Macrowine 2021
IVES 9 IVES Conference Series 9 Impact of non-fruity compounds on red wines fruity aromatic expression: the role of higher alcohols

Impact of non-fruity compounds on red wines fruity aromatic expression: the role of higher alcohols

Abstract

A part, at least, of the fruity aroma of red wines is the consequence of perceptive interactions between various aromatic compounds, particularly ethyl esters and acetates, which may contribute to the perception of fruity aromas, specifically thanks to synergistic effects.1,2 The question of the indirect impact of non-fruity compounds on this particular aromatic expression has not yet been widely investigated. Among these compounds higher alcohols (HA) represent the main group, from a quantitative standpoint, of volatiles in many alcoholic beverages. Moreover, some bibliographic data suggested their contribution to the aromatic complexity by either increasing or masking flavors of wine, depending of their concentrations.3 Thus, we focused on the impact of five HA on the perception of fruity aroma in red wines. Various aromatic reconstitutions were prepared, consisting of five HA and the red wine fruity pool composed of thirteen ethyl esters and acetates, all at the average concentrations found in red wine. Sensory analysis highlighted the individual particular behavior of two HA, 3-methylbutan-1-ol and butan-1-ol, added individually at supra- and infra-threshold concentrations, respectively. Furthermore, these two compounds reduced the “olfactory threshold” of the fruity mixture as well as modified the qualitative perception of the fruity reconstitution. Adding five HA to different matrices and at various concentrations, representative of the diversity of wine composition, revealed a new remarkable perceptive interaction, and more precisely, a masking effect on fruity aromas perception. Their simultaneous addition to the model solution also modified the qualitative perception of the fruity reconstitution, particularly exacerbating the perception of butyric and solvent notes and attenuating the perception of fruity notes.4 This study, the first one devoted to the impact of HA on fruity aromatic expression, demonstrated that HA participate, both quantitatively and qualitatively, in masking fruity aroma perception of a wine fruity model mixture. These findings emphasized the importance of HA, a chemical family described for a long time which could therefore lead to a decrease of the perception of fruity notes in red wine. Thus the modulation of their levels during winemaking process is likely to influence indirectly the sensory quality of red wine. Keywords: red wine, perceptive interactions, higher alcohols, ethyl esters and acetates.

1. Pineau, B.; Barbe, J.-C.; Van Leeuwen, C.; Dubourdieu, D. J. Agric. Food Chem. 2009, 57 (9), 3702–3708. 2. Lytra, G.; Tempere, S.; Le Floch, A.; de Revel, G.; Barbe, J.-C. J. Agric. Food Chem. 2013, 61 (36), 8504–8513. 3. Ribéreau-Gayon, P.; Dubourdieu, D.; Donèche, B.; Lonvaud-Funel, A. Handbook of Enology – The chemistry of wine: Stabilisation and treatments, 6th ed.; Dunod; 2012; Vol. 1. 4. Cameleyre, M., Lytra, G., Tempère, S., Barbe, J-C. J. Agric. Food Chem. 2015. 63 (44), pp 9777–9788.

Publication date: May 17, 2024

Issue: Macrowine 2016

Type: Article

Authors

Jean-Christophe Barbe*, Georgia Lytra, Margaux Cameleyre, Sophie Tempere

*Université De Bordeaux

Contact the author

Tags

IVES Conference Series | Macrowine | Macrowine 2016

Citation

Related articles…

Colour assessment of port wines using colorimetric and spectrophotometric methods

Colour is an important quality parameter in wines and is the result of a complex mixture of pigments
(including anthocyanins and their derivatives, quinones, xanthyllium compounds, etc.). Red wine colour changes over time as pigments react between themselves and with other wine macromolecules
(particularly polyphenols). During wine tasting, colour is normally assessed on the outer rim of the wine profile in a tilted glass, since most wines are too opaque to be analysed in the middle of the glass. Therefore, depending on the depth of observation considered, the perception of wine colour can be different.

Influence of methyl jasmonate foliar application to vineyard on grape volatile composition over three consecutive vintages

An alternative to improve grape quality is the application to the vineyard of elicitors. Although these compounds were first used to increase resistance of plants against pathogens, it has been found that they are also able to induce mechanisms involved in the synthesis of phenolic compounds and some amino acids. However, researches about the influence of elicitors on grape volatile composition are scarcely. Therefore, the aim of this work was to study the influence of methyl jasmonate (MeJ) foliar application on grape aroma composition over three consecutive vintages. MeJ was applied to Tempranillo grapevines at a concentration of 10 mM in 2013, 2014, and 2015 years. Control plants were sprayed with water.

How pressing techniques affect must composition and wine quality of Pinot blanc

This study investigates how the sensory profile of Pinot Blanc is affected from different maceration and pressing techniques. Grapes were sourced from four vineyards in the village Tramin in South Tyrol. For the experiment 200 kg of grapes from each vineyard site were hand picked the day before harvest for the commercial winery took place. Grapes were stored over night at 4°C, homogenized and processed in the experimental winery at Laimburg research centre the day after harvest. Four different pressing techniques were applied in duplicates of 100kg each.

Effect of post-harvest ozone treatments on the skin phenolic composition and extractability of red winegrapes cv Nebbiolo and Barbera

Wine industry is looking forward for innovative, safe and eco-friendly antimicrobial products allowing the reduction of chemical treatments in the grape defense and the winemaking process that can affect negatively the quality of the product. Ozone has been tested in food industry giving good results in preventing fungi and bacteria growth on a wide spectrum of vegetables and fruits, due to its oxidant activity and ability to attack numerous cellular constituents. Ozone leaves no chemical residues on the food surface, decomposing itself rapidly in oxygen. Gaseous ozone has been already tested for table grapes storage and on wine grapes during withering.

Accumulation of polyphenols in Barbera and Nebbiolo leaves during the vegetative season

Grapevine berries produce thousands of secondary metabolites of diverse chemical nature that have been largely detailed in the past due to their importance for defining wine quality. The wide Vitis vinifera diversity, resulting in thousands of different varieties well detailed in many studies regarding berries, is still not investigated in vegetative organs, leaves in particular. Deepening knowledge related to this aspect could be of great interest for many reasons (for example the possibility of using leaf extract for pharmaceutical, cosmetic and nutrition purposes) but, above all, for understanding the susceptibility of different grapevine varieties to pathogens.