Foods (Dec 2023)

Optimizing Processing Techniques of Oolong Tea Balancing between High Retention of Catechins and Sensory Quality

  • Xiaofeng Lu,
  • Yanyan Lin,
  • Yanming Tuo,
  • Lijia Liu,
  • Xinxin Du,
  • Qiufang Zhu,
  • Yunfei Hu,
  • Yutao Shi,
  • Liangyu Wu,
  • Jinke Lin

DOI
https://doi.org/10.3390/foods12234334
Journal volume & issue
Vol. 12, no. 23
p. 4334

Abstract

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Catechins are the major flavor substances in teas, which have a variety of health effects; however, high catechin and high sensory quality are a pair of contradictions that are difficult to coordinate. To explore the processing procedure with high catechins and high sensory quality, a single-factor processing experiment was carried out over the processing production of oolong tea. Combined with orthogonal partial least square discriminant analysis (OPLS-DA), correlation analysis, and principal component analysis (PCA), the optimal production procedure for oolong tea is as follows: red light withering for 8 h, leaf rotating for 10 min with a total standing time for 8 h, drum roasting for 5 min at 290 °C, low-temperature rolling (flattening at 4 °C for 5 min, without pressure for 1 min and under pressure for 5 min), microwave drying (800 W for 7.5 min). This study demonstrates a significant increase in the retention of catechins, which contributes to the mellow and brisk tastes of oolong tea, addressing the challenge of catechin content and sensory quality. Our study provides a novel insight into the relationship between the oolong tea processing and flavor formation.

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