Fondazione Edmund Mach (FEM), Via Mach 1, 38010 San Michele all'Adige (TN), Italy.
Center Agriculture Food Environment (C3A), University of Trento, via Mach 1, 38010 San Michele all'Adige (TN), Italy.
Molecules. 2020 Jul 9;25(14):3139. doi: 10.3390/molecules25143139.
According to Organisation Internationale de la vigne et du vin (OIV) standards, when analysing the stable isotope ratio of deuterium to hydrogen D/H at the methyl (I) and methylene (II) site of ethanol from concentrated must, a dilution with tap water is needed in order to carry out the alcoholic fermentation. This dilution causes a partial transfer of water hydrogens to the sugar, and this affects the (D/H) and (D/H) isotopic values of ethanol, which need to be normalised through specific equations based on the analysis of water δO or δH. The aim of this study was to evaluate the effectiveness and correctness of these equations experimentally. Grape, cane, and beet sugar, as well as grape must were diluted with water with increasing H and O stable isotope ratios, fermented, and analysed. SNIF-NMR and IRMS techniques were applied following the respective OIV methods. The equations based on the δH analysis of the diluted sugar/must solutions proved to be reliable in all the cases, although it is not an OIV standard. When using the equations based on the values of δO of the diluted solution, data normalisation was reliable only in cases where the water used for dilution had not undergone isotopic fractionation due, for example, to evaporation. In these cases, δH should be analysed.
根据国际葡萄与葡萄酒组织(OIV)的标准,在浓缩葡萄汁中分析乙醇的氘氢稳定同位素比 D/H 时,需要用自来水进行稀释,以进行酒精发酵。这种稀释会导致部分水氢转移到糖中,从而影响乙醇的(D/H)和(D/H)同位素值,需要通过基于水 δO 或 δH 分析的特定方程进行归一化。本研究旨在通过实验评估这些方程的有效性和正确性。用具有不同 H 和 O 稳定同位素比值的水对葡萄、甘蔗和甜菜糖以及葡萄汁进行稀释,发酵并进行分析。采用 SNIF-NMR 和 IRMS 技术,按照各自的 OIV 方法进行。基于稀释糖/汁溶液 δH 分析的方程在所有情况下都被证明是可靠的,尽管它不是 OIV 标准。当使用基于稀释溶液 δO 值的方程进行数据归一化时,只有在稀释用水未经历同位素分馏的情况下(例如由于蒸发),数据归一化才可靠。在这些情况下,应分析 δH。
