Abstract
Viability and culturability of eight Dekkera bruxellensis strains in wine along with the accumulation of volatile phenols in response to increasing concentrations of molecular sulphur dioxide (mSO2) were investigated. mSO2 concentrations up to 1 mg/L induced the non-culturable state of a portion of the population in all the strains to a different extent for each strain, although the cells were still viable. At 1.4 mg/L mSO2, cells were non-culturable, though 0.38–29.01 % of cells retained their viability. When exposed to 2.1 mg/L mSO2, viable cells were not detected. Up to 0.24 mg/L 4-vinylguaiacol and up to 0.73 mg/L 4-ethylphenol were accumulated by non-culturable and dead Dekkera bruxellensis strains, respectively. The concentration of mSO2 needed for the transition from viable to non-culturable state of D. bruxellensis strains was higher in wine than in synthetic wine medium. The volatile phenols accumulated in wine were different from those produced in synthetic wine medium, although their accumulation kinetics were similar.
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Agnolucci M, Vigentini I, Capurso G, Merico A, Tirelli A, Compagno C, Foschino R, Nuti M (2009) Genetic diversity and physiological traits of Brettanomyces bruxellensis strains isolated from Tuscan Sangiovese wines. Int J Food Microbiol 130:238–244
Agnolucci M, Rea F, Sbrana C, Cristiani C, Fracassetti D, Tirelli A, Nuti M (2010) Sulphur dioxide affects culturability and volatile phenol production by Brettanomyces/Dekkera bruxellensis. Int J Food Microbiol 143:76–80
Barata A, Caldeira J, Botelheiro R, Pagliara D, Malfeito Ferreira M, Loureiro V (2008) Survival pattern of Dekkera Bruxellensis in wine and inhibitory effect of sulfur dioxide. Int J Food Microbiol 121:201–207
Barbin P, Cheval JL, Gilis JF, Strehaiano P, Taillandier P (2008) Diversity in spoilage yeast Dekkera/Brettanomyces bruxellensis isolated from French red wine. Assessment during fermentation of synthetic wine medium. J Inst Brew 114:69–75
Blomqvist J, Sànchez Nogué V, Gorwa-Grauslund M, Passoth V (2012) Physiological requirements for growth and competitiveness of Dekkera bruxellensis under oxygen-limited or anaerobic conditions. Yeast 29:265–274
Chatonnet P, Dubourdieu D, Boidron J, Pons M (1992) The origin of ethylphenols in wines. J Sci Food Agric 60:165–178
Conterno L, Lucy Joseph CM, Arvik TJ, Henick-Kling T, Bisson L (2006) Genetic and physiological characterization of Brettanomyces bruxellensis strains isolated from wines. Am J Enol Vitic 57:139–147
Divol B, du Toit M, Duckitt E (2012) Surviving in the presence of sulphur dioxide: strategies developed by wine yeasts. Appl Microbiol Biotechnol 95:601–613
Du Toit WJ, Pretorius IS, Lonvaud-Funel A (2005) The effect of sulfur dioxide and oxygen on the viability and culturability of a strain of Acetobacter pasteurianus and a strain of Brettanomyces bruxellensis isolated from wine. J Appl Microbiol 98:862–871
Hale MD, McCafferty K, Larmie E, Newton J, Swan JS (1999) The influence of oak seasoning and toasting parameters on the composition and quality of wine. Am J Enol Vitic 50:495–502
Kurtzman CP, Fell JW, Boekhout T (2011) The yeasts: a taxonomic study, 5th edn. Elsevier, Amsterdam
Laforgue R, Lonvaud-Funel A (2012) Hydroxycinnamic acid decarboxylase activity of Brettanomyces bruxellensis involved in volatile phenol production: relationship with cell viability. Food Microbiol 32:230–234
Malfeito-Ferreira M (2010) Yeasts and wine off-flavours: a technological perspective. Ann Microbiol 61:95–102
Medina K, Boido E, Dellacassa E, Carrau F (2012) Growth of non-Saccharomyces yeasts affects nutrient availability for Saccharomyces cerevisiae during wine fermentation. Int J Food Microbiol 157:245–250
Millet V, Lonvaud-Funel A (2000) The viable but non-culturable state of wine micro-organisms during storage. Lett Appl Microbiol 30:136–141
O.I.V (2011) Method OIV-MA-AS323-04A. In: Compendium of International methods of Wine and Must Analysis, Vol 2, http://www.oiv.int/oiv/info/enplubicationoiv#compendium
Oelofse A, Pretorius IS, du Toit M (2008) Significance of Brettanomyces and Dekkera in winemaking: a synoptic review. S Afr J Enol 29:128–144
Ribéreau-Gayon P, Dubourdieu D, Donèche B, Lonvaud A (2006) Handbook of Enology. The Microbiology of Wine and Vinifications, 2nd edn. Wiley, Chichester
Serpaggi V, Remize F, Recorbet G, Gaudot-Dumas E, Sequeira-LeGrand A, Alexandre H (2012) Characterization of the “Viable but non culturable” (VBNC) state in the wine spoilage yeast Brettanomyces. Food Microbiol 30:438–447
Suárez R, Suárez-Lepe JA, Morata A, Calderón F (2007) The production of ethylphenols in wine by yeasts of the genera Brettanomyces and Dekkera: a review. Food Chem 102:10–21
Usseglio-Tomasset L, Bosia PD (1984) La prima costante di dissociazione dell’acido solforoso. Vini d’Italia 5:7–14
Usseglio-Tomasset L, Ciolfi G, Di Stefano R (1982) The influence of the presence of anthocyanins on the aseptic activity of sulfur dioxide towards yeasts. Vini d’Italia 24:86–94
Vigentini I, Romano A, Compagno C, Merico A, Molinari F, Tirelli A, Foschino R, Volonterio G (2008) Physiological and oenological traits of different Dekkera/Brettanomyces bruxellensis strains under wine-model conditions. FEMS Yeast Res 8:1087–1096
Wedral D, Shewfelt R, Frank J (2010) The challenge of Brettanomyces in wine. Food Sci Technol 43:1474–1479
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The authors express their gratitude to Petrawine (Suvereto, Livorno) for providing us with the wine for the experiments. This research was supported by the the Ministero delle Politiche Agricole Alimentari e Forestali (MIPAAF) National project OIGA DM 2065.
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Agnolucci, M., Cristani, C., Maggini, S. et al. Impact of sulphur dioxide on the viability, culturability, and volatile phenol production of Dekkera bruxellensis in wine. Ann Microbiol 64, 653–659 (2014). https://doi.org/10.1007/s13213-013-0698-6
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DOI: https://doi.org/10.1007/s13213-013-0698-6