Characterization of the key odorants in floral aroma green tea based on GC-E-Nose, GC-IMS, GC-MS and aroma recombination and investigation of the dynamic changes and aroma formation during processing

[Display omitted] •Volatiles in floral aroma green tea during processing were studied by volatolomics.•A total of 184 volatile compounds were identified by integrated three techniques.•Significant changes in volatiles were observed in withering and fixation processes.•Seven key odorants were identif...

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Veröffentlicht in:Food chemistry 2023-11, Vol.427, p.136641-136641, Article 136641
Hauptverfasser: Xie, Jialing, Wang, Lilei, Deng, Yuliang, Yuan, Haibo, Zhu, Jiayi, Jiang, Yongwen, Yang, Yanqin
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Sprache:eng
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Zusammenfassung:[Display omitted] •Volatiles in floral aroma green tea during processing were studied by volatolomics.•A total of 184 volatile compounds were identified by integrated three techniques.•Significant changes in volatiles were observed in withering and fixation processes.•Seven key odorants were identified and verified by aroma recombination. To characterize the key odorants of floral aroma green tea (FAGT) and reveal its dynamic evolution during processing, the volatile metabolites in FAGT during the whole processing were analyzed by integrated volatolomics techniques, relative odor activity value (rOAV), aroma recombination, and multivariate statistical analysis. The volatile profiles undergone significant changes during processing, especially in the withering and fixation stages. A total of 184 volatile compounds were identified (∼53.26% by GC-MS). Among them, 7 volatiles with rOAV > 1 were identified as characteristic odorants of FAGT, and most of these compounds reached the highest in withering stage. According to the formation pathways, these key odorants could be divided into four categories: fatty acid-derived volatiles, glycoside-derived volatiles, amino acid-derived volatiles, and carotenoid-derived volatiles. Our study provides a comprehensive strategy to elucidate changes in volatile profiles during processing and lays a theoretical foundation for the targeted processing of high-quality green tea.
ISSN:0308-8146
1873-7072
DOI:10.1016/j.foodchem.2023.136641