Black tea is frequently consumed worldwide and is renowned for having a distinctive scent. The volatile chemicals in tea are responsible for its aroma, which is important for sensory quality. The enzymatic and non-enzymatic processes that produce the compounds endowing black tea with its distinctive aroma are complex. Black tea is well known for its robust and complex aroma, which can vary based on the type of tea leaves used and processing technologies used. During the production of black tea, several intricate biological and chemical processes contribute to the aroma’s development. Different volatile chemicals are generated during the processing of black tea, which includes withering, rolling, fermentation (enzymatic oxidation), and drying. Various methods have been used to analyze and describe the aroma of black tea. Different methods, such as gas chromatography-mass spectrometry, olfactometry, and solid phase extraction, have been used to assess the fragrance of black tea. These methods evaluate characteristics including fruity, flowery, woody, malty, spicy, and smoky flavors. Phenyl ethyl alcohol, one-octen-3-ol, trans-linalool oxide (furanoid), geraniol, and nonanal are major aroma-active compounds in black tea. Sensory analytic techniques are used to assess black tea’s flavor and scent qualities. This assessment helps figure out the tea’s quality, unique characteristics, and even some unpleasant attributes. Black tea is mostly made from Camellia sinensis and Camellia assamica tea varieties. These two varieties, members of the Camellia genus, differ in their development patterns, leaf sizes, and chemical makeup, impacting how black tea’s scent is formed. When evaluating black tea made from Camellia sinensis and assamica, sensory analysis involved assessing the aroma when the tea was dry and, after brewing, noting any differences from other teas. This review focused on how key aromatic compounds are formed during the tea manufacturing process by Camellia sinensis and Camellia assamica black tea.
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Yichang , Hubei , China , United Kingdom , Hanzhong , Shaanxi , Yingde , Guangdong , Fujian , Longjing , Jilin , Sri Lanka , Xinyang , Henan , United States , Sri Lankan , Chinese , America , Sciencedirect Elsevier , National Neuroscience Institute , Singapore Chinese Health Study , Department Of Neurology , Yunnan Province , North America , Activity Values , Main Aroma Compounds , Yunnan Congou , Main Processing Technologies , Enzymatic Oxidation , Formation Pathway , Critical Aroma , Critical Aroma Compounds , Manufacturing Parameters , Horticultural Practice , Growing Area , Health Benefits , Associate Professor Louis Tan , Senior Consultant , Del Rio , Tract Protective ,
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