THE PRODUCTION OF LOW-ALCOHOL WINES BY SEQUENTIAL SEMI-ANAEROBIC MUST FERMENTATION

Journal of Applied Life Sciences and Environment Pub Date : 2023-04-11 DOI:10.46909/alse-554073

V. Filimon, R. Filimon, A. Nechita, F. Bora, L. Rotaru, V. Cotea

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Abstract

Nowadays, consumers go towards products that provide food security and nutritional richness, consumption of highly alcoholic beverages not complying with these health-related requirements. This study aimed to obtain low-alcohol wines by performing sequential alcoholic fermentation of grape must (Muscat Ottonel). Thus, 11 commercial yeast strains (10 Saccharomyces cerevisiae and 1 Torulaspora delbrueckii) were preliminarily tested in anaerobic and semi-anaerobic conditions. Based on laboratory tests, grape must fermentation was sequentially initiated in semi-anaerobic conditions (loose cotton plugs; intermittent homogenization), with the T. delbrueckii strain (106 CFU/mL) and the addition of preliminarily selected S. cerevisiae strains (104 CFU/mL), to the consumption of 50% of the sugars in the must, to complete the fermentation. By applying this technology, dry wines were obtained with an alcohol content lower by up to 1.10% vol., but with a lower concentration of volatile terpenes, due to additional must oxidation. Also, semi-anaerobiosis enhanced glycerol synthesis by yeasts (< 35%), with a positive impact on the sensory characteristics of the wine.

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通过连续的半厌氧发酵生产低酒精葡萄酒

如今，消费者倾向于提供粮食安全和营养丰富的产品，消费不符合这些健康相关要求的高酒精饮料。本研究旨在通过对葡萄(马斯喀特)进行连续酒精发酵来获得低酒精葡萄酒。为此，在厌氧和半厌氧条件下对11株商品酵母菌(10株酿酒酵母菌和1株德尔布鲁克菌)进行了初步试验。根据实验室测试，葡萄必须在半厌氧条件下依次发酵(松散的棉花塞;间歇均质)，用106 CFU/mL的delbrueckii菌株和104 CFU/mL的初步选择的酿酒酵母菌株，消耗酵母中50%的糖，完成发酵。通过应用该技术，得到的干葡萄酒的酒精含量降低了1.10%，但由于额外的必须氧化，挥发性萜烯的浓度较低。此外，半厌氧还能促进酵母菌的甘油合成(< 35%)，对葡萄酒的感官特性产生积极影响。

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Journal of Applied Life Sciences and Environment

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