Applied Sciences (Aug 2022)

Prefermentative Grape Microwave Treatment as a Tool for Increasing Red Wine Phenolic Content and Reduce Maceration Time

  • Paula Pérez-Porras,
  • Encarna Gómez-Plaza,
  • Raquel Muñoz García,
  • María Consuelo Díaz-Maroto,
  • Juan Daniel Moreno-Olivares,
  • Ana Belén Bautista-Ortín

DOI
https://doi.org/10.3390/app12168164
Journal volume & issue
Vol. 12, no. 16
p. 8164

Abstract

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Phenolic compounds are responsible for color and, with it, the quality of red wines. Its content will depend, among other factors, on the oenological techniques applied in the winery and, among them, the maceration time. Long maceration times can generate logistical problems at the moment of maximum grape entry into the winery. Applying techniques that accelerate the extraction of phenolic compounds from the grape solid parts to the must-wine would allow reducing the maceration time. Among the techniques of interest, microwaves use electromagnetic waves to produce dipole rotation and ion conduction, which can increase the elasticity of cell walls and cause the destruction of the cell membrane, facilitating the phenolic compound extraction. To study this effect, crushed grapes of the Cabernet Sauvignon variety were treated with this technology, macerated for 72 h and 7 days, and compared with respect to a control wine without any treatment. The results showed that the application of microwaves to the crushed grape favored a rapid extraction of the phenolic compounds, increasing the color of the wine and with only 72 h of maceration, the wines from treated grapes showed a similar phenolic content and chromatic characteristics to a control wine with 7 maceration days. The extraction of the less astringent skin tannins and the formation of stable pigments was also favored indicating that this technology may allow reducing the maceration time during the winemaking process without affecting the quality and stability of the wine.

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