Macrowine 2021
IVES 9 IVES Conference Series 9 Effects of bottle closure type on sensory characteristics of Chasselas wines

Effects of bottle closure type on sensory characteristics of Chasselas wines

Abstract

Several winemaking operations, such as filtration, pumping, and racking, are known to potentially facilitate the incorporation of atmospheric O2 into the wine. Control of grape must oxidation is one key aspect in the management of white wine aroma expression, color stability and shelf-life extension. On the one hand, controlled must oxidation may help to remove highly reactive phenolic compounds, which otherwise could contribute to premature oxidation. And on the other hand, in certain cases of extreme protection of the must from O2 (e.g. pressing under inert atmosphere), it can help to preserve varietal aromas and natural must antioxidants. Although must handling is done at the very beginning of the winemaking process, exposure of the must to O2 at this early stage is profoundly connected with other steps at a much later stage of the winemaking process, this is particularly true for post-bottling O2 exposure and therefore bottle closure selection. Post-bottling wine ageing is a slow and complex process, in which the bottle closures play a fundamental role, due to their O2 permeability. During this period, sensory characteristics of the wine are likely to change as a result of the exposure to O2. For these reasons, increasing numbers of industry professionals agreed that consistent O2 transmission is important and that chosen bottle closures should be matched with the wine type. The aim of this work was to determine the impact of dissolved oxygen and bottle closure oxygen transfer rates on the evolution of wines made from Chasselas grapes with different levels of O2 protection (protected and surexposed). The resulting wines were bottled with different amounts of dissolved O2 (DO) and sealed with three different corks (two co-extruded and one agglomerated type) and one screwcap. O2 measurements were taken after bottling on a weekly bases during the first month of storage, and after 1, 3, 6, 12, 18 and 22 months after bottling. The evolution of total O2 transfer through identical closures into empty bottles, previously purged with nitrogen was also investigated. As already described, FSO2 decreased during bottle storage, with a rapid decline in the first 3 months followed by a slower decline after 6 months of storage. The extent of FSO2 decline was essentially affected by DO at bottling and by must management. A panel of 20 judges was trained to carry out a sensory evaluation of the wines, by Flash Profile and Napping, 6, 12, 18 and 22 months after bottling. Beyond the period of 12 months, oxidative and reductive profiles could be observed mainly related to the type of closure and to must management. At 22 months, discriminatory tests allowed us to distinguish the impact of each closures. These preliminary results are expected to increase our understanding for the optimum balance of pre-fermentative/post-bottling O2 exposure of Chasselas wines, and help guide winemakers in their choice for the perfectly adapted bottle closures.

Publication date: May 17, 2024

Issue: Macrowine 2016

Type: Poster

Authors

Benoit Bach*, Jean Baptiste Dieval, Julien Ducruet, Olivier Paviot, Pascale Deneulin, Patrik Schönenberger, Pierrick Rebenaque, Stephane Vidal

*HES-SO

Contact the author

Tags

IVES Conference Series | Macrowine | Macrowine 2016

Citation

Related articles…

Correlations between N,S,O-heterocycle levels and age of Champagne base wines

Champagne regulation allows winegrowers to stock small amounts of still wines in order to compensate vintages’ quality shifts mainly due to climate variations. According to their technical requirements and house style some Champagne producers (commonly named “Champagne houses”) use these stored wines in the blend in order to introduce an element of complexity. These wines possess the particularity of being aged on fine lees in thermo-regulated stainless steel tanks. The Champagne house of Veuve Clicquot Ponsardin has several wines stored this way.

Effect of mixed Torulaspora delbrueckii-Saccharomyces cerevisiae culture on rose quality wine

Alcoholic fermentation using no Saccharomyces wine is an effective means of modulating wine aroma. This study investigated the impact of coinoculating Torulaspora delbruecki with two Saccharomyces cerevisiae commercial yeast (QA23, Lallemand; Red Fruit, Sepsa-Enartis) on enological quality parameters, volatile composition and sensory analysis. The following assays were performed on Tempranillo variety: Saccharomyces QA23 (CTQA), Saccharomyces Red Fruit (CTRF), coinoculated T. delbrueckii + S.cerevisiae QA23 (CIQA) and coinoculated T. delbrueckii + S.cerevisiae (CIRF).

Supramolecular approaches to the study of the astringency elicited by wine phenolic compounds

The objective of this study is to review the scientific evidences and to advance into the knowledge of the molecular mechanisms of astringency. Astringency has been described as the drying, roughing and puckering sensation perceived when some food and beverages are tasted (1). The main, but possibly not the only, mechanism for the astringency is the precipitation of salivary proteins (2,3). Between phenolic compounds found in red wines, flavan-3-ols are the group usually related to the development of this sensation. Other compounds, phenolic or not, like anthocyanins, polysaccharides and mannoproteins could act modifying or modulating astringency perception by hindering the interaction between flavanols and salivary proteins either because of their interaction with the flavanols or because of their interaction with the salivary proteins.

Grape byproducts as source of resveratrol oligomers for the development of antifungal extracts

Grape canes are a non-recycled byproduct of wine industry (1-5 tons per hectare per year) containing valuable phytochemicals of medicine and agronomical interest. Resveratrol and wine polyphenols are known to exert a plethora of health-promoting effects including antioxidant capacity, cardioprotection, anticancer activity, anti-inflammatory effects, and estrogenic/antiestrogenic properties (Guerrero et al. 2009). Additionally, resveratrol is a major phytoalexin produced by plants in response to various stresses and promotes disease resistance (Chang et al. 2011). Our project aims to develop polyphenol-rich grape cane extracts to fight phytopathogenic or clinically relevant fungi. We initiate the project with the development of analytical methods to analyze resveratrol mono- and oligomers (dimers, trimers and tetramers) from grape canes and we evaluate their potential activity against clinically relevant opportunistic fungal pathogens (Houillé et al. 2014).

Update knowledge about the presence of condensed tannins in grapes and their contributions to astringency perception

Condensed tannin is a principle group of polyphenol compounds derived from grape, greatly contributing to the bioactivity and the sensory perception of wine. Condensed tannins present as a heterogeneous mixture in nature involving various degrees of both polymerization and galloylation. Even though multiple attempts focusing on fractionation of grape condensed tannins by solid-phase have been conducted over the past decades, few individual tannins have been purified and identified. Hence, our knowledge on grape and wine condensed tannin moleculars has to be limited at the several known monomeric, dimeric and trimeric proanthocyanidins