Unified analytical algorithm for identification of component composition of winemaking products

The article discusses a unified analytical algorithm for identification of component composition of winemaking products, established in the new national standard GOST R 59570-2021 «Winemaking products. Identification of component in terms of determination of the origin of ethanol and other compounds of physical-chemical composition». The standard provides modern scientific data on winemaking products, as well as data on natural, agrotechnical and technological factors that can impact the component composition of products to interpret the results of analytical evaluations. The article provides practical examples of use of analytical methods established in the standard for the study of winemaking products produced in Russia, Kazakhstan, Armenia and foreign countries

Mass-Spectrometric Study on Biological and Technogenic Fractionation of Stable Isotopes of Light Elements in Components of C3-Plants Grown in Climatic Conditions of Modern Natural Ecosystems

The mass-spectrometric IRMS/SIRA (SIRA – Stable Isotope Ratio Analysis) technique was applied to study the biological and technogenic fractionation of stable isotopes of light elements - carbon ( 13 C/ 12 C) in components of C3-plants by the example of grape (Vitisvinifera L.) grown in climatic conditions of modern natural ecosystems including urban ecosystems of agrarian regions. The carbon isotopes ratios 13 C/ 12 C in carbohydrates and ethanol in authentic samples of grapes and wines were studied by the FC-IRMS/SIRA method. The main goal of the conducted study was the determination of the correlation between specific climatic conditions of the C3-plants growing ecosystems and stable isotopes ratios in components of grapes and wines. The results of the study demonstrate the influence of climatic characteristics of natural ecosystems and technogenic factors (e.g. processing technologies) on the quantitative levels of the composition of stable isotopes of light elements. The publication has been prepared with the support of the «RUDN University Program 5-100». © 2020, Springer Nature Switzerland AG

The Method for Direct Gas Chromatographic Determination of Acetaldehyde, Methanol, and Other Volatiles Using Ethanol as a Reference Substance: Application for a Wide Range of Alcoholic Beverages

The article presents the results of collaborative study of the method for gas chromatographic determination of alcoholic fermentation volatile by-products (acetaldehyde, methanol, methyl acetate, ethyl acetate, propan-2-ol, propan-1-ol, 2-methylpropan-1-ol, butan-1-ol, and 3-methylbutan-1-ol) in alcoholic beverages with volume ethanol content in a range of 9.9–96.0% (wine, sake, liquor, tequila, vodka, grappa, bourbon, scotch, calvados, rakia, rum, brandy, whiskey, gin, and rectified ethyl alcohol). The zest of the method is the use of ethanol, present in beverages, as a reference substance for quantitative determination of mentioned components. Checking of precision data, obtained under repeatability conditions and under both repeatability and intermediate precision conditions, and trueness of test results, was carried out according to the ISO 5725–6. The relative difference between calibration coefficients (relative response factors for analyzed volatile compound relative to ethanol), obtained with an interval of 3 weeks, did not exceed 1.1%. Contents of acetaldehyde, methanol, and volatiles in 15 commercial alcoholic beverages analyzed by the developed method varied in the 1.84–677 mg L−1 of absolute ethanol, 3.25–12,394 mg L−1 of absolute ethanol, and 1.49–4243 mg L−1 of absolute ethanol intervals, correspondingly. © 2021, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature

Mass-spectrometric study on

The present study continues the 2015–2016 research project on biological characteristics of stable isotopes fractionation in grapes taking into account the agro-climatic growth conditions of this representative of the C3-pathway of photosynthesis group of plants in different geographical Black Sea regions. The first parts of the project were presented at the 39th and 40th Congresses of OIV in Bento Gonçalves (Brazil) and Sofia (Bulgaria). The scientific data on compositions of 13C/12C carbon and 18O/16O oxygen stable isotopes in carbohydrates, organic acids, and intracellular water were obtained for grapes of 2015–2016 growing seasons in the four areas of the Crimean peninsula as well as in several areas of the Don Basin and the Western Caspian region. This report presents the results of the 2017 season study of 13C/12C carbon and 18O/16O oxygen stable isotopes in carbohydrates and intracellular water of 12 red and white grape varieties (Aligote, Rkatsiteli, Sauvignon Zeleny, Chardonnay, Cabernet Sauvignon, Sauvignon Blanc, Merlot, Risling, Pinot Noir, Cabernet Franc, Sira, Krasnostop) as well as in ethanol of wines made from corresponding grapes from the Crimean Peninsula and South-West Coast of the Greater Caucasus. To measure the ratio of carbon isotopes 13C/12C in grape (must) carbohydrates and wine ethanol the Flash-Combustion technique (FC-IRMS/SIRA) has been used, while the method of isotopic equilibration (EQ-IRMS/SIRA) has been used for the measurement of 18O/16O oxygen isotopes ratio in the intracellular water of grapes (must) and in the water fraction of wine. The GC-Combustion technique (GC-IRMS/SIRA) has been used for the first time to measure the carbon isotopes 13C/12C distribution in ethanol of studied wines. It has been found that the δ13CVPDB values for carbohydrates of red and white grape varieties as a result of biological fractionation of carbon isotopes in the agro-climatic conditions of plant growth (2017 season) for the studied geographical areas formed the following quantitative ranges: from − 26.72 to − 23.35‰ (the Crimean Peninsula) and from − 25.92 to − 23.87‰ (South-West Coast of the Greater Caucasus). The δ13CVPDB values for wine ethanol are in the following ranges: from − 28.15 to − 24.47‰ (the Crimean Peninsula) and from − 27.29 to − 25.78‰ (South-West Coast of the Greater Caucasus). The δ18OVSMOW values in intracellular water of grapes of the 2017 season range from − 1.24 to 2.17‰ (the Crimean Peninsula) and from 1.08 to 4.09‰ (South-West Coast of the Greater Caucasus). The results of this study show, in comparison with the results of studies of the 2015 and 2016 seasons, a decrease in the δ13CVPDB values for carbohydrates of grapes and ethanol of wine, which is explained by the changed climatic conditions of grapes growing in the vegetation period of 2017

Mass-spectrometric study on13C/12C carbon and18O/16O oxygenstable isotopes distributions in grapes and wines from the BlackSea regions

The present study continues the 2015–2016 research project on biological characteristics of stableisotopes fractionation in grapes taking into account the agro-climatic growth conditions of this representativeof the C3-pathway of photosynthesis group of plants in different geographical Black Sea regions. The firstparts of the project were presented at the 39th and 40th Congresses of OIV in Bento Gonc ̧alves (Brazil) andSofia (Bulgaria). The scientific data on compositions of13C/12C carbon and18O/16O oxygen stable isotopes incarbohydrates, organic acids, and intracellular water were obtained for grapes of 2015–2016 growing seasonsin the four areas of the Crimean peninsula as well as in several areas of the Don Basin and the Western Caspianregion. This report presents the results of the 2017 season study of13C/12C carbon and18O/16O oxygen stableisotopes in carbohydrates and intracellular water of 12 red and white grape varieties (Aligote, Rkatsiteli,Sauvignon Zeleny, Chardonnay, Cabernet Sauvignon, Sauvignon Blanc, Merlot, Risling, Pinot Noir, CabernetFranc, Sira, Krasnostop) as well as in ethanol of wines made from corresponding grapes from the CrimeanPeninsula and South-West Coast of the Greater Caucasus. To measure the ratio of carbon isotopes13C/12Cin grape (must) carbohydrates and wine ethanol the Flash-Combustion technique (FC-IRMS/SIRA) has beenused, while the method of isotopic equilibration (EQ-IRMS/SIRA) has been used for the measurement of18O/16O oxygen isotopes ratio in the intracellular water of grapes (must) and in the water fraction of wine. TheGC-Combustion technique (GC-IRMS/SIRA) has been used for the first time to measure the carbon isotopes13C/12C distribution in ethanol of studied wines. It has been found that theδ13CVPDBvalues for carbohydratesof red and white grape varieties as a result of biological fractionation of carbon isotopes in the agro-climaticconditions of plant growth (2017 season) for the studied geographical areas formed the following quantitativeranges: from−26.72 to−23.35‰ (the Crimean Peninsula) and from−25.92 to−23.87‰ (South-West Coastof the Greater Caucasus). Theδ13CVPDBvalues for wine ethanol are in the following ranges: from−28.15to−24.47‰ (the Crimean Peninsula) and from−27.29 to−25.78‰ (South-West Coast of the GreaterCaucasus). Theδ18OVSMOWvalues in intracellular water of grapes of the 2017 season range from−1.24to 2.17‰ (the Crimean Peninsula) and from 1.08 to 4.09‰ (South-West Coast of the Greater Caucasus). Theresults of this study show, in comparison with the results of studies of the 2015 and 2016 seasons, a decreasein theδ13CVPDBvalues for carbohydrates of grapes and ethanol of wine, which is explained by the changedclimatic conditions of grapes growing in the vegetation period of 201