Comparative analysis of microbial communities and physicochemical attributes of strong-aroma Daqu from Southwestern China

Mingfu Shi; Aixia Guo; Yang Li; Dexiang Sun; Tao Wang; Liguo Yin

doi:10.1186/s40643-025-00997-z

Bioresources and Bioprocessing ›› 2026, Vol. 13 ›› Issue (1) :8 DOI: 10.1186/s40643-025-00997-z

Research

research-article

Comparative analysis of microbial communities and physicochemical attributes of strong-aroma Daqu from Southwestern China

Mingfu Shi ¹^,²
, Aixia Guo ¹^,^a
, Yang Li ¹^,²
, Dexiang Sun ³
, Tao Wang ¹^,²
, Liguo Yin ¹^,²^,^b

Author information +

History +

PDF

Abstract

Daqu is a critical saccharifying and fermenting agent in the traditional solid-state production of strong-aroma Baijiu, with its physicochemical properties and microbial communities playing a vital role in both starter quality and final aroma. This study analyzed twelve Daqu samples from four key production regions in Sichuan Province—Luzhou (L), Suining (S), Yibin (Y), and Zigong (Z)—assessing physicochemical parameters such as moisture content, acidity, saccharification, liquefaction, and esterification activities. Microbial communities were characterized using Illumina high-throughput sequencing. Regional variations in physicochemical properties were observed, with Y showing the highest acidity, saccharification, and esterification activities. While no significant regional differences in alpha-diversity were found, β-diversity analysis (PCoA) revealed distinct microbial structures. Bacteria were predominantly represented by Bacillus, Lactobacillus, and Weissella, while Aspergillus, Saccharomycopsis, and Rhizopus dominated fungi. LEfSe analysis (LDA≥4.0) identified region-specific microbial shifts. PICRUSt2 and FUNGuild predictions indicated significant potential for amino acid and carbohydrate metabolism, with saprotrophic fungi being dominant. Correlation analysis highlighted Thermoactinomyces, Weissella, Bacillus, and Rhizopus as key microbes influencing saccharification, starch degradation, and esterification. These findings provide insights into microbial and biochemical factors driving regional differences in Daqu, offering a foundation for standardized production methods and quality control.

Keywords

Daqu / Microbial communities / Physicochemical properties / Baijiu fermentation / Regional variations

Cite this article

Download citation ▾

Mingfu Shi, Aixia Guo, Yang Li, Dexiang Sun, Tao Wang, Liguo Yin. Comparative analysis of microbial communities and physicochemical attributes of strong-aroma Daqu from Southwestern China. Bioresources and Bioprocessing, 2026, 13(1): 8 DOI:10.1186/s40643-025-00997-z

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Chai LJ, Qian W, Zhong XZ, Zhang XJ, Lu ZM, Zhang SY, Wang ST, Shen CH, Shi JS, Xu ZH. Mining the factors driving the evolution of the pit mud Microbiome under the impact of Long-Term production o Strong-Flavor Baijiu. Appl Environ Microbiol, 2021, 87(17): e00885-e00821

[2]	Chen C, Yang HQ, Liu J, Luo HB, Zou W. Systematic review of actinomycetes in the Baijiu fermentation Microbiome. Foods, 2022, 11(22): 3551

[3]	Chen C, Ni DR, Yang YB, Tian JH, Yang F, Ye XQ. Characterizing the microbial community constructure and the metabolites among different colour moutai. Food Chemistry-X, 2025, 26: 102223

[4]	Cheng W, Lan W, Chen XF, Xue XJ, Liang HP, Zeng HW, Li RL, Pan TQ, Li N, Yang HW. Source and succession of microbial communities and tetramethylpyrazine during the brewing process of compound-flavor Baijiu. Front Microbiol, 2024, 15: 1450997

[5]	Cui MJ, Cai WC, Yu PR, Chen W, Shan CH, Zhuang G, Wang YR. Characterization and correlation analysis of bacterial composition and physicochemical quality in High- and Medium-Temperature Daqu from china’s Binzhou region. Curr Microbiol, 2025, 82272

[6]	Deng L, Mao X, Liu D, Ning XQ, Shen Y, Chen B, Nie HF, Huang D, Luo HB. Comparative analysis of physicochemical properties and microbial composition in High-Temperature Daqu with different colors. Front Microbiol, 2020, 11: 588117

[7]	Deng J, Zheng J, Huang D, Huang Z, Ye G, Luo H. Characterization of physicochemical properties, volatile compounds and microbial community structure in four types of Daqu. Lwt-Food Sci Technol, 2023, 184: 115064

[8]	Deng J, Zheng J, Li X, Huang D, Ye GB, Luo HB. Characterization of Qu-aroma of medium-high temperature Daqu from different production areas using sensory evaluation, E-nose, and GC-MS/O analysis. Bioresources Bioprocess, 2025, 12140

[9]	Fu GM, Deng MF, Chen Y, Chen YR, Wu SW, Lin P, Huang BJ, Liu CM, Wan Y. Analysis of microbial community, physiochemical indices, and volatile compounds of Chinese te-flavor Baijiu Daqu produced in different seasons. J Sci Food Agric, 2021, 101156525-6532

[10]	Gao YY, Zhang GX, Jiang SY, Liu YX (2024) Wekemo bioincloud: a user-friendly platform for meta-omics data analyses. Imeta 3(1):e175 https://doi.org/10.1002/imt2.175

[11]	Gong Y, Ma N, Tang H. Analysis of microbial community diversity and physicochemical factors in pit mud of different ages based on high-throughput sequencing. Can J Microbiol, 2022, 68(11): 674-686

[12]	Han B, Zhou W, Chen R, Tian S, Gong H, Wang Y, Xu Q, Bian M. Multi-factor analysis of the quality of cellar mud of Luzhou-flavor liquor in Yibin production area. Food Sci Nutr, 2024, 12(7): 5231-5249

[13]	He GQ, Dong Y, Huang J, Wang XJ, Zhang SY, Wu CD, Jin Y, Zhou RQ. Alteration of microbial community for improving flavor character of Daqu by inoculation with Bacillus velezensis and Bacillus subtilis. Lwt-Food Sci Technol, 2019, 111: 1-8

[14]	He GQ, Xie F, Ren X, Yin BT, Du LQ, Wei YX, Zhou J. Revealing the functional microbiota for acetic acid formation in Daqu starter for Chinese Nong-Xiang Baijiu fermentation. Food Bioscience, 2023, 53: 102782

[15]	He GQ, Gao L, Deng Y, Jiao WJ, Wang JH, Wei YX, Zhou J. Microbial succession in different years of pit mud from a distillery in Sichuan for Nong-xiang Baijiu fermentation. Food Sci Biotechnol, 2024, 33(13): 3083-3092

[16]	Hong J, Wang J, Zhang C, Zhao Z, Tian W, Wu Y, Chen H, Zhao D, Sun J. Unraveling variation on the profile aroma compounds of strong aroma type of Baijiu in different regions by molecular matrix analysis and olfactory analysis. RSC Adv, 2021, 11(53): 33511-33521

[17]	Hong JX, Huang H, Zhao DR, Sun JY, Huang MQ, Sun XT, Sun BG. Investigation on the key factors associated with flavor quality in Northern strong aroma type of Baijiu by flavor matrix. Food Chem, 2023, 426: 136576

[18]	Hu YL, Dun YH, Li SA, Fu BA, Xiong XM, Peng N, Liang YX, Zhao SM. Changes in microbial community during fermentation of high-temperature Daqu used in the production of Chinese ‘Baiyunbian’ liquor. J Inst Brew, 2017, 123(4): 594-599

[19]	Hu YL, Lei XY, Zhang XM, Guan TW, Wang LY, Zhang ZJ, Yu X, Tu JM, Peng N, Liang YX, Zhao SM. Characteristics of the microbial community in the production of Chinese Rice-Flavor Baijiu and comparisons with the microflora of other flavors of Baijiu. Front Microbiol, 2021

[20]	Hu YL, Lei XY, Zhang XM, Guan TW, Wang LY, Zhang ZJ, Yu X, Tu JM, Peng N, Liang YX, Zhao SM. Characteristics of the microbial community in the production of Chinese Rice-Flavor Baijiu and comparisons with the microflora of other flavors of Baijiu. Front Microbiol, 2021, 12: 673670

[21]	Jin GY, Zhu Y, Xu Y. Mystery behind Chinese liquor fermentation. Trends Food Sci Technol, 2017, 63: 18-28

[22]	Jin Y, Li DY, Ai M, Tang QX, Huang J, Ding XF, Wu CD, Zhou RQ. Correlation between volatile profiles and microbial communities: A metabonomic approach to study Jiang-flavor liquor Daqu. Food Res Int, 2019, 121: 422-432

[23]	Li P, Lin WF, Liu X, Wang XW, Luo LX. Environmental factors affecting microbiota dynamics during traditional Solid-state fermentation of Chinese Daqu starter. Front Microbiol, 2016, 7: 1237

[24]

Li P, Lin WF, Liu X, Wang XW, Gan X, Luo LX, Lin WT (2017) Effect of bioaugmented inoculation on microbiota dynamics during solid-state fermentation of Daqu starter using autochthonous of Bacillus, Pediococcus, Wickerhamomyces and Saccharomycopsis. Food Microbiol 61:83–92. https://doi.org/10.1016/j.fm.2016.09.004

[25]	Li YP, Qiao HJ, Zhang R, Zhang WB, Wen PC. Microbial diversity and volatile flavor compounds in Tibetan flavor Daqu. Foods, 2023, 12(2): 324

[26]	Li XY, Du CY, Zhao YF, Li JS, Hu YM, Dong WW, Peng N, Zhao SM. Differences in microbial communities among different types of zaopei and their effects on quality and flavor of Baijiu. Food Res Int, 2024

[27]	Li HM, Hou YC, Zou W, Liu QS, Lu YJ, Tang H, Zhang MD, Zhuo XX, Zhang KZ. Synthesis of an autochthonous microbiota responsible for the prepared process improving, flavor profile and brewing attributes of high-temperature Daqu. Food Bioscience, 2025, 68: 106444

[28]	Liu YB, Li X, Li HD, Zhang HM, Shen XK, Zhang LX, Han SN, Pan CM. Taorong-type Baijiu starter: analysis of fungal community and metabolic characteristics of middle-temperature Daqu and high-temperature Daqu. PLoS ONE, 2022, 1710e0274881

[29]	Liu YB, Wu JY, Li HD, Liu WX, Zhang ZK, Han SA, Hou JG, Pan CM. Combined Microbiome and metabolomics analysis of Taorong-type Baijiu high-temperature Daqu and medium-temperature Daqu. Peerj, 2024, 12: e16621

[30]	Ma SY, Luo HB, Zhao D, Qiao ZW, Zheng J, An MZ, Huang D. Environmental factors and interactions among microorganisms drive microbial community succession during fermentation of Nongxiangxing Daqu. Bioresour Technol, 2022, 345: 126549

[31]	Ma SY, Shang ZC, Chen J, Shen YJ, Li ZJ, Huang D, Luo HB. Differences in structure, volatile metabolites, and functions of microbial communities in Nongxiangxing Daqu from different production areas. Lwt-Food Sci Technol, 2022, 166: 113784

[32]	Ma SY, Li Y, Dong Y, Zhou YY, Tu FY, Zhang LQ, Wu CD. Stochastic and deterministic processes shape microbial communities and flavor characteristics of strong-flavor Daqu during storage. Int J Food Microbiol, 2025, 429: 111017

[33]	Mu Y, Huang J, Zhou RQ, Zhang SY, Qin H, Tang HL, Pan QL, Tang HF. Characterization of the differences in aroma-active compounds in strong-flavor Baijiu induced by bioaugmented Daqu using metabolomics and sensomics approaches. Food Chem, 2023, 424: 136429

[34]	Song JK, Tang HL, Liang HB, Luo LX, Lin WF (2019) Effect of bioaugmentation on biochemical characterisation and microbial communities in Daqu using Bacillus, Saccharomycopsis and Absidia. Int J Food Sci Technol 54(8):2639–2651. https://doi.org/10.1111/ijfs.14176

[35]	Wang L. Research trends in Jiang-flavor Baijiu fermentation: from fermentation microecology to environmental ecology. J Food Sci, 2022, 8741362-1374

[36]	Wang XS, Du H, Xu Y. Source tracking of prokaryotic communities in fermented grain of Chinese strong-flavor liquor. Int J Food Microbiol, 2017, 244: 27-35

[37]	Wang ZY, Li P, Luo LX, Simpson DJ, Gänzle MG. Daqu fermentation selects for Heat-Resistant Enterobacteriaceae and Bacilli. Appl Environ Microbiol, 2018, 84(21): e01483-e01418

[38]	Wang YR, Cai WC, Wang WP, Shu N, Zhang ZD, Hou QC, Shan CH, Guo Z. Analysis of microbial diversity and functional differences in different types of high-temperature Daqu. Food Sci Nutr, 2021, 9(2): 1003-1016

[39]	Wang L, Cheng Y, Hu X, Huang Y. Analysis of bacterial diversity and functional differences of Jiang-flavored Daqu produced in different seasons. Front Nutr, 2022, 9: 1078132

[40]	Wu XY, Jing RX, Chen WH, Geng XJ, Li M, Yang FZ, Yan YZ, Liu Y. High-throughput sequencing of the microbial diversity of roasted-sesame-like flavored Daqu with different characteristics. 3 Biotech, 2020, 10(11): 502

[41]	Wu Q, Zhu Y, Fang C, Wijffels RH, Xu Y. Can we control microbiota in spontaneous food fermentation? ? Chinese liquor as a case example. Trends Food Sci Technol, 2021, 110: 321-331

[42]	Xu YQ, Sun BG, Fan GS, Teng C, Xiong K, Zhu YP, Li JL, Li XT. The brewing process and microbial diversity of strong flavour Chinese spirits: a review. J Inst Brew, 2017, 123(1): 5-12

[43]	Xu YQ, Wu MQ, Zhao D, Zheng J, Dai MQ, Li XT, Li WW, Zhang CN, Sun BG. Simulated fermentation of Strong-Flavor Baijiu through functional microbial combination to realize the stable synthesis of important flavor chemicals. Foods, 2023, 12(3): 644

[44]	Yi XW, Xia H, Huang P, Ma SY, Wu CD. Exploring community Succession, assembly Patterns, and metabolic functions of Ester-Producing-Related microbiota during the production of. Foods, 2024, 13193169

[45]	Yu Q, Mou F, Xiao J, Zhan C, Li L, Chang X, Dong X, Chen M, Wang X, Chen M, Fang S. Correlational analysis of physicochemical indexes, microbial communities, and volatile components in light-flavor Daqu from North and South regions of China. World J Microbiol Biotechnol, 2023, 40254

[46]	Zhang PP, Liu YB, Li HD, Wang SK, Li XH, Xu LL, Zhang ZK, Huang RN, Han SA, Pan CM. Bioturbation effect of high - Yield pyrazine strain on the microbial community and flavour metabolites of fortified Daqu. Lwt-Food Sci Technol, 2024, 208: 116711

[47]	Zhang ZD, Meng YL, Wang YR, Hou QC, Zhang HB, Zhang M, Hu G, Zhou YY, Pan QF, Guo Z. Understanding the factors influencing high-temperature from different geographical regions. Food Bioscience, 2024, 62: 105528

[48]	Zhang ZD, Meng YL, Zhan J, Guo Z, Haibo Z, Dong XY, Li L, Hou QC, Wang YR. Comparative analysis of microbial diversity and functional characteristics of low-temperature Daqu from different regions in China. Food Bioprod Process, 2024, 147: 483-494

[49]	Zhang HD, Zhang HX, Du H, Zhang Y, Zhang MH, Yu XW, Xu Y. Unraveling the multiple interactions between phages, microbes and flavor in the fermentation of strong-flavor Baijiu. Bioresources Bioprocess, 2025, 12114

[50]	Zhu L, Li L, Yang Q, Chen L, Zhang L, Zhang G, Lin B, Tang J, Zhang Z, Chen S. Study on microbial community of green-covering Tuqu and the effect of fortified autochthonous monascus purpureus on the flavor components of light-aroma-type Baijiu. Front Microbiol, 2022, 13: 973616

[51]	Zhu M, Deng Z, Wang MY, Tie Y, Zhang WX, Wu ZY, Pan ZF, Luo GR, Wu RF, Qin JL, Gomi K. Decoding the synergistic mechanisms of functional microbial agents on the microecology and metabolic function in medium-high temperature starter for enhancing aromatic flavor. Food Chemistry-X, 2025, 26: 102304

[52]	Zong EX, Bo T, Dang L, Zhang JJ, Li H, Lv N, He YF, Bai BQ, Zhang JH, Fan SH. Different functions can be provided by low temperature Daqu with different appearance features due to variations in the microbial community structure during fermentation. Lwt-Food Sci Technol, 2024, 193: 115763