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Research Project
OPTIMIZAÇÃO DA PRODUÇÃO DE HIDROMEL UTILIZANDO DIFERENTES SISTEMAS DE IMOBILIZAÇÃO DE CÉLULAS
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Mead production: effect of nitrogen supplementation on growth, fermentation profile and aroma formation by yeasts in mead fermentation
Publication . Pereira, Ana Paula; Mendes-Ferreira, A.; Oliveira, João Manuel; Estevinho, Leticia M.; Mendes-Faia, Arlete
Mead is an alcoholic beverage, produced since ancient times, resulting from an alcoholic fermentation of diluted honey by yeasts. When it is produced in a traditional manner, mead producers can encounter several problems related to a lack of essential nutrients, such as available nitrogen. Thus, the aim of this study was to evaluate the effect of nitrogen addition to honey-must on the fermentation performance of two Saccharomyces cerevisiae wine yeasts, QA23 and ICV D47, as well as on the mead composition and production of volatile aroma compounds. A portion of honey-must was supplemented with diammonium phosphate (DAP) to achieve the nitrogen concentration required by yeast to complete alcoholic fermentation. The supplementation with DAP reduced the fermentation length to around 7 days, but not all sugars were fully consumed, suggesting that other factors could be interfering with yeast growth. For both yeasts the specific growth rate and final biomass were higher in musts supplemented with DAP. Mead final composition was similar under the two experimental conditions. Analysis of the volatile profile revealed that the concentrations of the volatile fatty acids and volatile phenols were higher in meads supplemented with DAP. The concentrations of ethyl hexanoate, ethyl octanoate and isoamyl acetate were above their perception threshold and were higher in meads supplemented with DAP, which could contribute to the enhancement of the fruity character. This study could be useful for the optimization of mead production and quality improvement.
High-cell-density fermentation of Saccharomyces cerevisiae for the optimisation of mead production
Publication . Pereira, Ana Paula; Mendes-Ferreira, Alexandra; Oliveira, José M.; Estevinho, Leticia M.; Mendes-Faia, Arlete
Mead is a traditional drink that contains 8%e18% (v/v) of ethanol, resulting from the alcoholic
fermentation of diluted honey by yeasts. Mead fermentation is a time-consuming process and the
quality of the final product is highly variable. Therefore, the present investigation had two main
objectives: first, to determine the adequate inoculum size of two commercial wine-making strains of
Saccharomyces cerevisiae for the optimisation of mead fermentation; and second, to determine if an
increase in yeast pitching rates in batch fermentations altered the resulting aroma profiles. Minor
differences were detected in the growth kinetics between the two strains at the lowest pitching rate.
With increasing pitching rates net growth of the strain ICV D47 progressively decreased, whereas for the
QA23 the increasing inoculum size had no influence on its net growth. The time required to reach the
same stage of fermentation ranged from 24 to 96 h depending on the inoculum size. The final aroma
composition was dependent on the yeast strain and inoculum size. Fourteen of the twenty-seven volatile
compounds quantified could contribute to mead aroma and flavour because their concentrations rose
above their respective thresholds. The formation of these compounds was particularly pronounced at
low pitching rates, except in mead fermented by strain ICV D47, at 106 CFUs/mL. The esters isoamyl
acetate, ethyl octanoate and ethyl hexanoate were the major powerful odourants found in the meads. The
results obtained in this study demonstrate that yeast strain and inoculum size can favourably impact
mead’s flavour and aroma profiles.
Mead production: Fermentative performance of yeasts entrapped in different concentrations of alginate
Publication . Pereira, Ana Paula; Mendes-Ferreira, A.; Estevinho, Leticia M.; Mendes-Faia, Arlete
Mead is an alcoholic drink known since ancient times, produced by yeast fermenting diluted honey. However, the production of mead has suffered in recent years, partially owing to the lack of scientific progress in this field. In this study, two strains of Saccharomyces cerevisiae, QA23 and ICVD47, were immobilized in 2 or 4% (w/v) alginate beads to assess the most effective alginate concentration for yeast immobilization to produce mead. Neither of the alginate concentrations was able to prevent cell leakage from the beads. The fermentation length was 120h for both yeast strains. In all cases, at the end of the fermentation, the number of cells entrapped in the beads was higher than the number of free cells, and the total 4% alginate bead wet weight was significantly higher than the 2% alginate bead wet weight. In addition, the evaluation of mead quality showed that the yeast strain had significantly more influence on the physicochemical characteristics than the alginate concentration. Although the yeasts immobilized in the two alginate concentrations were able to perform the fermentation, further research is needed in order to understand the evolution of the yeast population inside the beads throughout the fermentative process.
Volatile composition and sensory properties of mead
Publication . Pereira, Ana Paula; Mendes-Ferreira, Ana; Dias, L.G.; Oliveira, José M.; Estevinho, Leticia M.; Mendes-Faia, Arlete
Mead is a traditional beverage that results from the alcoholic fermentation of diluted honey
performed by yeasts. Although the process of mead production has been optimized in recent years,
studies focused on its sensory properties are still scarce. Therefore, the aim of this work was to analyse
the sensory attributes of mead produced with free or immobilized cells of the Saccharomyces cerevisiae
strains QA23 and ICV D47, and to establish potential correlations with its volatile composition.
In the volatile composition of mead, the e ect of yeast condition was more important than the
strain. In respect to sensory analysis, the most pleasant aroma descriptors were correlated with
mead obtained with free yeast cells, independently of the strain. Both sensory analysis and volatile
composition indicates that the most pleasant mead was produced by free yeast cells. Although this
study has provided a significant contribution, further research on the sensory quality of mead is
still needed.
Improvement of mead fermentation by honey-must supplementation
Publication . Pereira, Ana Paula; Mendes-Ferreira, Ana; Estevinho, Leticia M.; Mendes-Faia, Arlete
Through honey's fermentation, diverse beverages can be obtained, among which is mead, an alcoholic drink with 8 to 18% of ethanol (v/v). Since honey is a matrix with a low nutrient concentration and other unfavourable growth conditions, several problems are usually encountered, namely delayed or arrested fermentations, unsatisfactory quality parameters and lack of uniformity of the final product, as well as unpleasant sensory properties. In this context, the aim of this work was to optimize mead production through honey-must supplementation with (a) salts, (b) vitamins or (c) salts+vitamins. The effects of the honey-must formulation on the fermentation kinetics, growth profile and physicochemical characteristics of final meads were evaluated. The results showed minor differences in the fermentation profile and time between fermentations with the different formulations. The growth profile was influenced more by the yeast strain than by the supplements added to the honey-must. In general, the honey-must composition did not influence meads' final characteristics, except regarding the SO < inf > 2 < /inf > concentration of the meads produced using the strain QA23. In summary, the addition of salts and/or vitamins to honey-must had no positive effects on the fermentation, growth profile or characteristics of the final products.
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Fundação para a Ciência e a Tecnologia
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Funding Award Number
SFRH/BD/45820/2008