Evaluation of bio-acidifying yeast Lachancea thermotolerans as a strategy to reduce the effects of climate change in Tempranillo grape must vinification

Vidal Antonio Pérez Muñoz, Liliana del Rocío Castro-López, Luis Eugenio Martínez Hernández, Davis Cordero Herrera, Gabriela Herrera Martínez, Guillermo Castillo
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Abstract

The effects of climate change are posing major challenges for winemaking, especially in warm regions. Rising temperatures are leading to a considerable increase in sugar content and a reduction in the acidity of grape juices. This has prompted the search for new chemical and biological tools to reduce these effects in winemaking. Lachancea thermotolerans represent an interesting tool for wine improvement, due to their effects on lactic acid, ethanol, and volatile acidity. In this study, we evaluated the sequential inoculation of Lachancea thermotolerans (AEB Italia) + Saccharomyces cerevisiae as an alternative to the addition of water and tartaric acid in the vinification of over-ripened wine must (Tempranillo cv.). To do so, we conducted a micro vinification experiment that included three experimental treatments (replicated four times); AAS = Addition of water + tartaric acid fermented with Saccharomyces cerevisiae, ALS = sequential fermentation with Lachancea thermotolerans followed by Saccharomyces cerevisiae and SAC = Only inoculation with Saccharomyces cerevisiae (control). We measured the lactic acid, malic acid, acetic acid, total acidity, pH, glucose + fructose, and ethanol concentration of the resulting wines. We found a higher lactic acid content and total acidity in ALS wines (2.2 g/L y 6.65 g/L) compared with AAS (0.13 g/L y 5.75 g/L) and SAC wines (0.18 g/L y 5.37 g/L). ALS wines showed a significantly lower pH (4.00) than SAC wines (4.19) but did not differ significantly from AAS wines (3.19). Finally, acetic acid was higher in ALS wines (0.89 g/L) than AAS wines (0.64 g/L) but did not differ significantly from SAC wines (1.02 g/L). Our results point out that the use of Lachancea thermotolerans in a sequential inoculation with Saccharomyces cerevisiae is an alternative to the addition of water and tartaric acid in the vinification of over-ripened Tempranillo musts.
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耐高温生物酸化酵母菌Lachancea在丹尼罗葡萄酿造过程中减少气候变化影响的研究
气候变化的影响给葡萄酒酿造带来了重大挑战,尤其是在温暖地区。气温上升导致葡萄汁的含糖量大幅增加,酸度降低。这促使人们寻找新的化学和生物工具来减少葡萄酒酿造中的这些影响。由于其对乳酸、乙醇和挥发性酸度的影响,耐温菌代表了葡萄酒改良的一个有趣的工具。在这项研究中,我们评估了顺序接种耐高温Lachancea (AEB Italia) +酿酒酵母(Saccharomyces cerevisiae)作为在过熟葡萄酒(Tempranillo cv.)酿造过程中添加水和酒石酸的替代方法。为此,我们进行了一个微发酵实验,包括三个实验处理(重复四次);AAS =加入水+酒石酸发酵的酿酒酵母,ALS =先用耐温酿酒酵母连续发酵,然后再用酿酒酵母发酵,SAC =只接种酿酒酵母(对照)。我们测量了所得葡萄酒的乳酸、苹果酸、乙酸、总酸度、pH、葡萄糖+果糖和乙醇浓度。我们发现ALS葡萄酒的乳酸含量和总酸度(2.2 g/L和6.65 g/L)高于AAS葡萄酒(0.13 g/L和5.75 g/L)和SAC葡萄酒(0.18 g/L和5.37 g/L)。ALS葡萄酒的pH值(4.00)明显低于SAC葡萄酒(4.19),但与AAS葡萄酒(3.19)差异不显著。最后,ALS葡萄酒的乙酸含量(0.89 g/L)高于AAS葡萄酒(0.64 g/L),但与SAC葡萄酒(1.02 g/L)差异不显著。我们的研究结果表明,在连续接种酿酒酵母菌中使用耐高温菌可以替代在过熟的丹魄葡萄酒酿造过程中添加水和酒石酸。
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