the quality of final products and preserving consumers’ health. The study first reports a comparative analysis for selected parameters on juice, must, and wines at alcoholic and malolactic fermentation stages, from 2013 harvest and refined bottled wines from 2010–2012 and 2015 vintages. This was considered preliminary to the main goal of the work that consisted of testing if the contents of certain antioxidant principles were influenced or not by additions of copper(II) and/or selected fermentation yeasts. Particular attention was devoted to antioxidant molecule contents: total polyphenols, anthocyanins,trans-resveratrol, and quercetin. Selected samples were then analyzed in absence and in presence excess Cu(II)-sulfate (5 mgCu/L) and/or yeast derivatives to evaluate possible effects on antioxidant concentrations. The total polyphenols contents in untreated wine samples were as high as 3334 ± 60 mg (gallic acid)/L and averaged 2883 ± 299 mg/L (wines 2010–2013 and 2015). In particular, high contents of quercetin and quercetin glucoside were found in Sangiovese/Canaiolo/Colorino (harvest 2015) wine, being 21 ± 2 and 3.0 ± 0.2 mg/L, respectively. Even resveratrol had high concentrations in 100% Sangiovese wine (1.3 ± 0.1 mg/L, harvest 2015; 2.6 ± 0.3 mg/L, harvest 2010). Interestingly, no significant effect was revealed by Cu(II) and/or yeast derivatives on antioxidant contents for wine matrixes. In fact, determinations (validated through the standard addition methods) oftrans-resveratrol for untreated Sangiovese wines (1.18 ± 0.09 mg/L) and for wines treated with excess Cu(II) and excess Cu(II) plus excess yeasts mixtures (1.24 ± 0.09 mg/L and 1.22 ± 0.05 mg/L) did not differ significantly.
Highlights
Consumption of alcohol is certainly a serious problem in specific geographic areas and in younger generations
Several fermentation parameters were analyzed for a general characterization of the grapes, grape juice (JU and MU), and wines at different wine-making stages: total sugar (°Brix), reducing sugar (RSU, gGLU/kg), alcohol content (ALC, % v/v, by comparing d20/20 values with tabled values, and calculating the air density as dair 0.465Pair 0.75/T (K)), total nitrogen content (TN measured via the Kjeldahl method, gN/kg), total protein contents (TPC, computed as alanine equivalent, 6.36 times TN, gALA/kg), pH values, volatile acidity (VAC, acetic acid equivalent, mgACA/L), and total acidity contents (TAC, titratable; tartaric acid equivalent, gTAA/L), free or volatile sulfur dioxide (VSO2, mgSO2/L), and total sulfur dioxide contents (TSO2, mgSO2/L)
Data of TN in grapes from other works ranged 0.21–0.69 gN/L [35, 36] and underline that contents of TN smaller than 0.14 gN/L may be related to a significant lowering of the fermentation rate and the formation of undesired sulfur compounds. e TN value for STY13-SK + SE was 6.8 ± 0.7 gN/kg, ca. 28 times higher than the value found for juice samples (JU)
Summary
Consumption of alcohol is certainly a serious problem in specific geographic areas and in younger generations. E in-depth study of each production, storage, aging and refining stages of wine is essential to improve the knowledge of the chemical complexity of this product that is often present in our dinners. E experimental practices carried out by very many chemical and biological studies recently performed, allowed to obtain wines, and other spirit drinks of superior quality [1, 2]. During the last couples of decades, science and technology research focused much on wine analysis from chemical, biological, nutritional, agronomical, and plant/cellar treatments stand points, to improve the quality and to preserve the health of the consumers [6]. Certain bioactive molecules present in grapes and wines are relevant to human health because of their antioxidant potential. E present work reports the chemical characterization and antioxidant indicators (trans-resveratrol, quercetin, and quercitrin) on selected grapes and wines at different winemaking stages. E present work reports the chemical characterization and antioxidant indicators (trans-resveratrol, quercetin, and quercitrin) on selected grapes and wines at different winemaking stages. e main goal and the novelty of this research study was the determination of possible effects by excess copper(II) and yeast derivatives on antioxidant species in wines
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