terclim by ICS banner
IVES 9 IVES Conference Series 9 Macrowine 9 Macrowine 2025 9 Analysis and composition of grapes, wines, wine spirits 9 Dimethyl sulfide transfer through wine closures during bottle aging: implications for wine aroma management

Dimethyl sulfide transfer through wine closures during bottle aging: implications for wine aroma management

Abstract

Dimethyl sulfide (DMS) is a volatile sulfur compound with a complex role in wine aroma, contributing both desirable and undesirable sensory characteristics depending on its concentration (1). While DMS is known to accumulate during bottle aging through the degradation of precursors such as S-methylmethionine (SMM) (2), this study provides the first demonstration that DMS can also be lost through wine closures via permeation mechanism. This phenomenon, previously unreported, highlights the critical role of closure permeability in shaping the aromatic profile of aged wines.

In practice, we used 3 different experimental designs:

  • Set 1: model wines spiked with DMS (n=3) and unspiked ones (n=3, control) were bottled and sealed with same micro-agglomerated closures. Bottles were then equipped with ®Tenax tubes to capture volatiles at the top of the bottles after vertically ageing at 35°C.
  • Set 2: model wines were spiked with synthetic SMM, bottled and sealed with 4 closures of varying oxygen transfer rates (OTR). Accelerated aging experiments were conducted at 35°C for 4 months and corresponding wines were analysed in terms of SMM and DMS at t4months.
  • Set 3: To validate findings, similar analyses were performed on Syrah wines aged 2 years in standard cellar conditions with closures of varying OTR. These wines were analysed at t0, t12 months and t24 months in terms of SMM and DMS.

The results obtained in the set 1 demonstrated the phenomenon of DMS permeation through closures, as DMS was detected only in ®Tenax tube placed on the top of the bottles containing the spiked solution. In the set 2, accelerated aging experiments revealed that up to 12% of DMS in model wine was lost through micro-agglomerated closures. Finally, in Syrah wines, DMS concentrations increased during bottle aging due to SMM degradation. However, wines sealed with higher-permeability closures showed reduced DMS levels compared to those with low-permeability closures, corroborating findings from model wine studies.

This study highlights the dual role of closures in managing oxygen ingress and volatile compound retention. Low-permeability closures can help preserve DMS in wines where it enhances aromatic complexity, while higher-permeability closures might mitigate reductive off-flavors in wines prone to sulfur compounds. These findings may account for the reductive notes empirically observed in red wines sealed with highly impermeable closures compared to those bottled with more permeable alternatives. The latter could be advantageous by facilitating the permeation of light volatile sulfur compounds, such as H2S, MeSH, or EtSH.

References

[1] Segurel, M. A., et al. (2004). Journal of Agricultural and Food Chemistry 52(23): 7084-7093.

[2] Loscos, N., et al. (2008). Analytica Chimica Acta 621(1): 24-29.

Publication date: June 4, 2025

Type: Flash talk

Authors

Rémi de La Burgade1, Lucas Suc1, Somaya Sachot1, Nicolas Galy2, Dimitri Tixador2, Christophe Loisel2, Nicolas Sommerer1 and Aurélie Roland1,*

1 SPO, INRAE, Univ Montpellier, Institut Agro, Place P. Viala, Montpellier, France
2 DIAM Bouchage, 3 Rue des Salines, 66400 Céret, France

Contact the author*

Keywords

permeation, closure, dimethylsulfide, aroma transfer

Tags

IVES Conference Series | Macrowine | Macrowine 2025

Related articles…

Aroma profile evaluation in whole grape juices

Table grapes (Vitis labrusca and hybrids) are widely cultivated in Brazil [1] due to the climate, their resistance to disease and the way they are consumed and commercialized, either in-natura or for processing, producing whole juices, jams and table wines.

Chemical composition of press and free-run wines from three vintages and Bordeaux grape varieties. A comprehensive analysis

Press wines play a crucial role in red winemaking, representing up to 15% of the final blend [1]. Optimizing their value is essential both economically and for maintaining wine identity, especially given evolving climatic and societal challenges. However, little recent research exists on their composition.

Screening of Italian red wines for quercetin precipitation risk index

Quercetin (Q), a phenolic compound released from grape skins during red wine maceration, has been identified as a source of instability in bottled wines, particularly Sangiovese, due to crystallisation. This phenomenon represents an economic challenge for producers and affects wine clarity and consumer perception.

What defines the aging signature of Chasselas wines?

Chasselas is a refined grape variety renowned for its subtlety and its remarkable ability to reflect terroir characteristics [1]. Typically consumed young, it is appreciated for its low acidity and delicate fruity and floral aromas.

Colloidal color stabilization in wine: A comparative study of Saccharomyces and non-Saccharomyces mannoproteins

Structure-function relationships between the polysaccharide part of S. cerevisiae Mannoprotein Pools (MPs) and their potential to interact with anthocyanins and Protein-Tannins aggregates was previously assessed [1,2].