Effects of new bioreactor on microbial community and physicochemical indexes of strong-flavor fermented grains

Effects of new bioreactor on microbial community and physicochemical indexes of strong-flavor fermented grains

In order to produce high quality strong-flavor (Nongxiangxing) Baijiu, using new bioreactor and traditional pit as research objects, the effects of traditional pit production technology (control group), new bioreactor production technology (experimental group I) and optimized new bioreactor producti...

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Main Author: MO Yuting, YUAN Siqi, ZHOU Shuai, SHUI Liangyang, YANG Mingyong, LIU Jun, YANG Zhoulin, FAN Hongjun
Format: Article
Language:English
Published: Editorial Department of China Brewing 2024-04-01
Series:Zhongguo niangzao
Subjects:
new bioreacter|strong-flavor baijiu|fermented grains|microbial community|physicochemical index|correlation
Online Access:https://manu61.magtech.com.cn/zgnz/fileup/0254-5071/PDF/0254-5071-2024-43-4-135.pdf
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Summary:In order to produce high quality strong-flavor (Nongxiangxing) Baijiu, using new bioreactor and traditional pit as research objects, the effects of traditional pit production technology (control group), new bioreactor production technology (experimental group I) and optimized new bioreactor production technology (experimental group II) on the physicochemical indexes and microbial community of fermented grains were explored, and the correlation between the physicochemical indexes and microbial community structure of fermented grains in fermentation process was analyzed by redundancy analysis (RDA). The results showed that compared with the control group, the temperature of experimental group I and II rose faster, and the apex temperature was higher than that of the control group (30.0 ℃), which was 33.2 ℃ and 35.5 ℃, respectively. Experimental group II had the optimal heating effect and kept the appropriate temperature for a longer time. The water content, starch and reducing sugar consumption of experimental group were higher, and the acidity of fermented grains in the lower layer of experimental group II was the highest (4.24 mmol/10 g). Fermented grains in experimental group II after fermentation, the relative abundance of dominant bacteria phylum Firmicutes and dominant fungi phylum Ascomycota was 92.44% and 97.59%, respectively. The relative abundance of dominant bacteria genus Lactobacillus was the highest (92.30%). The results of RDA showed that there was a significant correlation between the physicochemical index of fermented grains in experimental group II and the changes of microbial community structure (P<0.05).
ISSN:0254-5071

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