Search results for: Polyphenolic
Also known as physiological ripeness, is the concentration of polyphenols in grape skins, seeds and stems, in contrast to the traditional form of measuring ripeness based on sugar content (Brix, Baumé, Oechsle). It has become a trend among vintners to rely more on polyphenolic ripeness than on sugar levels in recent years, as polyphenols are the source of wine's color, flavor and mouthfeel. As grapes mature, particularly in warmer climates, sugar levels frequently rise faster than polyphenol concentrations. Leaving grapes on the vine longer to achieve polyphenolic ripeness has led to an increase in alcohol levels due to higher sugar contents, particularly in California.
The mouth-puckering polyphenols, most prominent in red wines, that are derived primarily from grape skins, seeds and stems, but also from oak barrels. Tannins are an important component of a wine's structure and texture, and act as a natural preservative that help wine age and develop.
Tannins, color pigments and flavor compounds originating in the skins, seeds and stems of grapes. Phenolics, which are antioxidants, are more prevalent in red wines than in whites.
Polyphenol found in grape skins and wine as well as in other foods such as peanuts, blueberries and cranberries. It is believed to be the source of wine's health benefits; studies have linked resveratrol with improved heart health and endurance as well as reduced risk of age-related degeneration, Alzheimer's disease, arthritis, blindness, cancer, obesity and type 2 diabetes.
Chemical compounds found in plant life. In grapes, polyphenols are responsible for skin pigment, tannins and flavors—all of which fall under the category of flavonoids—as well as resveratrol, the compound associated with many of wine's health benefits, and which falls under the much smaller polyphenol category of non-flavonoids. Pertaining to wine, grape skins, seeds and stems contain the highest concentrations of polyphenols.
See Polyphenolic Ripeness.