Unraveling the microbial compositions, metabolic functions, and antibacterial properties of Huangshui, a byproduct of Baijiu fermentation

[Display omitted] •Chemical profiles and key metabolic pathways in the HS were revealed by metabolomics.•Differences in microbiota and metabolome depending on the workshop factors.•HS exhibited potent antibacterial and anti-biofilm activities.•The flavor profiles of HS contained numerous well-known Baijiu compounds. Huangshui (HS) is a byproduct of Chinese Baijiu production that has tremendous potential to become a high-value product in the food industry. This study comprehensively analyzed the commonalities and differences in physicochemical properties, microbial structures, metabolomes, flavor profiles, and antibacterial properties among sources of HS. The HS samples were extracted from three different pits in three different workshops within an industrial Baijiu distillery. Lactobacillus was the dominant genus of bacteria in all of them, while Kazachstania, Aspergillus, and Pichia were the dominant genera of fungi. A total of 45 volatile compounds, including ethyl hexanoate, hexanoic acid, and 1-butanol, were detected in the HS by headspace solid-phase microextraction coupled with gas chromatography mass spectrometry, suggesting HS could be used to flavor liquor. Untargeted metabolomic analysis yielded 224 nonvolatile metabolites that were common in all HS samples. These metabolites included organic acids, carbohydrates, benzenoids, nucleic acids, and fatty acids, which are mainly involved in amino acid and sugar metabolism. While the compositions of the microbiome and metabolome among HS samples were affected by workshop factors, there were essentially no differences in the bactericidal properties of the HS samples among workshops. HS exhibited potent antibacterial activities against Escherichia coli and Staphylococcus aureus, and HS was effective in inactivating mature biofilms formed on polystyrene microplates, as confirmed by scanning electron micrographs. Our results provided a theoretical basis to increase the economic value of HS for applications in the food industry.