A Caridi1. 1. Department of Agro-Forestry and Environmental Technology and Sciences, Mediterranean University of Reggio Calabria, Gallina (RC), Italy. acaridi@unirc.it
Abstract
AIMS: The reversion of the metabolic changes induced in wine yeasts by stressors. METHODS: Six strains of Saccharomyces were inoculated in grape must containing over 400 g l-1 of sugar and incubated at 35 degrees C, both with and without the addition of 100 mg l-1 of catechin, inositol or SO2. RESULTS: Significant correlations between addition of the stress-protectants and change in the metabolic behaviour of the wine yeasts were observed. Depending on strain and protectant, and expressing data as a percentage of increase or decrease compared to the control, fermentation vigour after 3 d increased by up to 10%, titratable acidity of the wines increased by up to 7%, ethanol content increased by up to 20%, unitary acetic acid production decreased by up to 35%, and unitary glycerol production decreased by up to 20%. IMPACT OF STUDY: By using protective agents it is possible to minimize the abnormal fermentation performance that wine yeasts exhibit under thermal and osmotic stress.
AIMS: The reversion of the metabolic changes induced in wine yeasts by stressors. METHODS: Six strains of Saccharomyces were inoculated in grape must containing over 400 g l-1 of sugar and incubated at 35 degrees C, both with and without the addition of 100 mg l-1 of catechin, inositol or SO2. RESULTS: Significant correlations between addition of the stress-protectants and change in the metabolic behaviour of the wine yeasts were observed. Depending on strain and protectant, and expressing data as a percentage of increase or decrease compared to the control, fermentation vigour after 3 d increased by up to 10%, titratable acidity of the wines increased by up to 7%, ethanol content increased by up to 20%, unitary acetic acid production decreased by up to 35%, and unitary glycerol production decreased by up to 20%. IMPACT OF STUDY: By using protective agents it is possible to minimize the abnormal fermentation performance that wine yeasts exhibit under thermal and osmotic stress.