Probabilistic model for the spoilage wine yeast Dekkera bruxellensis as a function of pH, ethanol and free SO₂ using time as a dummy variable

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• 作者：M.E. Sturm ; F.N. Arroyo-L贸pez ; A. Garrido-Fern谩ndez ; A. Querol ; L.A. Mercado ; M.L. Ramirez ; M. Combina
• 关键词：Growth/no growth boundaries ; Logistic model ; Wine spoilage
• 刊名：International Journal of Food Microbiology
• 出版年：17 January, 2014
• 年：2014
• 卷：170
• 期：Complete
• 页码：83-90
• 全文大小：1414 K

文摘

The present study uses a probabilistic model to determine the growth/no growth interfaces of the spoilage wine yeast Dekkera bruxellensis CH29 as a function of ethanol (10-15%, v/v), pH (3.4-4.0) and free SO₂ (0-50 mg/l) using time (7, 14, 21 and 30 days) as a dummy variable. The model, built with a total of 756 growth/no growth data obtained in a simile wine medium, could have application in the winery industry to determine the wine conditions needed to inhibit the growth of this species. Thereby, at 12.5% of ethanol and pH 3.7 for a growth probability of 0.01, it is necessary to add 30 mg/l of free SO₂ to inhibit yeast growth for 7 days. However, the concentration of free SO₂ should be raised to 48 mg/l to achieve a probability of no growth of 0.99 for 30 days under the same wine conditions. Other combinations of environmental variables can also be determined using the mathematical model depending on the needs of the industry.