terclim by ICS banner
IVES 9 IVES Conference Series 9 RED WINE AGING THROUGH 1H-NMR METABOLOMICS

RED WINE AGING THROUGH 1H-NMR METABOLOMICS

Abstract

Premium red wines are often aged in oak barrel. This widespread winemaking process is used, among others, to provide roundness and complexity to the wine. The study of wine evolution during barrel aging is crucial to better ensure control of wine quality.

¹H-NMR has already been proved to be an efficient tool to monitor winemaking process [1]. Indeed, it is a non-destructive technique, it requires a small amount of sample and a short time of analysis, yet it provides clues about several chemical families. The aim of the present study is to investigate the evolution of wine during aging in oak barrels with NMR-based metabolomics.

Red wines, produced in an estate of Bordeaux region, were kept in oak barrels from three different manufacturers. They were firstly sampled after one month of aging. They were then resampled after twelve months of storage in oak barrels within the estate cellar. The evolution of wine constituents during aging was measured by ¹H-NMR-based metabolomics. NMR spectra were submitted to targeted and untargeted approaches.

Data were then statistically processed through multivariate statistical analysis such as principal component analysis (PCA), and orthogonal projections to latent structures discriminant analysis (OPLS-DA). It was used to better watch the distribution of metabolic variance, and to sharpen the separation between observations groups. The results of supervised models were validated using cross permutation tests and ANOVA. Statistical significances were then assessed for the potential discriminant compounds thanks to analysis of variance (ANOVA) or t-test. Based on this analysis, wine maturation effect was monitored, and discriminant metabolites were identified.

Regarding aging effect, wines analyzed after one month of aging exhibit higher contents of amino acids, catechin and epicatechin, acetoin and choline. On another side, wines analyzed after twelve months of aging present higher contents of acetic acid, ethyl lactate, arabinose, and glucose.

As it concerns barrel origins, samples showed higher heterogeneity after one month than after twelve months. However, significant differences were observed between wines depending on the barrel manufacturers.

 

1. Le Mao, I., Da Costa, G., & Richard, T. (2023). 1 H-NMR metabolomics for wine screening and analysis. OENO One, 57(1), 15-31. https://doi.org/10.20870/oeno-one.2023.57.1.7134 

DOI:

Publication date: February 9, 2024

Issue: OENO Macrowine 2023

Type: Poster

Authors

Guillaume Leleu, Gregory Da Costa, Inès Le Mao, Tristan Richard

University of Bordeaux, Bordeaux INP, UMR OENO, UMR 1366, ISVV, F-33140 Villenave d’Ornon, France

Contact the author*

Keywords

wine aging, NMR metabolomics, oak barrels, fingerprinting

Tags

IVES Conference Series | oeno macrowine 2023 | oeno-macrowine

Citation

Related articles…

FOLIAR APPLICATION OF METHYL JASMONATE AND METHYL JASMONATE PLUSUREA: INFLUENCE ON PHENOLIC, AROMATIC AND NITROGEN COMPOSITION OFTEMPRANILLO WINES

Phenolic, volatile and nitrogen compounds are key to wine quality. On one hand, phenolic compounds are related to wine color, mouthfeel properties, ageing potential. and are associated with beneficial health properties. On the other hand, wine aroma is influenced by hundreds of volatile compounds. Fermentative aromas represent, quantitatively, the wine aroma, and among these volatile compounds, esters, higher alcohols and acids are mainly responsible for the fermentation bouquet.

DEVELOPMENT OF DISTILLATION SENSORS FOR SPIRIT BEVERAGES PRODUCTION MONITORING BASED ON IMPEDANCE SPECTROSCOPY MEASUREMENT AND PARTIAL LEAST SQUARES REGRESSION (PLS-R)

During spirit beverages production, the distillate is divided in three parts: the head, the heart, and the tail. Acetaldehyde and ethanol are two key markers which allow the correct separation of distillate. Being toxic, the elimination of the head part, which contains high concentration of acetaldehyde, is crucial to guarantee the consumer’s health and security. Plus, the tail should be separated from the heart based on ethanol concentration.

SENSORY DEFINITION OF A TECHNICAL UNAVOIDABLE TRANSFER OF AROMA COMPOUNDS VIA SEALING IN A BOTTLING LINE IN ORDER TO PREVENT PROSECUTION DUE TO FRAUDULENT AROMATIZATION OF A SUBSEQUENTLY FILLED WINE

In 2020, 12% of all bottled German wines were aromatized, which may increase further due to rising popularity of dealcoholized wines. As sealing polymers of a bottling line absorb aroma compounds and may release them into regular wines in the next filling¹, this unintentional carry-over bears the risk to violate the legal ban of any aromatization of regular wine. However, following EU legislation, German food control authorities accept a technical unavoidable transfer of aroma compounds, if this is of no sensory significance.

FLOW CYTOMETRY, A POWERFUL AND SUSTAINABLE METHOD WITH MULTIPLE APPLICATIONS IN ENOLOGY

Flow cytometry (FCM) is a powerful technique allowing the detection, characterization and quantification of microbial populations in different fields of application (medical environment, food industry, enology, etc.). Depending on the fluorescent markers and specific probes used, FCM provides information on the physiological state of the cell and allows the quantification of a microorganism of interest within a mixed population. For 15 years, the enological sector has shown growing interest in this technique, which is now used to determine the populations present (of interest or spoilage) and the physiological state of microorganisms at the different stages of winemaking.

CONTRIBUTION OF VOLATILE THIOLS TO THE AROMA OF RIESLING WINES FROM THREE REGIONS IN GERMANY AND FRANCE (RHEINGAU, MOSEL, AND ALSACE)

Riesling wines are appreciated for their diverse aromas, ranging from the fruity fresh characters in young vintages to the fragrant empyreumatic notes developed with aging. Wine tasters often refer to Riesling wines as prime examples showcasing terroir, with their typical aroma profiles reflecting the geographical provenance of the wine. However, the molecular basis of the distinctive aromas of these varietal wines from major Riesling producing regions in Europe have not been fully elucidated. In this study, new lights were shed on the chemical characterization and the sensory contribution of volatile thiols to Riesling wines from Rheingau, Mosel, and Alsace. First, Riesling wines (n = 46) from the three regions were collected and assessed for their aroma typicality by an expert panel.