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亚硫酸盐添加和酒脚接种对霞多丽葡萄酒微生物群落和感官特征的影响:商业酿酒厂中本土酿酒酵母的优势。

Effect of sulfite addition and pied de cuve inoculation on the microbial communities and sensory profiles of Chardonnay wines: dominance of indigenous Saccharomyces uvarum at a commercial winery.

机构信息

Department of Biology, Irving K. Barber School of Arts and Sciences, The University of British Columbia, Kelowna, British Columbia, Canada, V1V 1V7.

Summerland Research and Development Centre, Agriculture and Agri-Food Canada, Summerland, British Columbia, Canada, V0H 1Z0.

出版信息

FEMS Yeast Res. 2019 Aug 1;19(5). doi: 10.1093/femsyr/foz049.

DOI:10.1093/femsyr/foz049
PMID:31344230
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6666381/
Abstract

The microbial consortium of wine fermentations is highly dependent upon winemaking decisions made at crush, including the decision to inoculate and the decision to add sulfur dioxide (SO2) to the must. To investigate this, Chardonnay grape juice was subjected to two inoculation treatments (uninoculated and pied de cuve inoculation) as well as two SO2 addition concentrations (0 and 40 mg/L). The bacterial communities, fungal communities and Saccharomyces populations were monitored throughout fermentation using culture-dependent and culture-independent techniques. After fermentation, the wines were evaluated by a panel of experts. When no SO2 was added, the wines underwent alcoholic fermentation and malolactic fermentation simultaneously. Tatumella bacteria were present in significant numbers, but only in the fermentations to which no SO2 was added, and were likely responsible for the malolactic fermentation observed in these treatments. All fermentations were dominated by a genetically diverse indigenous population of Saccharomyces uvarum, the highest diversity of S. uvarum strains to be identified to date; 150 unique strains were identified, with differences in strain composition as a result of SO2 addition. This is the first report of indigenous S. uvarum strains dominating and completing fermentations at a commercial winery in North America.

摘要

葡萄酒发酵的微生物群落高度依赖于压榨时所做的酿酒决策,包括接种和向葡萄汁中添加二氧化硫(SO2)的决策。为了研究这一点,对霞多丽葡萄汁进行了两种接种处理(未接种和葡萄渣接种)以及两种 SO2 添加浓度(0 和 40mg/L)。使用培养依赖和培养独立技术在整个发酵过程中监测细菌群落、真菌群落和酿酒酵母种群。发酵后,由专家组对葡萄酒进行评估。当不添加 SO2 时,葡萄酒同时进行酒精发酵和苹果酸-乳酸发酵。塔图姆菌大量存在,但仅存在于未添加 SO2 的发酵中,它们可能是这些处理中观察到的苹果酸-乳酸发酵的原因。所有发酵均由遗传多样性的本土酿酒酵母葡萄变种(Saccharomyces uvarum)主导,这是迄今为止鉴定到的酿酒酵母葡萄变种中多样性最高的;鉴定出 150 个独特的菌株,由于 SO2 的添加,菌株组成存在差异。这是第一个报告在北美商业酿酒厂中,本土酿酒酵母葡萄变种占主导地位并完成发酵的报告。

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