Abstract
One of the most common techniques for wine analysis is gas chromatography coupled with the flame ionization detector and headspace autosampler (HSS-GC/FID) for the analysis of the volatile compounds in the wine samples. The main goal of this thesis was to develop the method for the analysis of volatiles (methanol, higher alcohols, and esters) in wine samples made of Cabernet Sauvignon and Merlot. Validation parameters were: r2 > 0.995; LOD (0.2–1.0 mg/L); CV (2.7–6.3%), and recovery (92–106%). Average contents of the methanol (198.0 mg/L and 150.5 mg/L), higher alcohols (398.5 mg/L and 335.8 mg/L), ethyl acetate (42.0 mg/L and 55.6 mg/L), and acetaldehyde (23.3 mg/L and 16.1 mg/L) were determined for Merlot and Cabernet Sauvignon, respectively. Based on the obtained results, it was concluded that the content of methanol is in direct connection with the type of grape used for preparation of the wine. It was also found that the duration of the maceration directly influenced the content of the methanol and higher alcohols. On the other hand, type of grape appeared not to have influence on the content of ethyl acetate and acetaldehyde in wines. The post hoc Tukey’s HSD test at 95% confidence limit showed significant differences between observed samples. Principal Component Analysis (PCA) was used for assessing the effect of different genotypes and extraction methods on wine samples. Using PCA of observed samples, the possible directions for improving the quality of product can be realized.
Highlights
Wine is one of the most popular alcoholic drinks all over the world
Taking the significance of the volatile compounds’ determination, especially aldehydes, esters, and alcohols, this study aimed to develop a rapid method for the determination of these compounds
The limit of detection (LOD) was in the range of 0.20–1.01 mg/L, while limit of quantitation (LOQ) ranged from 0.67 mg/L to 3.38 mg/L depending on the analyzed compound and concentration range used for the creation of the calibration curve
Summary
Its aroma is one of the most important characteristics of this drink [1,2,3]. It is recognized as a complex mixture with more than 800 identified volatile compounds which influence the quality of this beverage [4,5]. Aroma represents the products of both biochemical and technological processes during the wine production [6]. Some of them are already present in the grape and are accounted as primary aroma, while others are formed during the fermentation and aging by different technological and/or biochemical processes [8,9,10].
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