Temperature acts as a master regulator of microbial metabolism in dark tea fermentation, but how to precisely steer this process to craft flavor profiles remains a significant challenge. The metabolic fingerprint of Aspergillus tubingensis during dark tea fermentation under varying temperatures was decoded by utilizing HS-SPME-GC–MS and UHPLC-Q-Exactive HF/MS techniques. The results revealed that temperature acts as a precise metabolic switch. Low temperatures produced a mushroom-like aroma profile dominated by 1-octen-3-ol at dark tea fermentation, while high temperatures yielded a floral-woody profile via massive accumulation of β -ionone. This temperature-dependent control extended to non-volatile compounds, modulating taste by balancing flavonoid degradation with carbohydrate metabolism. Critically, temperature significantly regulated the production of lovastatin by A. tubingensis . This study not only provides a clear metabolic blueprint for understanding the dark tea fermentation but also offers a theoretical basis for the targeted regulation of tea quality via precise temperature control. • Temperature switched metabolic output of Aspergillus tubingensis . • Temperature controlled aroma: low for mushroom, high for woody. • Temperature balanced flavonoids and sugars to optimize taste. • The production of lovastatin by A. tubingensis was regulated by temperature.
Niaz et al. (Sun,) studied this question.