Химический состав плодов яблони (яблок) весьма многообразен и представлен различными соединениями, включая витамины. При переработке яблок на сидры витамины принимают участие в многочисленных биохимических процессах и претерпевают существенные изменения. Цель исследования -изучение содержания витаминов в яблочном соке, произведенном из 30 сортов и форм плодов яблони отечественной и зарубежной селекции, и сидров, приготовленных из указанных сортов яблок. Материал и методы. Для получения сидров яблоки различных помологических сортов и элитных форм измельчали на гомогенизаторе, затем отделяли сок (сусло) от мезги, после чего сусло каждого сорта яблок сбраживали в одинаковых условиях с применением расы дрожжей Fruit (род Saccharomyces cerevisiae, «Ербсле Гайзенхайм», Германия) при температуре 18±1 °С. Массовую концентрацию в соках и сидрах витаминов группы В (В 1 , В 2 , В 6 и РР) определяли методом высокоэффективной жидкостной хроматографии, витамина С и рутина -методом капиллярного электрофореза.
Introduction. The concentration of biogenic amines is an important indicator of the safety of food products, especially winemaking. In grape wines, this concentration varies widely depending on the grape variety, its microbiological state, processing technology, the race of yeast and bacteria of malolactic fermentation, conditions of alcoholic and malolactic fermentation, etc. This research is aimed at determining the effect of the production technology of dry white and red wines on the concentration of biogenic amines. Study objects and methods. The mass concentration of biogenic amines was determined by the method of high-performance capillary electrophoresis using a Kapel 105R in laboratory-obtained samples of dry white wine from the Chardonnay grape variety and table dry red wine from the Cabernet-Sauvignon grape variety. Results and discussion. The dry white wine samples revealed high concentrations of tyramine (1.12 mg/dm³), phenylethydamine (0.58 mg/dm³), and histamine (0.57 mg/dm³), while the red wine samples demonstrated tyramine (0.62 mg/dm³), histamine (0.45 mg/dm³), putrescine (0.43 mg/dm³), and cadaverine (0.38 mg/dm³). The white wine samples had optimal pH values (3.2–3.6) with minimal formation of biogenic amines. The red wine samples, especially those obtained by heat treatment, had a lower concentration of biogenic amines, especially volatile biogenic amines, i.e. methylamine and phenylethylamine. The greatest formation of biogenic amines occurred during the acid reduction process: under the effect of enzymes of malolactic bacteria, biogenic amines formed as a result of decarboxylation of amino acids. Conclusion. The technology of production of table dry white and red wines affects the concentration of biogenic amines. To reduce the level of biogenic amines in the finished product, each stage of vinification has to be controlled, especially the stages of fermentation and acid reduction (temperature and pH). The race of yeast and lactic acid bacteria cannot include those that produce biogenic amines or introduce them in minimal quantities.
Cider is obtained by fermenting mashed apples of special cider varieties. The Russian State Register of Selection Achievements includes 476 varieties of apples, some of which can be used in commercial cider production. To identify potential cider cultivars, food scientists study the transformation of chemicals in apple mash during fermentation. The research involved 16 samples of apple mash and cider obtained from apples of foreign and domestic selection. Their physicochemical, biochemical, and sensory parameters were identified using standard methods, as well as the methods of high-performance capillary electrophoresis and gas chromatography. The samples revealed a wide range of concentrations of titratable acids, phenolic substances, ascorbic acids, and phenolcarboxylic acids, depending on the cultivar. After fermentation, the content of ascorbic acid decreased by an average of 76%. The content of phenolcarboxylic acids in the cider samples increased by an average of 51% compared with the apple mash samples. The ciders contained succinic, oxalic, lactic, and acetic acids, which were not registered in the apple mash, and the concentration of amino acids doubled. The cider from the Virginia variety had the best sensory profile, and it also had the highest concentration of phenolic substances (1121.6 mg/dm3). In this research, the best characteristics belonged to the ciders from apple varieties with a complex interspecific origin, obtained by a complex of polyploidy and distant hybridization methods, and with high concentrations of sugars and phenolic substances in the apple mash. Further research will test varieties of other origins and physicochemical properties for their potential use in cider, vodka, and calvados production.
Modern development of the Russian viticultural and winemaking industry is aimed at the production of competitive varietal premium wines. It is premised on acceleration of the breeding process of domestic wine grape varieties with the preset course of processing. The purpose of this workск was to study the ratio between the most important quality components of the wines made from two classical and eight promising grape varieties domestic breeding (by Federal State Budget Scientific Institution “North Caucasian Federal Scientific Centre of Horticulture, Viticulture and Winemaking”, hereafter - Institute) to determine the unique varietal particular qualities. The experiment was performed in 2013–2018. The grapes were picked from two plots located in the Central zone and in the Taman subzone, Krasnodar region. The red varietal wines were made according to the same technology and observing the same processing modes. The analytical research was performed repeatedly with qualification assessment of the results. Two-way-ANOVA was used to identify the impact factors upon the wine components. As a result, the following appreciable grape varieties of the Institute’s breeding were isolated, which demonstrated high accumulation of phenolic substances (over 3,000 mg/l) and anthocyanins (700–1100 mg/l) in wine: Vladimir, Granatovy, Kurchansky, Dmitri; the grape varieties with high accumulation of trans-resveratrol in wine: Vladimir (4.7 mg/l), Dmitri (4.7 mg/l), and Kurchansky (3.0 mg/l); the grape varieties for which wine the mass concentration of malic acid was by 2 to 2.5 times higher than the content of tartaric acid: Vladimir and Dmitri. It was shown that Antaris variety has low ecological plasticity and wine of this variety could be differ qualitatively depending upon edaphoclimatic conditions of the subzone.
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