Effect of Pichia on shaping the fermentation microbial community of sauce-flavor Baijiu

In spontaneous food fermentation processes, environmental microbiota affects the yield and quality of the fermentation productions. Although the importance of environmental microbiota has been highlighted, the ecological processes that how the environmental microbiota affects the fermentation microb...

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Veröffentlicht in:International journal of food microbiology 2021-01, Vol.336, p.108898, Article 108898
Hauptverfasser: Zhang, Hongxia, Wang, Li, Tan, Yuwei, Wang, Heyu, Yang, Fan, Chen, Liangqiang, Hao, Fei, Lv, Xibin, Du, Hai, Xu, Yan
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Sprache:eng
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Zusammenfassung:In spontaneous food fermentation processes, environmental microbiota affects the yield and quality of the fermentation productions. Although the importance of environmental microbiota has been highlighted, the ecological processes that how the environmental microbiota affects the fermentation microbial community are poorly understood. To study the effect of the environmental microbiota on community assembly, the sources of microbiota and the ecological processes of the fermentation were characterized in sauce-flavor Baijiu. Results showed that the process of sauce-flavor Baijiu making could be divided into three phases according to fermentation parameters. Heap fermentation (phase I) was an important period for rapid temperature rise, substrate utilization and production accumulation. The microbial community of heap fermentation was characterized by decrease of diversity and rapid succession of community structure. Virgibacillus, Kroppenstedtia, Bacillus and Oceanobacillus were predominant in the initial heap fermentation, while Lactobacillus was predominant during the later stage. Pichia was the predominant fungal genus during the whole fermentation process. Then, SourceTracker results showed that Daqu provided 95.6% of the bacterial community and 28.10% of the fungal community to heap fermentation, whereas the environments (indoor ground and tools) provided 71.9% of the fungal communities (mainly Pichia) to heap fermentation. Next, the results revealed that the temperature, ethanol and microbial interaction of Pichia synergistically drove the dynamic of the microbial community during the heap fermentation process. Pichia was proved to be the heat-resistant fungi and strong competitor based on growth in different temperature and competition assays in vitro. Finally, the quick succession of heap fermentation microbiota increased the enrichment of volatile flavors such as acids and esters. Our comprehensive methods shows that Pichia, which mainly comes from the environment, can construct the microbial community of Baijiu fermentation, and highlights the importance of environmental microbiota in attempts to control and promote the formation of Baijiu fermentation microbial community. This systematic study of environmental microbiota is valuable for quality control and management during spontaneous fermentation. •Daqu was the main source of bacteria for heap fermentation.•The environment was the main source of fungi for heap fermentation.•Pichia drove the mic
ISSN:0168-1605
1879-3460
DOI:10.1016/j.ijfoodmicro.2020.108898