雷司令冰葡萄酒汁对酵母性能和葡萄酒酸度的浓缩效应。
Concentration effect of Riesling Icewine juice on yeast performance and wine acidity.
作者信息
Pigeau G M, Bozza E, Kaiser K, Inglis D L
机构信息
Cool Climate Oenology and Viticulture Institute, Brock University, St Catharines, ON, Canada.
出版信息
J Appl Microbiol. 2007 Nov;103(5):1691-8. doi: 10.1111/j.1365-2672.2007.03397.x.
AIMS
The objective of this study was to determine the effect of increasing juice soluble solids above 40 degrees Brix on wine yeast's ability to grow and ferment the juice, with particular focus on acetic acid production, titratable acidity (TA) changes and the maximum amount of sugar consumed by the yeast.
METHODS AND RESULTS
Riesling Icewine juices at 40, 42, 44 and 46 degrees Brix were inoculated with K1- V116 at 0.5 g 1(-1) and fermented at 17 degrees C until sugar consumption ceased. Increasing soluble solids showed strong negative linear correlations with yeast growth, sugar consumption and ethanol production (r = -0.999, -0.997 and 0.984, P < 0.001, respectively). Acetic acid, glycerol and TA production normalized to sugar consumed showed strong positive correlations to the initial juice concentration (r = 0.992, 0.963, and 0.937, P < 0.001 respectively) but no correlation was found for ethanol production. The acetic acid produced as a function of sugar consumed was positively correlated to the glycerol produced (r = 0.970, P < 0.001). The final TA of the wines ranged between 11.8 and 13.7 g 1(-1) tartaric acid, increasing by 2.3-3 g 1(-1) over the starting juice. The increase in TA was positively correlated to the increase in acetic acid produced after normalizing the data to the amount of sugar consumed (r =0.975, P < 0.001). The acid equivalents resulting from the increase in acetic acid accounted for 80-100% of the TA increase when converted to units of tartaric acid. In the final Icewines, acetic acid represented 19-20% of wine TA.
CONCLUSIONS
Increasing Icewine juice concentration from 40 to 46 degrees Brix increases the proportion of yeast sugar metabolism towards glycerol and acetic acid production to cope with the increased osmotic stress by decreasing yeast growth, sugar consumption rate, the total amount of sugar consumed and the total amount of ethanol produced. The high proportional contribution of acetic acid to titratable acidity in Riesling Icewine may affect acidity perception.
SIGNIFICANCE AND IMPACT OF THE STUDY
We have determined that 10% v/v ethanol would not be achievable with initial juice concentrations above 42 degrees Brix and that Riesling Icewine juice above 52.5 degrees Brix would be theoretically unfermentable. The high proportional contribution of acetic acid to TA may be an important factor in the organoleptic balance of these Icewines.
目的
本研究的目的是确定将果汁可溶性固形物提高到40°Brix以上对葡萄酒酵母生长和发酵果汁能力的影响,特别关注乙酸生成、可滴定酸度(TA)变化以及酵母消耗的最大糖量。
方法与结果
将酒精度分别为40、42、44和46°Brix的雷司令冰葡萄酒汁以0.5 g·L⁻¹的接种量接入K1-V116酵母,在17℃下发酵,直至糖消耗停止。可溶性固形物的增加与酵母生长、糖消耗和乙醇生成呈强烈的负线性相关(r分别为-0.999、-0.997和-0.984,P<0.001)。以消耗的糖为基准计算的乙酸、甘油和TA生成量与初始果汁浓度呈强烈的正相关(r分别为0.992、0.963和0.937,P<0.001),但乙醇生成量与之无关。乙酸生成量与消耗的糖量的函数关系与甘油生成量呈正相关(r = 0.970,P<0.001)。葡萄酒的最终TA在11.8至13.7 g·L⁻¹酒石酸之间,比起始果汁增加了2.3 - 3 g·L⁻¹。将数据按消耗的糖量归一化后,TA的增加与乙酸生成量的增加呈正相关(r = 0.975,P<0.001)。当将乙酸增加量换算为酒石酸单位时,其产生的酸当量占TA增加量的80 - 100%。在最终的冰葡萄酒中,乙酸占葡萄酒TA的19 - 20%。
结论
将冰葡萄酒汁浓度从40°Brix提高到46°Brix会使酵母糖代谢朝着甘油和乙酸生成的比例增加,以应对渗透压增加,表现为酵母生长、糖消耗速率、消耗的糖总量和生成的乙醇总量减少。雷司令冰葡萄酒中乙酸对可滴定酸度的高比例贡献可能会影响酸度感知。
研究的意义与影响
我们已确定初始果汁浓度高于42°Brix时无法达到10% v/v的乙醇含量,理论上高于52.5°Brix的雷司令冰葡萄酒汁不可发酵。乙酸对TA的高比例贡献可能是这些冰葡萄酒感官平衡的一个重要因素。
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