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Flavor Profile Evolution of Bottle Aged Rosé and White Wines Sealed with Different Closures.

Meng-Qi LingHan XieYu-Bo HuaJian CaiSi-Yu LiYi-Bin LanRuo-Nan LiChang-Qing DuanYing Shi
Published in: Molecules (Basel, Switzerland) (2019)
Bottle aging is the final stage before wines are drunk, and is considered as a maturation time when many chemical changes occur. To get a better understanding of the evolution of wines' flavor profile, the flavor compounds (phenolic and volatile compounds), dissolved oxygen (DO), and flavor characters (OAVs and chromatic parameters) of rosé and dry white wines bottled with different closures were determined after 18 months' bottle aging. The results showed the main phenolic change trends of rosé wines were decreasing while the trends of white wines were increasing, which could be the reason for their unique DO changing behaviors. Volatile compounds could be clustered into fluctuating, increasing, and decreasing groups using k-means algorithm. Most volatile compounds, especially some long-chain aliphatic acid esters (octanoates and decanoates), exhibited a lower decrease rate in rosé wines sealed with natural corks and white wines with screw caps. After 18 months of bottle aging, wines treated with natural corks and their alternatives could be distinguished into two groups based on flavor compounds via PLS-DA. As for flavor characters, the total intensity of aroma declined obviously compared with their initial counterparts. Rosé wines exhibit visual difference in color, whereas such a phenomenon was not observed in white wines.
Keyphrases
  • dna damage
  • cell death
  • reactive oxygen species
  • machine learning
  • high intensity
  • newly diagnosed
  • simultaneous determination