Response of microbial community assembly and succession pattern to abiotic factors during the second round of light-flavor Baijiu fermentation

The regulation of microbial communities is an important strategy for fermentation management. Dynamic microbiota during the Baijiu fermentation is shaped by a variety of abiotic factors. Therefore, this study aims to investigate the effects of the microbiota of the fermentation starter Daqu on the microbial assembly and the interaction of microbiota succession and abiotic factors during the second round (Ercha) of light-flavor Baijiu fermentation. The results revealed that Streptomyces, Bacillus, Lactobacillus, and Staphylococcus were the dominant bacterial genera in the initial fermentation, while Lactobacillus was dominant during the middle and later stages. Pichia and Saccharomycopsis were the dominant fungal genera during the whole fermentation process. A total of 54 volatile compounds were identified during the fermentation, among which 15 compounds, mainly including ethyl acetate, diethyl azelate, ethyl 2-hydroxyisocaproate, 3-furaldehyde, and ethylidene diacetate, were identified as important flavor metabolites. The SourceTracker software revealed that Daqu contributed 52.3 % of the bacterial community and 38.6 % of the fungal community to the fermentation. Ethanol, moisture, and pH were the major factors regulating the succession of dominant bacteria and fungi during the fermentation. The microbial succession and co-occurrence pattern driven by abiotic factors played a crucial role in shaping flavor profiles. These results provide guidance for controlling the fermentation process by optimizing operational parameters or bioaugmentation with specific microbes.