Biological acidification of “Vino Santo di Gambellara” by mixed fermentation of L. thermotolerans and S. cerevisiae. Role of nitrogen in the evolution of fermentation and aroma profile

IF 2.2 3区 农林科学 Q3 FOOD SCIENCE & TECHNOLOGY OENO One Pub Date : 2023-08-29 DOI:10.20870/oeno-one.2023.57.3.7376
A. Gallo, R. Guzzon, M. Paolini, M. Malacarne, Marco Ongaro, T. Román
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Abstract

In this work, Lachancea thermotolerans was exploited as a biological acidifier of Vino Santo di Gambellara, a traditional Italian wine made from long-dried grapes. The drying of grapes before winemaking is a traditional technique widely applied in Italy in the production of sweet wines, but in recent years, global warming reduces dramatically the acidity of grapes, causing microbial instability during drying and winemaking. The ability of L. thermotolerans to convert sugars in lactic acid was already applied in the acidification of red wines, but the peculiar features of dried grape (e.g., osmotic stress, lack of nutrients, presence of mould-derived toxic compounds during drying) impose specific tests. L. thermotolerans was employed in sequential fermentation in combination with a strain of Saccharomyces cerevisiae. Considering the lack of information about the nutritional requirement of the non-Saccharomyces yeast, three protocols of nitrogen supplementation (mineral, organic and organic at high dosage) were tested. Alcoholic fermentation experiments were followed by plate counts onto differential media to discriminate between the two yeast species and by chemical analysis. Moreover, a GC-MS-MS approach carried out a complete characterisation of the volatile profile of wines. Results evidenced a long permanence of L. thermotolerans during alcoholic fermentation, which remained over the 7 log units until the 14th day of fermentation. The nitrogen supplementation protocol influenced cell growth and fermentative activity. Inorganic nitrogen supplementations allowed the accomplishment of alcoholic fermentation and the maintenance of pH below 3.35, with respect to the control wine (made only by S. cerevisiae), which was over pH 3.50. L. thermotolerans also influenced the wine's volatile aroma profile. Statistical differences were found in the main families of the yeast-derived aroma: acetate, esters, lactates, fatty acids and C6 compounds.
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耐热乳杆菌和酿酒酵母混合发酵对“Vino Santo di Gambellara”的生物酸化。氮在发酵过程和香气特征中的作用
在这项工作中,Lachancea耐热菌被用作Vino Santo di Gambellara的生物酸化剂,Vino Santo-di Gambella是一种由长干葡萄制成的传统意大利葡萄酒。酿酒前葡萄干燥是意大利甜葡萄酒生产中广泛应用的一项传统技术,但近年来,全球变暖大大降低了葡萄的酸度,导致干燥和酿酒过程中微生物不稳定。耐热乳杆菌在乳酸中转化糖的能力已经应用于红葡萄酒的酸化,但干葡萄的特殊特征(如渗透胁迫、缺乏营养、干燥过程中存在霉菌衍生的有毒化合物)要求进行特定的测试。耐热乳杆菌与酿酒酵母菌株联合进行顺序发酵。考虑到缺乏关于非酿酒酵母营养需求的信息,测试了三种补氮方案(高剂量无机、有机和有机)。酒精发酵实验之后,在不同的培养基上进行平板计数,以区分两种酵母,并进行化学分析。此外,GC-MS-MS方法对葡萄酒的挥发性进行了完整的表征。结果证明,在酒精发酵过程中,耐热乳杆菌具有很长的持久性,在发酵的第14天之前,其保持在7个对数单位以上。氮补充方案影响细胞生长和发酵活性。相对于pH超过3.50的对照葡萄酒(仅由酿酒酵母酿造),无机氮的补充允许完成酒精发酵并将pH保持在3.35以下。耐热乳杆菌也影响了葡萄酒的挥发性香气。酵母衍生香气的主要家族:乙酸盐、酯类、乳酸盐、脂肪酸和C6化合物存在统计差异。
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来源期刊
OENO One
OENO One Agricultural and Biological Sciences-Food Science
CiteScore
4.40
自引率
13.80%
发文量
85
审稿时长
13 weeks
期刊介绍: OENO One is a peer-reviewed journal that publishes original research, reviews, mini-reviews, short communications, perspectives and spotlights in the areas of viticulture, grapevine physiology, genomics and genetics, oenology, winemaking technology and processes, wine chemistry and quality, analytical chemistry, microbiology, sensory and consumer sciences, safety and health. OENO One belongs to the International Viticulture and Enology Society - IVES, an academic association dedicated to viticulture and enology.
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