[1] LIU J J, CHEN J Y, FAN Y, et al.Biochemical characterisation and dominance of different hydrolases in different types of Daqu-a Chinese industrial fermentation starter[J].Journal of the Science of Food and Agriculture, 2018, 98(1):113-121.
[2] KANG J M, XUE Y S, CHEN X X, et al.Integrated multi-omics approaches to understand microbiome assembly in Jiuqu, a mixed-culture starter[J].Comprehensive Reviews in Food Science and Food Safety, 2022, 21(5):4076-4107.
[3] GE D Y, CAI W C, GUO Z, et al.Comparative analysis of microbial community structure in the peel and core of Houhuo low-temperature Daqu[J].Food Bioscience, 2024, 58:103596.
[4] CAI W C, WANG Y R, NI H, et al.Diversity of microbiota, microbial functions, and flavor in different types of low-temperature Daqu[J].Food Research International, 2021, 150:110734.
[5] ZHOU Q F, MA K, SONG Y, et al.Exploring the diversity of the fungal community in Chinese traditional Baijiu Daqu starters made at low-, medium- and high-temperatures[J].LWT, 2022, 162:113408.
[6] HOU Q C, WANG Y R, CAI W C, et al.Metagenomic and physicochemical analyses reveal microbial community and functional differences between three types of low-temperature Daqu[J].Food Research International, 2022, 156:111167.
[7] 席啦, 孔祥聪, 倪慧, 等.不同部位后火低温大曲真菌群落结构比较分析[J].食品研究与开发, 2023, 44(2):177-182.
XI L, KONG X C, NI H, et al.Fungal diversity in different parts of Houhuo low-temperature Daqu[J].Food Research and Development, 2023, 44(2):177-182.
[8] 王强, 蔡文超, 刘忠军, 等.清徐低温大曲真菌菌群多样性及其功能性关联分析[J].中国酿造, 2022, 41(11):56-60.
WANG Q, CAI W C, LIU Z J, et al.Diversity and functional association analysis of fungal flora in Qingxu low-temperature Daqu[J].China Brewing, 2022, 41(11):56-60.
[9] 刘忠军, 冯廷闯, 刘继明, 等.后火低温大曲曲皮和曲心细菌多样性及基因功能预测[J].食品研究与开发, 2022, 43(21):176-183.
LIU Z J, FENG T C, LIU J M, et al.Bacterial diversity and gene functional prediction in different parts of Houhuo low-temperature Daqu[J].Food Research and Development, 2022, 43(21):176-183.
[10] DENG Y K, HUANG D, HAN B L, et al.Correlation:Between autochthonous microbial diversity and volatile metabolites during the fermentation of Nongxiang Daqu[J].Frontiers in Microbiology, 2021, 12:688981.
[11] PAN Q L, HUANG J, ZHANG S Y, et al.Response of microbiota to exogenous inoculation improved the enzymatic activities of medium-temperature Daqu[J].Frontiers in Microbiology, 2022, 13:1047041.
[12] ZHU M, ZHENG J, XIE J, et al.Effects of environmental factors on the microbial community changes during medium-high temperature Daqu manufacturing[J].Food Research International, 2022, 153:110955.
[13] MAO J J, LIU X L, GAO T, et al.Unraveling the correlations between bacterial diversity, physicochemical properties and bacterial community succession during the fermentation of traditional Chinese strong-flavor Daqu[J].LWT, 2022, 154:112764.
[14] QIN H, ZHANG S Y, WANG C, et al.Revealing the influence of exogenously inoculated Bacillus spp.on the microbiota and metabolic potential of medium-temperature Daqu:A meta-omics analysis[J].Food Research International, 2024, 182:114152.
[15] YANG Y, WANG S T, LU Z M, et al.Metagenomics unveils microbial roles involved in metabolic network of flavor development in medium-temperature Daqu starter[J].Food Research International, 2021, 140:110037.
[16] ZHANG J, LIU S P, SUN H L, et al.Metagenomics-based insights into the microbial community profiling and flavor development potentiality of Baijiu Daqu and Huangjiu wheat Qu[J].Food Research International, 2022, 152:110707.
[17] LOGARES R, LINDSTRÖM E S, LANGENHEDER S, et al.Biogeography of bacterial communities exposed to progressive long-term environmental change[J].The ISME Journal, 2013, 7(5):937-948.
[18] SONG X M, LI Z J, SONG C, et al.Rare taxa as the microbial taxa more sensitive to environmental changes drive alterations of Daqu microbial community structure and function[J].Food Bioscience, 2024, 59:103983.
[19] 邹云曼, 邱树毅, 郑佳, 等.基于原位培养和传统培养分析比较不同储存期酱香大曲的细菌群落[J].食品与发酵工业, 2023, 49(15):38-46.
ZOU Y M, QIU S Y, ZHENG J, et al.Comparative analysis of bacterial community of high temperature Daqu with different storage periods based on in situ cultivation and traditional cultivation[J].Food and Fermentation Industries, 2023, 49(15):38-46.
[20] DENG L, MAO X, LIU D, et al.Comparative analysis of physicochemical properties and microbial composition in high-temperature Daqu with different colors[J].Frontiers in Microbiology, 2020, 11:588117.
[21] WANG Y R, CAI W C, WANG W P, et al.Analysis of microbial diversity and functional differences in different types of high-temperature Daqu[J].Food Science & Nutrition, 2020, 9(2):1003-1016.
[22] LI H H, QIN D, WU Z Y, et al.Characterization of key aroma compounds in Chinese Guojing sesame-flavor Baijiu by means of molecular sensory science[J].Food Chemistry, 2019, 284:100-107.
[23] DU H, WANG X S, ZHANG Y H, et al.Exploring the impacts of raw materials and environments on the microbiota in Chinese Daqu starter[J].International Journal of Food Microbiology, 2019, 297:32-40.
[24] LEI Y, CAI W C, WANG Y R, et al.Elucidating the physicochemical parameters, bacterial community structure, and correlation characteristics of medium-high temperature Daqu[J].Food Bioscience, 2024, 58:103679.
[25] ZHANG Y D, XU J G, DING F, et al.Multidimensional profiling indicates the shifts and functionality of wheat-origin microbiota during high-temperature Daqu incubation[J].Food Research International, 2022, 156:111191.
[26] QUAN S K, WANG Y, RAN M F, et al.Contrasting the microbial community and non-volatile metabolites involved in ester synthesis between Qing-flavor Daqu and Nong-flavor Daqu[J].Journal of Bioscience and Bioengineering, 2023, 136(3):213-222.
[27] GUAN T W, YANG H, OU M Y, et al.Storage period affecting dynamic succession of microbiota and quality changes of strong-flavor Baijiu Daqu[J].LWT, 2021, 139:110544.
[28] XIA Y, ZHOU W, DU Y K, et al.Difference of microbial community and gene composition with saccharification function between Chinese nongxiangxing Daqu and jiangxiangxing Daqu[J].Journal of the Science of Food and Agriculture, 2023, 103(2):637-647.
[29] MU Y, HUANG J, ZHOU R Q, et al.Bioaugmented Daqu-induced variation in community succession rate strengthens the interaction and metabolic function of microbiota during strong-flavor Baijiu fermentation[J].LWT, 2023, 182:114806.
[30] DU R B, WU Q, XU Y.Chinese liquor fermentation:Identification of key flavor-producing Lactobacillus spp.by quantitative profiling with indigenous internal standards[J].Applied and Environmental Microbiology, 2020, 86(12):e00456-e00420.
[31] XIAO C, YANG Y, LU Z M, et al.Daqu microbiota exhibits species-specific and periodic succession features in Chinese Baijiu fermentation process[J].Food Microbiology, 2021, 98:103766.
[32] 黄魏, 李浪金, 谢丹, 等.3种高温大曲发酵过程中细菌群落结构演替规律[J].食品研究与开发, 2023, 44(22):155-162.
HUANG W, LI L J, XIE D, et al.Investigation of bacterial community structure succession during the fermentation of three types of high-temperature Daqu[J].Food Research and Development, 2023, 44(22):155-162.
[33] SHI W, CHAI L J, FANG G Y, et al.Spatial heterogeneity of the microbiome and metabolome profiles of high-temperature Daqu in the same workshop[J].Food Research International, 2022, 156:111298.
[34] 杨晨, 杨栩松, 郭壮, 等.茅台镇某酒厂高温大曲微生物多样性与感官品质关联性分析[J].中国酿造, 2023, 42(11):48-53.
YANG C, YANG X S, GUO Z, et al.Correlation analysis of microbial diversity and sensory quality of high-temperature Daqu from a distillery in Maotai town[J].China Brewing, 2023, 42(11):48-53.
[35] YAO S, LIU Y, LI H, et al.Bacterial communities during the process of high-temperature Daqu production of roasted sesame-like flavour liquor[J].Journal of the Institute of Brewing, 2015, 121(3):440-448.
[36] LI W W, FAN G S, FU Z L, et al.Effects of fortification of Daqu with various yeasts on microbial community structure and flavor metabolism[J].Food Research International, 2020, 129:108837.
[37] YI Z L, JIN Y L, XIAO Y, et al.Unraveling the contribution of high temperature stage to Jiang-flavor Daqu, a liquor starter for production of Chinese Jiang-flavor Baijiu, with special reference to metatranscriptomics[J].Frontiers in Microbiology, 2019, 10:472.
[38] SAKANDAR H A, HUSSAIN R, KHAN Q F, et al.Functional microbiota in Chinese traditional Baijiu and Mijiu Qu (starters):A review[J].Food Research International, 2020, 138:109830.
[39] GANDOLFI R, CONVERTI A, PIROZZI D, et al.Efficient and selective microbial esterification with dry mycelium of Rhizopus oryzae[J].Journal of Biotechnology, 2001, 92(1):21-26.
[40] HE G Q, HUANG J, ZHOU R Q, et al.Effect of fortified Daqu on the microbial community and flavor in Chinese strong-flavor liquor brewing process[J].Frontiers in Microbiology, 2019, 10:56.
[41] JAIN K K, DEY T B, KUMAR S, et al.Production of thermostable hydrolases (cellulases and xylanase) from Thermoascus aurantiacus RCKK:A potential fungus[J].Bioprocess and Biosystems Engineering, 2015, 38(4):787-796.
[42] WEI J L, DU H, ZHANG H X, et al.Mannitol and erythritol reduce the ethanol yield during Chinese Baijiu production[J].International Journal of Food Microbiology, 2021, 337:108933.
[43] KANG J M, CHEN X X, HAN B Z, et al.Insights into the bacterial, fungal, and phage communities and volatile profiles in different types of Daqu[J].Food Research International, 2022, 158:111488.
[44] SU C, ZHANG K Z, CAO X Z, et al.Effects of Saccharomycopsis fibuligera and Saccharomyces cerevisiae inoculation on small fermentation starters in Sichuan-style Xiaoqu liquor[J].Food Research International, 2020, 137:109425.
[45] JIN G Y, ZHU Y, XU Y.Mystery behind Chinese liquor fermentation[J].Trends in Food Science & Technology, 2017, 63:18-28.
[46] ZHENG X W, YAN Z, NOUT M J, et al.Characterization of the microbial community in different types of Daqu samples as revealed by 16S rRNA and 26S rRNA gene clone libraries[J].World Journal of Microbiology & Biotechnology, 2015, 31(1):199-208.
[47] WANG B W, WU Q, XU Y, et al.Specific volumetric weight-driven shift in microbiota compositions with saccharifying activity change in starter for Chinese Baijiu fermentation[J].Frontiers in Microbiology, 2018, 9:2349.
[48] LI P, LIN W F, LIU X, et al.Environmental factors affecting microbiota dynamics during traditional solid-state fermentation of Chinese Daqu starter[J].Frontiers in Microbiology, 2016, 7:1237.
[49] WANG J, ZHONG Q P, YANG Y Y, et al.Comparison of bacterial diversity between two traditional starters and the round-koji-maker starter for traditional Cantonese Chi-flavor liquor brewing[J].Frontiers in Microbiology, 2018, 9:1053.
[50] HE M W, JIN Y, ZHOU R Q, et al.Dynamic succession of microbial community in Nongxiangxing Daqu and microbial roles involved in flavor formation[J].Food Research International, 2022, 159:111559.
[51] WANG C X, TANG J D, QIU S Y.Profiling of fungal diversity and fermentative yeasts in traditional Chinese Xiaoqu[J].Frontiers in Microbiology, 2020, 11:2103.
[52] 张璋, 赵腾飞, 李红霞, 等.产淀粉酶芽孢杆菌的分离鉴定、高温驯化及酶学性质研究[J].中国酿造, 2023, 42(9):79-84.
ZHANG Z, ZHAO T F, LI H X, et al.Isolation, identification, high temperature acclimation and enzymatic property of amylase-producing Bacillus[J].China Brewing, 2023, 42(9):79-84.
[53] 王成俊, 李玲珊, 范梅, 等.酱香型大曲中产4-乙基愈创木酚芽孢杆菌的筛选、鉴定及特性研究[J].酿酒科技, 2023(4):45-52.
WANG C J, LI L S, FAN M, et al.Screening, identification and characterization of 4-ethylguaiacol producing Bacillus strains from Jiangxiang Daqu[J].Liquor-Making Science & Technology, 2023(4):45-52.
[54] 李富强, 曹振华, 闫培勋, 等.高产四甲基吡嗪细菌的筛选鉴定及应用研究[J].酿酒科技, 2022(12):65-69.
LI F Q, CAO Z H, YAN P X, et al.Screening, identification and application of a bacterial strain with high yield of tetramethylpyrazine[J].Liquor-Making Science & Technology, 2022(12):65-69.
[55] 王庆, 王超彦, 徐海林, 等.高温大曲中高产四甲基吡嗪芽孢杆菌的分离鉴定及发酵条件优化[J].中国酿造, 2022, 41(10):125-129.
WANG Q, WANG C Y, XU H L, et al.Isolation and identification of high-yield tetramethylpyrazine Bacillus from high-temperature Daqu and optimization of fermentation conditions[J].China Brewing, 2022, 41(10):125-129.
[56] 熊盈盈, 莫祯妮, 邱树毅, 等.未培养环境微生物培养方法的研究进展[J].微生物学通报, 2021, 48(5):1 765-1 779.
XIONG Y Y, MO Z N, QIU S Y, et al.Research progress on culture methods of uncultured environmental microorganisms[J].Microbiology China, 2021, 48(5):1 765-1 779.
[57] 罗小叶, 王晓丹, 邱树毅.酱香大曲中3株放线菌的分离筛选及挥发性成分分析[J].中国酿造, 2018, 37(8):62-67.
LUO X Y, WANG X D, QIU S Y.Isolation, screening and aroma component analysis of 3 strains of actinomycetes from Moutai-flavor Daqu[J].China Brewing, 2018, 37(8):62-67.
[58] 李豆南, 黄魏, 王晓丹, 等.酱香型大曲中高温放线菌的筛选及风味成分分析[J].食品科学, 2018, 39(6):171-176.
LI D N, HUANG W, WANG X D, et al.Identification and flavor profile of a Thermoactinomycetaceae strain separated from Moutai-flavor Daqu[J].Food Science, 2018, 39(6):171-176.
[59] 王芙蓉, 曾辉, 许曌昕, 等.1株酱香型大曲中高温放线菌的分离和鉴定[J].酿酒科技, 2017(4):42-45.
WANG F R, ZENG H, XU Z X, et al.Isolation & Identification of a Thermoactinomyces sp.Strain from High-temperature Jiangxiang Daqu[J].Liquor-Making Science & Technology, 2017(4):42-45.
[60] 张璋, 赵腾飞, 李红霞, 等, 产蛋白酶芽孢杆菌的筛选、耐酸性驯化及蛋白酶酶学性质分析[J].中国酿造, 2024, 43(1):84-90.
ZHANG Z, ZHAO T F, LI H X, et al.Screening and acid resistance acclimatization of protease-producing Bacillus and enzymatic characteristics analysis[J].China Brewing, 2024, 43(1):84-90.
[61] 蒋泽元, 万义芳, 蒲驰中, 等.高温大曲中高产淀粉酶和蛋白酶细菌的分离、鉴定及生物学特性研究[J].中国酿造, 2024, 43(2):60-63.
JIANG Z Y, WAN Y F, PU C Z, et al.Isolation, identification and biological characteristics of high-yield amylase and protease bacteria from high-temperature Daqu[J].China Brewing, 2024, 43(2):60-63.
[62] 刘宁, 张宿义, 明红梅, 等.中温大曲中产淀粉酶芽孢杆菌的筛选鉴定及培养条件优化[J].中国酿造, 2023, 42(12):38-44.
LIU N, ZHANG S Y, MING H M, et al.Screening, identification and culture conditions optimization of amylase-producing Bacillus strain from medium-temperature Daqu[J].China Brewing, 2023, 42(12):38-44.
[63] 黄治国, 罗润森, 李彦中, 等.芽孢杆菌强化发酵降低小曲白酒中高级醇的含量[J].现代食品科技, 2023, 39(2):145-151.
HUANG Z G, LUO R S, LI Y Z, et al.Concentration of higher alcohols in Xiaoqu liquor induced by enhanced fermentation with strains of Bacillus[J].Modern Food Science and Technology, 2023, 39(2):145-151.
[64] 范恩帝, 黄魏, 谢丹, 等.酱香大曲中高产四甲基吡嗪微生物的选育及应用研究[J].酿酒科技, 2022(11):45-50;71.
FAN E D, HUANG W, XIE D, et al.Breeding and application of microorganisms with high yield of tetramethylpyrazine in Jiangxiang Daqu[J].Liquor-Making Science & Technology, 2022(11):45-50;71.
[65] 胡晓龙, 冯大鸿, 田瑞杰, 等.中温大曲产淀粉酶菌株的筛选鉴定及培养条件优化[J].中国酿造, 2023, 42(1):78-85.
HU X L, FENG D H, TIAN R J, et al.Isolation, identification and culture conditions optimization of amylase-producing strains in medium-temperature Daqu[J].China Brewing, 2023, 42(1):78-85.
[66] 陈桂芳, 王晓慧, 赵琦, 等.洋河浓香型大曲产香细菌的筛选、鉴定及香气成分分析[J].酿酒科技, 2022(5):30-34.
CHEN G F, WANG X H, ZHAO Q, et al.Screening, identification and aroma component analysis of aroma-producing bacteria in Yanghe Daqu[J].Liquor-Making Science & Technology, 2022(5):30-34.
[67] 张锦华, 张潇月, 白宝清, 等.清香型白酒大曲中高产四甲基吡嗪菌株的筛选、鉴定及发酵培养基优化[J].中国酿造, 2023, 42(3):47-52.
ZHANG J H, ZHANG X Y, BAI B Q, et al.Screening, identification and fermentation medium optimization of high yield tetramethylpyrazine strains from light-flavor Baijiu Daqu[J].China Brewing, 2023, 42(3):47-52.
[68] 游勇, 吴晓玉, 廖家富, 等.特香型白酒大曲中一株耐热产淀粉酶地衣芽孢杆菌的分离和鉴定[J].酿酒科技, 2022(3):17-24.
YOU Y, WU X Y, LIAO J F, et al.Isolation and identification of a heat-resistant amylase-producing Bacillus licheniformis strain from texiang Daqu[J].Liquor-Making Science & Technology, 2022(3):17-24.
[69] 刘小改, 李洪媛, 周林艳, 等.清香型大曲中产香细菌的分离筛选及鉴定[J].中国酿造, 2022, 41(5):96-100.
LIU X G, LI H Y, ZHOU L Y, et al.Isolation, screening and identification of aroma-producing bacteria in light-flavor Baijiu Daqu[J].China Brewing, 2022, 41(5):96-100.
[70] 张运祺, 郑自强, 邢浩博, 等.一株嗜热脂肪芽孢杆菌的筛选及其产酶特性研究[J].酿酒科技, 2023(5):78-84.
ZHANG Y Q, ZHENG Z Q, XING H B, et al.Screening of a Geobacillus stearothermophilus strain and study on its enzyme-producing characteristics[J].Liquor-Making Science & Technology, 2023(5):78-84.
[71] 王芙蓉, 李靖, 赵益梅, 等.酱香大曲中高温放线菌的筛选及其产蛋白酶条件优化[J].中国酿造, 2022, 41(8):132-136.
WANG F R, LI J, ZHAO Y M, et al.Screening of high-temperature actinomycetes in sauce-flavor Daqu and optimization of protease-producing conditions[J].China Brewing, 2022, 41(8):132-136.
[72] 刘洋, 赵婷, 姚粟, 等.一株芝麻香型白酒高温大曲嗜热放线菌的分离与鉴定[J].生物技术通报, 2012(10):210-216.
LIU Y, ZHAO T, YAO S, et al.Identification on a Thermoactinomyces sp.separated from high temperature Daqu of sesame flavor liquor[J].Biotechnology Bulletin, 2012(10):210-216.
[73] 于华, 黄丹, 陈卓, 等.酱香型大曲中产蛋白酶放线菌的分离及产酶条件研究[J].中国酿造, 2017, 36(2):64-68.
YU H, HUANG D, CHEN Z, et al.Isolation of protease-producing actinomycetes from sauce-flavor Daqu and its protease-producing conditions[J].China Brewing, 2017, 36(2):64-68.
[74] 王晓丹, 罗小叶, 邱树毅.茅台大曲中一株嗜热放线菌的分离筛选及特性研究[J].中国酿造, 2018, 37(4):51-56.
WANG X D, LUO X Y, QIU S Y.Isolation and screening of a thermophilic actinomycete from Moutai-flavor Daqu and its characterization[J].China Brewing, 2018, 37(4):51-56.
[75] 魏丕伟, 王凌云, 罗惠波, 等.大曲中高产酸性蛋白酶霉菌的分离鉴定[J].食品与发酵科技, 2014, 50(4):1-4;21.
WEI P W, WANG L Y, LUO H B, et al.Isolation and identification of acid-protease producing fungi from Daqu[J].Food and Fermentation Technology, 2014, 50(4):1-4;21.
[76] 谢玉球, 时晓, 周二干, 等.洋河大曲中糖化酶高产霉菌的筛选鉴定及固态发酵条件优化[J].酿酒科技, 2016(4):39-42.
XIE Y Q, SHI X, ZHOU E G, et al.Separation and identification of mold strain with high-yield of glucoamylase from Yanghe Daqu and optimization of its solid-state fermentation conditions[J].Liquor-Making Science & Technology, 2016(4):39-42.
[77] 柳旭, 张倩, 周森, 等.清香型大曲中高糖化力霉菌的筛选、鉴定及其挥发性风味物质分析[J].中国酿造, 2023, 42(6):72-78.
LIU X, ZHANG Q, ZHOU S, et al.Screening, identification of mold with high saccharifying power from light-flavor Daqu and its volatile flavor compounds[J].China Brewing, 2023, 42(6):72-78.
[78] 蒋英丽, 卓毓崇, 聂正东, 等.高温大曲中产果香霉菌的分离及研究[J].酿酒科技, 2015(2):21-24.
JIANG Y L, ZHUO Y C, NIE Z D, et al.Separation of fruit aroma-producing mold strains from high-temperature Daqu and study of its properties[J].Liquor-Making Science & Technology, 2015(2):21-24.
[79] 鲁珍, 王红照, 李恩中, 等.高温大曲中霉菌的筛选及其挥发性产物分析[J].酿酒科技, 2019(7):50-55.
LU Z, WANG H Z, LI E Z, et al.Screening of a mold strain from high-temperature Daqu & identification of its volatile fermentation products[J].Liquor-Making Science & Technology, 2019(7):50-55.
[80] 程伟, 彭兵, 汪焰胜, 等.金种子浓香型大曲中一株具产酶功能霉菌的筛选及其应用分析[J].酿酒, 2017, 44(2):67-72.
CHENG W, PENG B, WANG Y S, et al.Screening and application analysis of a mould strain with enzyme producing function from golden seed Luzhou-flavor Daqu[J].Liquor Making, 2017, 44(2):67-72.
[81] 郑自强, 卫春会, 张立伟, 等.中高温大曲中霉菌的分离及其麸曲制备[J].现代食品科技, 2022, 38(1):165-172.
ZHENG Z Q, WEI C H, ZHANG L W, et al.Isolation of mold from medium high temperature Daqu and preparation of fuqu[J].Modern Food Science and Technology, 2022, 38(1):165-172.
[82] 刘延波, 张丽婷, 赵志军, 等.赊店老酒大曲中耐高温霉菌的筛选与产酶条件优化[J].江苏农业科学, 2020, 48(5):268-275.
LIU Y B, ZHANG L T, ZHAO Z J, et al.Screening of molds with high temperature resistance and optimization of enzyme production conditions in Shedian Laojiu Daqu[J].Jiangsu Agricultural Sciences, 2020, 48(5):268-275.
[83] 姚灿, 李国友, 张彬, 等.中高温大曲中嗜热真菌的分离鉴定及其酶活力测定[J].酿酒, 2019, 46(5):32-35.
YAO C, LI G Y, ZHANG B, et al.Isolation and identification of thermophilic fungi from moderate/high-temperature Daqu and determination of enzyme activity[J].Liquor Making, 2019, 46(5):32-35.
[84] 卢延想, 梁慧珍, 陈鹏, 等.高温大曲中产香酵母的筛选及特征香气分析[J].食品研究与开发, 2021, 42(11):167-174.
LU Y X, LIANG H Z, CHEN P, et al.Screening and characteristic aroma analysis of aroma-producing yeasts in high-temperature Daqu[J].Food Research and Development, 2021, 42(11):167-174.
[85] 明红梅, 周健, 陈蒙恩, 等.大曲中异常威克汉姆酵母发酵产苯乙醇的条件优化[J].湖北农业科学, 2015, 54(14):3492-3496.
MING H M, ZHOU J, CHEN M E, et al.Optimization of phenylethanol fermentation conditions of Wickerhamomyces anomalus from Daqu by response surface methodology[J].Hubei Agricultural Sciences, 2015, 54(14):3492-3496.
[86] 牟飞燕, 凌荔, 肖钧文, 等.清香型白酒大曲中产酶酵母的筛选与发酵特性研究[J].酿酒科技, 2023(2):48-52;64.
MOU F Y, LING L, XIAO J W, et al.Screening of enzyme-producing yeasts from Qingxiang Daqu and study on their fermentation characteristics[J].Liquor-Making Science & Technology, 2023(2):48-52;64.
[87] 周阳子, 边名鸿, 刘文艺, 等.高温大曲中一株产淀粉酶酵母的分离鉴定及其特性研究[J].食品与发酵工业, 2020, 46(2):79-84.
ZHOU Y Z, BIAN M H, LIU W Y, et al.Isolation and identification of an amylase producing yeast and its characteristics in high-temperature Daqu[J].Food and Fermentation Industries, 2020, 46(2):79-84.
[88] 罗小叶, 邱树毅, 陆安谋, 等.酱香大曲产香酵母的分离及鉴定[J].食品与发酵工业, 2016, 42(12):26-31.
LUO X Y, QIU S Y, LU A M, et al.Isolation and identification of aroma-producing yeast in Moutai-flavor Daqu[J].Food and Fermentation Industries, 2016, 42(12):26-31.
[89] 王晓丹, 陈美竹, 班世栋, 等.茅台大曲中酵母的分离、鉴定及其功能初探[J].食品科学, 2017, 38(4):51-57.
WANG X D, CHEN M Z, BAN S D, et al.Separation, identification and functional characterization of yeast strains from Moutai-flavor Daqu, a traditional Chinese liquor fermentation starter[J].Food Science, 2017, 38(4):51-57.
[90] 张学林, 季斌, 许玲, 等.清香型大曲中产β-苯乙醇酵母的分离、鉴定及在白酒酿造中的应用[J].中国酿造, 2022, 41(1):123-127.
ZHANG X L, JI B, XU L, et al.Isolation and identification of β-phenylethanol-producing yeast from light-flavor Daqu and its application in Baijiu brewing[J].China Brewing, 2022, 41(1):123-127.
[91] 牟飞燕, 夏博宇, 张维, 等.清香大曲中高耐受性功能酵母的筛选[J].中国酿造, 2023, 42(11):163-168.
MOU F Y, XIA B Y, ZHANG W, et al.Screening of high tolerance functional yeasts from light-flavor Daqu[J].China Brewing, 2023, 42(11):163-168.
[92] WANG P, WU Q, JIANG X J, et al.Bacillus licheniformis affects the microbial community and metabolic profile in the spontaneous fermentation of Daqu starter for Chinese liquor making[J].International Journal of Food Microbiology, 2017, 250:59-67.
[93] 陈晓茹, 黄钧, 周荣清, 等.不同强化方式对浓香型白酒大曲特性的影响[J].食品与发酵工业, 2021, 47(15):50-55.
CHEN X R, HUANG J, ZHOU R Q, et al.Effects of fortifying patterns on the characteristics of strong flavor type Daqu[J].Food and Fermentation Industries, 2021, 47(15):50-55.
[94] XU B Y, XU S S, CAI J, et al.Analysis of the microbial community and the metabolic profile in medium-temperature Daqu after inoculation with Bacillus licheniformis and Bacillus velezensis[J].LWT, 2022, 160:113214.
[95] CHEN M Y, LIU X B, LUO A M, et al.Effects of an ester aroma-producing bacterial strain on Maotai-flavor fermented grains[J].Food Science, 2018, 39(10):199-205.
[96] PU S C, ZHANG Y, LU N, et al.Yeasts from Chinese strong flavour Daqu samples:Isolation and evaluation of their potential for fortified Daqu production[J].AMB Express, 2021, 11(1):176.
[97] 崔香香, 白飞荣, 于学健, 等.谢瓦散囊菌CICC 41584产香特性及在浓香型白酒大曲生产中的应用[J].食品与发酵工业, 2019, 45(21):60-67.
CUI X X, BAI F R, YU X J, et al.Aroma characteristics of Eurotium chevalieri CICC 41584 and its application in aroma Baijiu Daqu production[J].Food and Fermentation Industries, 2019, 45(21):60-67.
[98] 孙思佳, 翟磊, 于学健, 等.扣囊复膜孢酵母CICC 33077对芝麻香白酒高温大曲微生物群落结构和功能特性的影响[J].食品与发酵工业, 2023, 49(7):99-105.
SUN S J, ZHAI L, YU X J, et al.Influences of Saccharomycopsis fibuligera CICC 33077 on microbial community and functional characteristics of high temperature Daqu in sesame flavor Baijiu[J].Food and Fermentation Industries, 2023, 49(7):99-105.
[99] MU Y, HUANG J, ZHOU R Q, et al.Exploring the response patterns of strong-flavor Baijiu brewing microecosystem to fortified Daqu under different pit ages[J].Food Research International, 2022, 155:111062.
[100] LIU J J, CHEN Y, FU G M, et al.Improvement of the flavor of major ethyl ester compounds during Chinese Te-flavor Baijiu brewing by Wickerhamomyces anomalus[J].Food Bioscience, 2022, 50:102022.
[101] 游玲, 李美华, 王陟垚, 等.1株Lodderomyces elongisporus酵母对浓香型白酒发酵的影响[J].食品与发酵工业, 2017, 43(3):9-13.
YOU L, LI M H, WANG Z Y, et al.Influences of a Lodderomyces elongisporus strain on fermentation of strong-flavored liquor[J].Food and Fermentation Industries, 2017, 43(3):9-13.
[102] 杨第芹.酱香酒醅和大曲中耐高温产酯酵母的筛选及其生产丢糟酒的研究[D].贵阳:贵州大学, 2022.
YANG D Q.Screening of ester-producing yeast with high temperature tolerance in Maotai-flavor fermented grains and Daqu and study on producing distilled grains wine[D].Guiyang:Guizhou University, 2022.
[103] 徐晓萌.大曲中酯香型酵母酿造啤酒工艺研究[D].大连:大连工业大学, 2020.
XU X M.Study on beer brewing process using ester-producing yeast from flavor Daqu[D].Dalian:Dalian Polytechnic University, 2020.
[104] PAN Q L, HUANG J, ZHANG S Y, et al.Synergistic effect of biotic and abiotic factors drives microbiota succession and assembly in medium-temperature Daqu[J].Journal of the Science of Food and Agriculture, 2023, 103(9):4392-4400.
