酱香型白酒一轮次糟醅微生物群落结构及溯源分析

doi:10.7506/spkx1002-6630-20240625-183

摘要/Abstract

摘要： 为探究酱香型白酒一轮次堆积和窖池发酵过程糟醅微生物群落结构组成与理化指标的相关性及微生物来源，基于传统可培养方法与Illumina MiSeq测序平台对糟醅、酿造环境微生物群落结构组成及演替规律开展研究，并分析其与理化因子的关联作用，进一步采用SourceTracker软件解析糟醅优势微生物的来源和比例。结果表明：一轮次堆积发酵6 d糟醅中细菌和酵母菌的菌落总数达到最大值，分别为（3.45±0.15）×106 CFU/g和（40.5±2.50）×104 CFU/g；堆积发酵6 d后未被分类的乳杆菌科细菌（unclassified_Lactobacillaceae，91.23%～91.77%）和毕赤酵母属（Pichia，32.84%～91.00%）为绝对的优势细菌和真菌属，其中unclassified_Lactobacillaceae与糟醅水分含量和酸度呈显著正相关，Pichia与糟醅水分含量和还原糖含量呈显著正相关。微生物溯源分析表明，堆积发酵0 d和堆积发酵3 d糟醅中优势微生物主要来源于堆积地面（32.44%～57.37%）和生产器具（26.89%～50.74%），堆积发酵6 d至窖池发酵43 d糟醅中优势微生物主要来源于窗台墙壁等物体表面（86.41%～87.31%）。其中unclassified_Lactobacillaceae主要来源于堆积地面（85.79%），堆积发酵6 d后由主要来源于窗台墙壁等物体表面（91.96%～94.91%）。Pichia（1.32%～87.06%）在酿造环境中来源较多，堆积发酵6 d前，在堆积发酵过程中其主要来源于厂房内空气、生产器具和窗台墙壁等物体表面，窖池发酵过程主要来源于窖池内壁，占比为18.21%～30.79%。本研究进一步揭示了酱香型白酒一轮次堆积和窖池发酵过程糟醅微生物群落组成与理化指标的关联作用以及优势微生物菌群来源，为阐明酱香型白酒酿造机理提供了理论基础。

关键词: 酱香型白酒；堆积和窖池发酵；相关性；微生物群落结构；微生物溯源

Abstract: To investigate the correlation between the microbial community structure and composition and physicochemical indicators as well as the sources of microorganisms in fermented grains during the stacking and pit fermentation processes in the first round of jiang-flavor baijiu production, traditional culture methods and Illumina MiSeq sequencing were used to study the composition and succession of microbial communities in the fermented grains and the brewing environment, and their correlation with physicochemical factors was analyzed. Furthermore, the SourceTracker software was employed to determine the sources and proportions of dominant microorganisms in the fermented grains. The results showed that on the 6th day of stacking fermentation, both the total bacteria and yeast counts reached maximum values of (3.45 ± 0.15) × 106 CFU/g and (40.5 ± 2.50) × 104 CFU/g, respectively. Unclassified_Lactobacillaceae (91.23%–91.77%) and Pichia (32.84%–91.00%) were the absolute dominant bacterial and fungal genera. Unclassified_Lactobacillaceae showed a significant positive correlation with the moisture content and acidity of the fermented grains, and Pichia exhibited a significant positive correlation with the moisture content and reducing sugar content. The microbial source tracing analysis indicated that the dominant microorganisms on the 0th and 3rd day of stacking fermentation primarily originated from the ground (32.44%–57.37%) and production utensils (26.89%–50.74%). From the 6th day of stacking fermentation to 43rd day of pit fermentation, the dominant microorganisms mainly originated from surfaces such as window sills and walls (86.41%–87.31%). Specifically, unclassified_Lactobacillaceae mainly came from the ground (85.79%) across the stacking and pit fermentation processes and from windowsill and wall surfaces (91.96%–94.91%). There were more diverse sources of Pichia (1.32%–87.06%) in the brewing environment. Before the 6th day of stacking fermentation, its major sources were the air inside the workshop and the surface of production utensils, windowsills, and walls. During pit fermentation, its major sources were the inner wall of the pit, accounting for 18.21%–30.79%. This study provides a theoretical basis for elucidating the brewing mechanism of jiang-flavor baijiu.

Key words: jiang-flavor Baijiu; stacking and pit fermentation; correlation; microbial community structure; microbial source tracing

中图分类号:

TS262.3

朱安然，汪地强，胡建锋，吴成，谢丹，黄河鸥，杨军林，胡峰，路虎，李傲. 酱香型白酒一轮次糟醅微生物群落结构及溯源分析[J]. 食品科学, 2025, 46(4): 117-125.

ZHU Anran, WANG Diqiang, HU Jianfeng, WU Cheng, XIE Dan, HUANG He’ou, YANG Junlin, HU Feng, LU Hu, LI Ao. Microbial Community Structure and Traceability in Fermented Grains for Jiang-Flavor Baijiu during the First Round of Fermentation[J]. FOOD SCIENCE, 2025, 46(4): 117-125.

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酱香型白酒一轮次糟醅微生物群落结构及溯源分析

Microbial Community Structure and Traceability in Fermented Grains for Jiang-Flavor Baijiu during the First Round of Fermentation

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