terclim by ICS banner
IVES 9 IVES Conference Series 9 ASSESSING THE ROLE OF 27 KNOWN BITTER COMPOUNDS IN COMMERCIAL WHITE WINES COMBINING LC-MS QUANTIFICATION AND SENSORY ANALYSIS

ASSESSING THE ROLE OF 27 KNOWN BITTER COMPOUNDS IN COMMERCIAL WHITE WINES COMBINING LC-MS QUANTIFICATION AND SENSORY ANALYSIS

Abstract

The balance between the different flavours of a wine largely determines its perception and appreciation by the consumers. In white wines, sweetness and sourness are usually the two poles balancing the taste properties. The bitter flavour, on the other hand, is frequently associated with a loss of equilibrium and all white wines (dry and sweet, young and aged) are affected.

Several bitter compounds are already well-described in wines. Some are linked to microorganisms as acrolein (Bauer et al., 2010) or oak wood, for example lyoniresinol (Cretin et al., 2015), while others come directly from grapes: mostly phenolic (Hufnagel and Hofmann, 2008) and nitrogen compounds (Roudot-Algaron, 1996). Furthermore, the enhancing role played by ethanol has also been well established (Cretin et al., 2018). The present study aims to determine the influence of twenty-seven known bitter compounds on the taste of various commercial white wines.

Thirty wines have been selected and submitted to sensory analysis by a trained panel. The various intensities of sourness, sweetness and bitterness have been determined for each wine. Jointly, five quantification methods have been developed and validated using liquid chromatography coupled with high resolution mass spectrometry (UHPLC-Exactive, Orbitrap analyzer) in order to determine the amount of the selected bitter compounds.

Potential correlations between the described tastes of the wines and concentrations of bitter molecules have been assessed. For the most relevant compounds, detection thresholds have been updated using the same trained panel, enabling a better understanding of the impact of various compounds.

This study enlightens the role of already known bitter compounds in bitter wine. It is also leading the way to further research as some wine’s taste remain unexplained by the selected compounds, thus confirming the potential presence of still unknown bitter compounds.

 

1. Bauer, R., Cowan, D. A., Crouch, A., 2010. Acrolein in wine : importance of 3-hydroxypropionaldehyde and derivatives in production and detection. J. Agric. Food Chem. 58, 3243-3250.
2. Cretin, B., Sallembien, Q., Sindt, L., Daugey, N., Buffeteau, T., Waffo-Teguo, P., Dubourdieu, D., Marchal, A., 2015. How stereochemistry influences the taste of wine : Isolation, characterization and sensory evaluation of lyoniresinol stereoisomers. Analytica chimica acta. 888, 191-198.
3. Cretin, B., Dubourdieu, D., Marchal, A., 2018. Influence of ethanol content on sweetness and bitterness perception in dry wines. Food science & technology. 87, 61-66.
4. Hufnagel, J.C., Hofmann, T., 2008. Quantitative reconstruction of the nonvolatile sensometabolome of a red wine. J. Agric. Food Chem. 56, 9190-9199.
5. Roudot-Algaron, F., 1996. Le goût des acides aminés, des peptides et des protéines : exemple de peptides sapides dans les hydrolysats de caséines. Lait. 76, 313-348.

DOI:

Publication date: February 9, 2024

Issue: OENO Macrowine 2023

Type: Article

Authors

Tom Estier1,2 and Axel Marchal1,2

1. Univ. Bordeaux, Bordeaux INP, INRAE, OENO, UMR 1366, ISVV, F-33140 Villenave d’Ornon, France
2. Bordeaux Sciences Agro, Bordeaux INP, INRAE, OENO, UMR 1366, ISVV, F-33170 Gradignan, France

Contact the author*

Keywords

LC-MS quantification, sensory analysis, bitterness, wine

Tags

IVES Conference Series | oeno macrowine 2023 | oeno-macrowine

Citation

Related articles…

INVESTIGATING TERROIR TYPICITY: A COMPREHENSIVE STUDY BASED ON THE AROMATIC AND SENSORIAL PROFILES OF RED WINES FROM CORBIÈRES APPELLATION

Volatile compounds play a significant role on the organoleptic properties defining wines quality. This particular role was exploited in several studies with the aim to differentiate wines from a more or less extensive production area, according to their sensory profile [1], as well as their chemical composition [2,3] (Di Paola-Naranjo et al., 2011; Kustos et al., 2020). Indeed, since aroma compounds development in grapes depends primarily on the environmental conditions of the vines and grapes (soil and climate), it is conceivable that these parameters craft the aromatic signature of the wine produced, in relation to its origin (Van Leeuwen et al., 2020). In this work, a general study on the aromatic and sensorial profile of wines produced in five sub-regions of the Corbières denomination, a renowned red grape varieties viticultural region in South France, was reported.

WHITE WINES OXIDATIVE STABILITY: A 2-VINTAGE STUDY OF CHARDONNAY CHAMPAGNE BASE WINES AGED ON LEES IN BARRELS

Ultra-premium champagne wines are characterized by a long stay on laths. The goal of the winemaker is to use all possible oenological techniques to keep the aromatic freshness of the future products. To that purpose, some champagne base wines can be aged on lees in oak barrels. However, if it is now acknowledged that such ageing practices contribute to the oxidative stability of dry white wines, no study has been done on Chardonnay champagne base wines designed for a long ageing on laths [1].

BORDEAUX RED WINES WITHOUT ADDED SULFITES SPECIFICITIES: COMPOSITIONAL AND SENSORY APPROACHES TOWARDS HIGHLIGHTING AND EXPLAI-NING THEIR SPECIFIC FRUITINESS AND COOLNESS

With the development of naturality expectations, wines produced without any addition of sulfur dioxide (SO₂) become very popular for consumers and such wines are increasingly present on the market. Recent studies also showed that Bordeaux red wines without added SO₂ could be differentiated from a sensory point of view from similar wines produced with SO₂¹. Thus, the aim of the current study was to characterize from a sensory point of view, specific aromas of wines without added SO₂ and to identify compounds involved.

WINE LEES AS A SOURCE OF NITROGEN FOR OENOCOCCUS OENI TO IMPROVE MALOLACTIC FERMENTATION PERFORMANCE

Malolactic fermentation (MLF) is a desired process in red and acidic white wines, after alcoholic fermentation (AF), carried out by the lactic acid bacterium (LAB) Oenococcus oeni. The advantages are an increase of pH, microbiological stabilization and organoleptic improvement of the final wine. However, the presence of stress factors such as ethanol, low pH, high total SO2, lack of nutrients and presence of inhibitors, could affect the successful completion of MLF [1]. Changes in amino acid composition and deficiencies in peptides after AF, showed that MLF can be delayed, signaling its importance for bacterial growth and L-malic acid degradation during MLF [2].

CONVOLUTIONAL NEURAL NETWORK TO PREDICT GENETIC GROUP AND SULFUR TOLERANCE OF BRETTANOMYCES BRUXELLENSIS

[lwp_divi_breadcrumbs home_text="IVES" use_before_icon="on" before_icon="||divi||400" module_id="publication-ariane" _builder_version="4.20.4" _module_preset="default" module_text_align="center" module_font_size="16px" text_orientation="center"...