Fungal Diversity and Dynamics during Grape Wine Fermentations with Different Sulfite Levels and Yeast Inoculations

IF 2.2 3区 农林科学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Natacha Cureau, R. Threlfall, Franck Carbonero, L. Howard, Laura Lavefve
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引用次数: 7

Abstract

Microbial communities during grape wine fermentations are diverse and dynamic. High-throughput sequencing (molecular methods enabling precise identification of microbial communities) was used to identify fungal diversity during fermentation of grape juice with different sulfite levels and yeast inoculations. Fermentation (0, 14, and 21 days) was evaluated in two grape varieties, Noble (Vitis rotundifolia) and Vignoles (Vitis hybrid), fermented at three sulfite levels (0, 10, and 20 mg/L) with three yeast inoculations (uninoculated, Saccharomyces cerevisiae, and Torulaspora delbrueckii). Fungal taxonomy of both varieties included six to seven phyla and 115 to 129 genera. The indigenous microbiota was affected by sulfite level and yeast inoculation and varied by grape variety. Sulfite levels had minimal effect on fungal communities but did affect fermentation dynamics. Increasing sulfite additions did not affect the fermentation performance of S. cerevisiae but did affect the fermentation of uninoculated juice and T. delbrueckii-inoculated juice. The primary fungal genera (Podosphaera, Candida, Phialemoniopsis, and Meyerozyma)—those present at a relative abundance >1%—were the same for both varieties but at different relative abundance. Similar fungal diversity patterns were observed for both varieties, with a decrease in diversity at day 14 and an increase at day 21 of fermentation. Juices inoculated with T. delbrueckii were rapidly colonized by Torulaspora spp. at day 0 for both varieties, whereas Saccharomyces spp. dominated by day 14 when inoculated with S. cerevisiae, especially in Noble. The most abundant genera in uninoculated juice were Hanseniaspora and Zygoascus for Noble and Hanseniaspora and Saccharomyces for Vignoles. Understanding grape juice microbial communities and the dynamics of these communities during fermentation provides insight for wine production using spontaneous fermentations or non-Saccharomyces species and information on the effect of sulfur dioxide on these novel fermentations.
不同亚硫酸盐水平和酵母接种对葡萄酒发酵过程中真菌多样性和动态的影响
葡萄酒发酵过程中的微生物群落具有多样性和动态性。高通量测序(能够精确识别微生物群落的分子方法)用于识别不同亚硫酸盐水平的葡萄汁发酵和酵母接种过程中的真菌多样性。对两个葡萄品种Noble(圆叶葡萄)和Vignoles(葡萄杂交种)的发酵(0、14和21天)进行了评估,这两个葡萄在三种亚硫酸盐水平(0、10和20mg/L)下用三种酵母接种(未接种、酿酒酵母和德氏曲孢菌)发酵。两个变种的真菌分类包括6至7个门和115至129个属。本地微生物群受亚硫酸盐水平和酵母接种的影响,并因葡萄品种而异。亚硫酸盐水平对真菌群落的影响很小,但确实影响了发酵动力学。增加亚硫酸盐的添加量不会影响酿酒酵母的发酵性能,但会影响未接种果汁和德氏乳杆菌接种果汁的发酵。初级真菌属(Podosphaera、Candida、Phialemoniopsis和Meyerozyma)的相对丰度>1%,两个品种的相对丰度相同,但不同。两个品种的真菌多样性模式相似,在发酵的第14天多样性降低,第21天多样性增加。接种德氏乳杆菌的汁液在第0天被Torulaspora spp.快速定植,而当接种酿酒酵母时,酿酒酵母在第14天占主导地位,尤其是在Noble。未接种果汁中最丰富的属是汉少孢菌属(Hanseniaspora)和Zygasascus属(贵族属和汉少孢属)以及酿酒酵母属(Saccharomyces)。了解葡萄汁微生物群落和发酵过程中这些群落的动态,可以深入了解使用自发发酵或非酿酒酵母物种生产葡萄酒,并了解二氧化硫对这些新型发酵的影响。
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来源期刊
American Journal of Enology and Viticulture
American Journal of Enology and Viticulture 农林科学-生物工程与应用微生物
CiteScore
3.80
自引率
10.50%
发文量
27
审稿时长
12-24 weeks
期刊介绍: The American Journal of Enology and Viticulture (AJEV), published quarterly, is an official journal of the American Society for Enology and Viticulture (ASEV) and is the premier journal in the English language dedicated to scientific research on winemaking and grapegrowing. AJEV publishes full-length research papers, literature reviews, research notes, and technical briefs on various aspects of enology and viticulture, including wine chemistry, sensory science, process engineering, wine quality assessments, microbiology, methods development, plant pathogenesis, diseases and pests of grape, rootstock and clonal evaluation, effect of field practices, and grape genetics and breeding. All papers are peer reviewed, and authorship of papers is not limited to members of ASEV. The science editor, along with the viticulture, enology, and associate editors, are drawn from academic and research institutions worldwide and guide the content of the Journal.
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