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Biotechnology & Biotechnological Equipment Volume 34, 2020 - Issue 1
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Research Article

Optimization of “Zaoheibao” wine fermentation process and analysis of aroma substances

Guofeng Duana College of Horticulture, Shanxi Agricultural University, Taigu, Shanxi, PR ChinaView further author information
,
Yuanyuan Liua College of Horticulture, Shanxi Agricultural University, Taigu, Shanxi, PR ChinaView further author information
,
Hongliu Lva College of Horticulture, Shanxi Agricultural University, Taigu, Shanxi, PR ChinaView further author information
,
Fei Wua College of Horticulture, Shanxi Agricultural University, Taigu, Shanxi, PR ChinaView further author information
&
Rufu Wangb College of Food Science and Engineering, Shanxi Agricultural University, Taigu, Shanxi, PR ChinaCorrespondence[email protected]
View further author information
Pages 1056-1064 | Received 01 Jul 2020, Accepted 28 Aug 2020, Published online: 17 Sep 2020

References

  • Chen J, Tang XP, Li DK, et al. Early maturing large-grain high-quality grape variety-Zaoheibao. Acta Horticulturae Sinica. 2001;03:277–286.
  • Liu XT, Guo JF, Wang SY, et al. Low temperature on laccase activity of Tricholoma mongolicum mycelium and the impact of its gene family expression. Chin Agric Sci Bull. 2019;35(3):40–46.
  • Yu XT. Technological optimization and fermentation process of black glutinous rice wine metabolomics research [dissertation]. Guiyang (China): Guizhou University; 2019.
  • Padilla B, Gil JV, Manzanares P. Past and future of non-Saccharomyces yeasts: from spoilage microorganisms to biotechnological tools for improving wine aroma complexity. Front Microbiol. 2016;7:411–431.
  • Pei XJ. Process optimization and aroma components of roasted red date fruit wine analysis [dissertation]. Baoding (China): Hebei Agricultural University; 2018.
  • Carrau F, Medina K, Fariña L, et al. Effect of Saccharomyces cerevisiae inoculum size on wine fermentation aroma compounds and its relation with assimilable nitrogen content. Int J Food Microbiol. 2010;143(1–2):81–85.
  • Liu Z, Wang Z, Sun J, et al. The dynamics of volatile compounds and their correlation with the microbial succession during the traditional solid-state fermentation of Gutian Hong Qu glutinous rice wine. Food Microbiol. 2020;86:103347.
  • Jin HR. Effects of different brewing techniques on Chardonnay dry white wine [dissertation]. Jinan (China): Qilu University of Technology; 2016.
  • Sun Y, Zhang T, Lü H, et al. Effect of added sulphur dioxide levels on the fermentation characteristics of strawberry wine. J Inst Brew. 2016;122(3):446–451.
  • González-Centeno MR, Chira K, Teissedre P-L. Ellagitannin content volatile composition and sensory profile of winesfrom different countries matured in oak barrels subjected to different toasting methods. Food Chem. 2016;210:500–511.
  • Urcan DE, Giacosa S, Torchio F, et al. 'Fortified' wines volatile composition: Effect of different postharvest dehydration conditions of wine grapes cv. Malvasia moscata (Vitis vinifera L.). Food Chem. 2017;219:346–356.
  • Wei GX, Yang XT, Zhou YW, et al. Research progress of ester compounds in wine. Sci Technol Food Ind. 2015;36:394–399.
  • Hao HM, Zhang SW, Guo CX, et al. Analysis of volatile components of Hawthorn fruit vinegar by headspace solid phase microextraction coupled with gas chromatography-mass spectrometry. Food Sci. 2016;37:138–141.
  • Lan XH, Xie LY, Xu YY, et al. Comprehensive evaluation and quality difference analysis of volatile substances of Morel. Food Sci. 2019;40:270–275.
  • Wang X, Tao Y, Wu Y, et al. Aroma compounds and characteristics of noble-rot wines of Chardonnay grapes artificially botrytized in the vineyard. Food Chem. 2017;226:41–50.
  • Jiang PF, Luo Q, Shi BZ, et al. Analysis of antioxidant activity and aroma components of Pueraria wine fermented by different yeasts. J Chin Inst Food Sci Technol. 2019;19:230–239.
  • Zhao YF. Study on the brewing technology of pear wine [dissertation]. Shijazhuang (China): Hebei University of Science and Technology; 2019.
  • Berry DR. Alcoholic beverage fermentations. In: Lea AGH, Piggott J, editors. Fermented beverage production. London (UK): Blackie Academic and Professional Press; 1995. p. 32–44.
  • Wang L. Study on aroma substances in cider brewing [dissertation]. Wuxi (China): Jiangnan University; 2004.
  • Li Y, Kang JJ, Cheng XL, et al. Analysis of aroma components of Cabernet Sauvignon dry red wine produced by three Saccharomyces cerevisiae. Food Sci. 2010;31:378–382.
  • Jolly NP, Augustyn OPH, et al. The role and use of the non-Saccharomyces yeasts in wine production. South Afr J Enol Vitic. 2006;27(1):15–39.
  • Perestrelo R, Fernandes A, Albuquerque FF, et al. Analytical characterization of the aroma of Tinta Negra Mole red wine: Identification of the main odorants compounds. Anal Chim Acta. 2006;563(1–2):154–164.
  • Sumby KM, Grbin PR, Jiranek V. Microbial modulation of aromatic esters in wine: Current knowledge and future prospects. Food Chem. 2010;121(1):1–16.
  • Zhang W, Zhang L, Xu C. Chemical and volatile composition of jujube wines fermented by Saccharomyces cerevisiae with and without pulp contact and protease treatment. Food Sci Technol. 2016;36(2):204–209.
  • Jiang B, Zhang Z. Volatile Compounds of young wines from cabernet sauvignon, cabernet gernischet and chardonnay varieties grown in the loess Plateau Region of China. Molecules. 2010;15(12):9184–9196.
  • Biasoto ACT, Netto FM, Marques EJ, et al. Acceptability and preference drivers of red wines produced from Vitis labrusca and hybrid grapes. Food Res Int. 2014;62:456–466.
  • Bonatto MD, Luizd V, Gómez AS, et al. Sensory descriptive and comprehensive GC-MS as suitable tools to characterize the effects of alternative winemaking procedures on wine aroma. Part II: BRS Rúbea and BRS Cora. Food Chem. 2020;311:126025.
  • Sánchez PE, Delgado JA, Ferrer MA, et al. The aroma of La Mancha Chelva wines: Chemical and sensory characterization. Food Res Int. 2019;119:135–142.
  • Ye LL, Yang J, Chen T, et al. Process optimization and aroma components analysis of red fermented and glutinous rice compound fermentation wine. Food Sci. 2019;40:182–188.
  • Hai JP, Liu YN, Qiu SS. Optimization of fermentation process of Sanhua plum wine and analysis of aroma components. Food Sci. 2016;37:222–229.
  • Revilla E, Garcia BE, Cabello F, et al. Value of high-performance liquid chromatographic analysis of anthocyanins in the differentiation of red grape cultivars and red wines made from them. J Chromatogr A. 2001;915(1–2):53–60.
  • He LL, Zhang N, Yu HY. Determination of volatile compounds in cherry wine by GC-MS. Food Industry Technol. 2013;34:141–148.
  • Molina AM, Guadalupe V, Varela C, et al. Differential synthesis of fermentative aroma compounds of two related commercial wine yeast strains. Food Chem. 2009;117(2):189–195.
  • Zhang K, Yang J, Qiao Z, et al. Assessment of β-glucans, phenols, flavor and volatile profiles of hulless barley wine originating from highland areas of China. Food Chem. 2019;293:32–40.
  • Dumitriu GG, Peinado RA, Cotea VV, et al. Volatilome fingerprint of red wines aged with chips or staves: Influence of the aging time and toasting degree. Food Chem. 2020;310:125801.
  • Edwards CG, Beelman RB, Bartey CE, et al. Production of decanoic acid and other volatile compounds and the growth of yeast and malolactic bacteria during vinification. Am J Enol Vitic. 1990;41:48–56.

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