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The effects of copper and high sugar concentrations on growth, fermentation efficiency and volatile acidity production of different commercial wine yeast strains
Author(s) -
FERREIRA J.,
TOIT M. DU,
TOIT W.J. DU
Publication year - 2006
Publication title -
australian journal of grape and wine research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.65
H-Index - 77
eISSN - 1755-0238
pISSN - 1322-7130
DOI - 10.1111/j.1755-0238.2006.tb00043.x
Subject(s) - fermentation , wine , sugar , chemistry , yeast , fructose , food science , yeast in winemaking , wine fault , malolactic fermentation , ethanol fermentation , fermentation in winemaking , free amino nitrogen , fruit wine , copper , biochemistry , saccharomyces cerevisiae , lactic acid , biology , bacteria , organic chemistry , brewing , genetics
The effect of high sugar concentrations or the presence of copper residues on fermentation efficiency and volatile acid (VA) production were examined for selected commercial wine yeast strains. Fermentation rate as measured by accumulated mass loss appeared to be least affected by high sugar concentrations during the first few days of fermentation for strains VIN13, WE14, N96 and RJ11. It was, however, only fermentations using VIN13, WE372, N96 and L2056 that contained less than 11 g/L fructose after 21 days. VIN13 and RJ11 produced the lowest VA in the 21 o , 25 o and 28 o Brix musts. Fermentation efficiency of six strains was also studied in must containing 0.25 mM Cu 2+ . Results indicated that strains NT50, Collection Cépage Cabernet (CC) and D80 were not significantly affected, whereas VIN13, NT112 and RJ11 contained significantly more glucose and fructose after fermentation in the must containing copper. Copper addition also increased VA production, with strains RJ11 and NT50 being the most affected.