terclim by ICS banner
IVES 9 IVES Conference Series 9 OPTIMISATION OF THE AROMATIC PROFILE OF UGNI BLANC WINE DISTILLATE THROUGH THE CONTROL OF ALCOHOLIC FERMENTATION

OPTIMISATION OF THE AROMATIC PROFILE OF UGNI BLANC WINE DISTILLATE THROUGH THE CONTROL OF ALCOHOLIC FERMENTATION

Abstract

The online monitoring of fermentative aromas provides a better understanding of the effect of temperature on the synthesis and the loss of these molecules. During fermentation, gas and liquid phase concentrations as well as losses and total productions of volatile compounds can be followed with an unprecedented acquisition frequency of about one measurement per hour. Access to instantaneous production rates and total production balances for the various volatile compounds makes it possible to distinguish the impact of temperature on yeast production (biological effect) from the loss of aromatic molecules due to a physical effect³. Up to now, this innovative approach has been carried out successfully on isothermal fermentations1,2. Elucidating the role of anisothermal fermentation temperature profiles is a crucial issue that may lead to a deeper understanding of the influence of temperature on yeast metabolism in relation to the synthesis of aromatic molecules. In this study, results from different temperature control strategies of fermentation with increasing and decreasing profiles are explored. These fermentations were carried out on a laboratory scale with the online monitoring tool for alcoholic fermentation leading to a powerful dataset concerning higher alcohols, acetate and ethyl esters. The anisothermal control of the fermentation temperature shows that the production of higher alcohols is slowed down with the lowering of the temperature profiles and inversely for the ascending profiles. For isoamyl acetate and ethyl hexanoate, with ascending temperature profiles, larger losses are entailed with increasing temperature during fermentation and therefore the concentration in the liquid decreases. Obviously, the phenomenon is reversed for the descending profiles which allow to combine a better production of esters with an optimized conservation in liquid phase until the end of the alcoholic fermentation while minimizing the synthesis of higher alcohols. In strong concentrations, these alcohols may represent an organoleptic defect, especially for the distillation wines in Charente⁴. After the fermentation step, the wines were microdistilled with their lees in order to reproduce the conditions of distillation in Charente. Thanks to this step, it was possible to note the aromatic richness of the lees concerning the heavy ethyl esters⁵. Moreover, the impact of the anisothermal temperature profiles quoted above is also confirmed on the aromas released from the lees by the heating process of the distillation.

 

1. Mouret, J. R.; Perez, M.; Angenieux, M.; Nicolle, P.; Farines, V.; Sablayrolles, J. M. Online-Based Kinetic Analysis of Higher Alcohol and Ester Synthesis During Winemaking Fermentations. Food Bioprocess Technol 2014, 7 (5), 1235–1245. https://doi. org/10.1007/s11947-013-1089-5.
2. Mouret, J. R.; Camarasa, C.; Angenieux, M.; Aguera, E.; Perez, M.; Farines, V.; Sablayrolles, J. M. Kinetic Analysis and Gas–Liquid Balances of the Production of Fermentative Aromas during Winemaking Fermentations: Effect of Assimilable Nitrogen and Temperature. Food Research International 2014, 62, 1–10. https://doi.org/10.1016/j.foodres.2014.02.044.
3. Mouret, J.-R.; Aguera, E.; Perez, M.; Farines, V.; Sablayrolles, J.-M. Study of Oenological Fermentation: Which Strategy and Which Tools? Fermentation 2021, 7 (3), 155. https://doi.org/10.3390/fermentation7030155.
4. Sarvarova, N. N.; Cherkashina, Yu. A.; Evgen’ev, M. I. Application of Chromatographic Methods to the Determination of Cognac Quality Indicators. Journal of Analytical Chemistry 2011, 66 (12), 1190–1195. https://doi.org/10.1134/S1061934811120094.
5. Saerens, S. M. G.; Delvaux, F.; Verstrepen, K. J.; Van Dijck, P.; Thevelein, J. M.; Delvaux, F. R. Parameters Affecting Ethyl Es-ter Production by Saccharomyces Cerevisiae during Fermentation. Applied and Environmental Microbiology 2008, 74 (2), 454–461. https://doi.org/10.1128/AEM.01616-07.

DOI:

Publication date: February 9, 2024

Issue: OENO Macrowine 2023

Type: Poster

Authors

Charlie Guittin1,2, Faïza Maçna¹, Christian Picou¹, Marc Perez¹, Adeline Barreau², Xavier Poitou², Jean-Roch Mouret¹, Vincent Farines¹

1. SPO, Univ Montpellier, INRAE, Institut Agro, Montpellier, France
2. R&D department, Jas Hennessy & Co, Cognac, France

Contact the author*

Keywords

Online monitoring of aromas, Anisothermal temperature, Lees, Distillation

Tags

IVES Conference Series | oeno macrowine 2023 | oeno-macrowine

Citation

Related articles…

YEAST LEES OBTAINED AFTER STARMERELLA BACILLARIS FERMENTATION AS A SOURCE OF POTENTIAL COMPOUNDS TO IMPROVE SUSTAINABILITY IN WINE- MAKING

The yeast residue left over after wine-making, known as wine yeast lees, is a source of various compounds that are of interest for wine and food industry. In winemaking, yeast-derived glycocompounds and proteins represent an example of circular economy approach since they have been proven to reduce the need for bentonite and animal-based fining agents. This leads to a reduced environmental impact in the stabilization and fining processes in winemaking. (de Iseppi et al., 2020, 2021).

Read More

IMPACT OF ABIOTIC AND BIOTIC FACTORS ON BIOADHESION PROPERTIES OF BRETTANOMYCES BRUXELLENSIS

Brettanomyces bruxellensis is an ubiquitous yeast associated with different fermentation media such as beer and kombucha, where its presence is beneficial to bring an aromatic typicity. However, it is a main spoilage yeast in wines, in which it produces volatile phenols responsible for organoleptic deviations causing significant economic losses (Chatonnet et al., 1992). Cellar and winery equipment’s are considered as the first source of contamination, during fermentation and wine ageing process (Connel et al., 2002). Indeed, it is possible to find B. bruxellensis in the air, on walls and floors of the cellars, on small materials, vats and barrels.

Read More

ANTIOXIDANT CAPACITY OF INACTIVATED NON-SACCHAROMYCES YEASTS

The importance of the non-Saccharomyces yeasts (NSY) in winemaking has been extensively reviewed in the past for their aromatic or bioprotective capacity while, recently their antioxidant/antiradical potential has emerged under winemaking conditions. In the literature the antioxidant potential of NSY was solely explored through their capacity to improve glutathione (GSH) content during alcoholic fermen- tation [1], while more and more studies pointed out the activity of the non-glutathione soluble fraction released by yeasts [2].

Read More

IMPACT OF HARVEST DATE ON THE FINE MOLECULAR COMPOSITION OF MUST AND BORDEAUX RED WINE (VAR. MERLOT, CABERNET SAUVIGNON). FOCUS ON ACIDITY AND SENSORY IMPACT AFTER FIVE YEARS OF AGING

Climate change has brought several impacts that are becoming increasingly intense during the last few years and put at risk the quality of the berries or even the plant’s sustainability. Such extreme climatic events impact the composition of the wine while modulating its quality and the consumer preferences (Tempère et al., 2019). The three most important changes that take place in the must are: 1) decrease acidity, 2) increase of the concentration of sugar, hence increase of alcohol in the wine, and 3) modification
of the sensory balance and the development for example of cooked fruit aromas.

Read More

FLAVANOL COMPOSITION OF VARIETAL AND BLEND WINES MADE BEFORE AND AFTER FERMENTATION FROM SYRAH, MARSELAN AND TANNAT

Background: The Flavan-3-ol extraction from grape skin and seed during red-winemaking and their retention into wines depend on many factors, some of which are modified in the winemaking of blend wines. Recent research shows that Marselan, have grapes with high proportion of skins with high concentrations of flavanols, but produces red-wines with low proportion of skin derived flavanols, differently to the observed in Syrah or Tannat. But the factors explaining these differences are not yet understood.

Read More