terclim by ICS banner
IVES 9 IVES Conference Series 9 Macrowine 9 Macrowine 2025 9 Analysis and composition of grapes, wines, wine spirits 9 Untargeted metabolomics reveals the impact of cork oxygen transfer on non-volatile compounds during red wine ageing

Untargeted metabolomics reveals the impact of cork oxygen transfer on non-volatile compounds during red wine ageing

Abstract

During red wine aging, numerous chemical reactions occur, contributing to the modification and enhancement of the wine sensory parameters over time [1]. For non-volatile composition, initial grape or yeast related compounds (i.e polyphenols, peptides) decrease during aging as they undergo oxidative and non-oxidative reactions with other wine components to form new compounds [2]. The oxygen transfer through the cork stopper is an important factor that may influence the chemical formation and, thus the evolution of red wines.

The aim of this study was to investigate the change in untargeted non-volatile compounds during the aging of experimental Syrah red wines. These wines were bottled with 4 micro-agglomerated cork stoppers with increasing oxygen transfer rates (OTR) and were stored for a period of 24 months at 17°C in a cellar. Subsequently, an untargeted metabolomic analysis based on high-resolution mass spectrometry (UHPLC-Q-Orbitrap-HRMS) was carried out on the non-aged wines and after the 24 months of ageing [3]. Mass spectral data processing and multivariate statistical methods (PCA, volcano plot) were conducted for classification of samples and identification of discriminant features between young and aged wines.

Unsupervised PCA et discriminant analysis by volcano plot distinguished molecular ions across wine types and ageing times, highlighting CHO and CHON compounds in non-aged wines and increased CHO, CHONS, and CHOS compounds with ageing, especially sulfonated molecules. Polyphenols derivate like pyranoanthocyanins (CHO), emerged as key markers of wine evolution. Our metabolomics analysis highlighted the potential role of specific chemical markers in the impact of cork oxygen transfer rate (OTR) on wine ageing

This research provides us with new insight into the complex chemical changes in the non-volatile fraction (polyphenols, peptides) that occur during the ageing of red wine and highlights the potential impact of cork OTR on wine composition.

References

[1] Tao, Y., García, J.F., Sun, D.-W. (2014) Crit. Rev. Food Sci. Nut. 54, 817–835

[2] Echave, J., Barral, M., Fraga-Corral, M., Prieto, M.A., Simal-Gandara, J. (2021) Molecules 26, 713

[3] Garcia, L., Meudec, E., Sommerer, N., Garcia, F., Saucier, C. (2025) Food Chemistry, 464, 141517

Publication date: June 5, 2025

Type: Oral communication

Authors

Luca Garcia1,*, Emmanuelle Meudec1,2, Nicolas Sommerer1,2, François Garcia1 and Cédric Saucier1

1 SPO, Univ Montpellier, INRAE, Institut Agro, Montpellier, France
2 INRAE, PROBE Research Infrastructure, PFP Polyphenols Analytical Facility, Montpellier, France

Contact the author*

Keywords

polyphenols, ageing, metabolomics analysis cork OTR

Tags

IVES Conference Series | Macrowine | Macrowine 2025

Related articles…

Development of novel drought-tolerant grape cultivars from Monastrell: enhancing anthocyanin and flavonol content under elevated temperatures

The ongoing challenge of climate change is driving the need for novel oenological approaches aimed at finding effective environmental solutions.

Discrimination of South Tyrol’s wines by their cultivation practices: A detailed mass spectrometric approach

Climate change is having a profound effect on viticulture by altering the conditions under which vines grow, leading to increased water stress and earlier harvests, which in turn affect the quality and character of wines [1].

Investigating biotic and abiotic stress responses in grafted grapevine cultivars: A comparative study of Cabernet-Sauvignon and Cabernet Volos on M4 rootstock

When grapevine plants are transplanted into already established vineyards, they face multiple challenges, including adverse climate, heavy metal accumulation from agronomic practices [1], and pressure from highly adapted pathogens [2].

Identification of novel aromatic precursors in winemaking grapes using an optimized fractionation and UHPLC-MS analysis

Winemaking grapes contain a diverse array of non-volatile precursors that become noticeable only after hydrolysis reactions or molecular rearrangements, during which aroma compounds are generated and released [1]. Among these, glycosidic precursors are the most abundant and play a key role in the development of wine aroma [2].

Predicting oxygen consumption rate by tannins through sweep linear voltammetry and machine learning models

Nowadays, it is well known that oxygen significantly impacts wine quality. The amount of oxygen wine consumes during the winemaking process depends on several factors, such as storage conditions, the number of rackings, the materials used for aging, and the type of closure chosen for bottling.