Comparative Study of the Sensory Impacts of Acidifiers for Red Wine Production

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Rising temperatures have caused a major shift in wine chemistry, including increased sugar and pH along with decreased acidity. Wines produced from such grapes tend to be microbiologically unstable and are often described as unpalatable. This study looks at treatments to lower pH and enhance sensory characteristics of wines produced from grapes grown at higher temperatures. The four acidification treatments included the following: tartaric acid; verjus—an acidic juice made from unripe grapes; glucose oxidase with catalase enzyme (GOx), which converts glucose to gluconic acid; and ion exchange. All treatments were able to reduce pH to the target pH of 3.6. Sensory analysis was conducted using the Hierarchical Rate-All-That-Apply (HRATA) method and preference testing. Analysis of the HRATA and GCMS data using Principal Component Analysis (PCA) accounted for 78.69% and 70% of the variance observed, respectively. Wines treated with GOx and verjus exhibited the most distinct sensory profiles when compared to each other, the other treatments, and the control group. GOx-treated wines were associated with positive flavor descriptors including caramel, hazelnut, lemon, and fruity which correlated well with the aromatic compounds determined by GCMS. There were no significant differences in consumer preferences of treatments. This study shows how different acidifiers can be utilized by winemakers to affect not just the pH and acidity but also the aromatic and flavor profile of the wine.