RESUMO
The black chokeberry is a shrub of the Rosaceae family, which is characterized by strong acidity and astringency and is widely processed into wine and alcoholic beverages. However, due to the characteristics of black chokeberries, the wine brewed by traditional methods often has a strong sour taste, weak aroma, and poor sensory quality. In order to improve the sensory quality and explore the effects of different brewing technologies on polyphenols of black chokeberry wine, five brewing technologies (traditional fermentation, frozen fruit fermentation, co-fermentation, carbonic maceration, and co-carbonic maceration) were used in this study. The results showed that compared with the traditional method, the four alternative brewing technologies could reduce acidity, increase the contents of several major polyphenols, and enrich floral scents and fruity aroma, thus significantly improving the sensory qualities of black chokeberry wine. The proposed brewing technologies would be applied to the production of quality black chokeberry or other fruit wines.
RESUMO
(1) Background: Beibinghong is a grapevine variety that is well distributed in Northeastern China due to its adaptation to extreme cold conditions and vine diseases. Nonetheless, Beibinghong wines are extremely acidic and rich in phenolic compounds. The aim of this research was to study the effects of leaf removal at véraison and foliar K+ applications on Beibinghong vines to reduce the acidity and increase their polyphenol content. (2) Methods: Beibinghong berries were harvested when they reached close to 20 °Brix, and the physicochemical parameters were determined. (3) Results: Leaf removal at véraison plus K+ foliar applications to Beibinghong vines decreased the titratable acidity and increased the total phenolic and phenolic acid contents compared with the control. Moreover, the titratable acidity in the Beibinghong berries was negatively related to their total contents of phenols, proanthocyanidins, and anthocyanins. (4) Conclusions: Leaf removal at véraison performed with foliar K+ applications to vines could be an interesting alternative for Beibinghong production under cold-climate viticulture because it allows for a decrease in the acidity and an increase in the phenolic content of the berries, without incurring the risk of sunburn.