Deciphering the flavor profile and seasonal variation of black tea processed from cultivar 'Baiye 1'
文献类型: 外文期刊
第一作者: Chen, Lin
作者: Chen, Lin;Shi, Yuxuan;Sun, Jiayi;Wang, Huajie;Wang, Yuefei;Xu, Ping;Xu, Ping;Shu, Zaifa;He, Weizhong;Dong, Chunwang
作者机构:
关键词: 'Baiye 1' black tea; Flavor profile; Metabolomics; Seasonal variation
期刊名称:FOOD RESEARCH INTERNATIONAL ( 影响因子:8.0; 五年影响因子:8.5 )
ISSN: 0963-9969
年卷期: 2025 年 208 卷
页码:
收录情况: SCI
摘要: Black tea flavor is predominantly shaped by the internal composition of the materials utilized, and black teas produced from high-polyphenol varieties is typically characterized by a stronger, bitter, astringent taste with a low aroma intensity. Therefore, understanding the flavor profile and material basis of black tea produced from high-amino acids tea plants may be helpful to enhance flavor and innovate black tea products. Here, by sensory evaluation and metabolomics analysis, it was found that the typical flavor of 'Baiye 1' black tea (BYBT) was orange-red solution color, a sweet potato-like or sweet honey-like aroma, and a sweet, umami, and light taste. A total of 110 characteristic volatiles of BYBT were identified, among which 29 metabolites, including beta-ionone with a sweet aroma, may be considered the key compounds responsible for the sweet aroma. The geraniol, cis-3- hexenyl isovalerate, and n-valeric acid cis-3-hexenyl were key volatiles that distinguish different seasons. Additionally, 7 volatiles, including beta-ocimene, geraniol, citral, were the crucial metabolites responsible for the stronger sweet or honey aroma of BYBT in spring. The lower tea polyphenols and the higher amino acids and sugars shaped the BYBT profile with distinct umami and sweetness, as well as a light taste. Amino acids, catechins and their derivatives were the most significantly affected by seasonal variations in BYBT, and were also responsible for the differences in taste and color quality observed between samples with different seasons. The findings of this study provided a scientific foundation for the development of novel black tea products or derivatives thereof.
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