Macrowine 2021
IVES 9 IVES Conference Series 9 Oak wood seasoning: impact on oak wood chemical composition and sensory quality of wine

Oak wood seasoning: impact on oak wood chemical composition and sensory quality of wine

Abstract

Oak wood selection and maturation are essential steps in the course of barrel fabrication. Given the existence of many factors involved in the choice of raw material and in natural seasoning of oak wood, it is very difficult to determine the real impact of seasoning and selection factors on oak wood composition. A sampling was done to study the evolution of oak wood chemical composition during four seasoning steps: non matured, 12 months, 18 months and 24 months. For this sampling, three selection factors were taken into account: age, grain type and the Polyphenolic Index measured by Oakscan®. Besides extractables (~10%), three polymers constitute the main part of oak wood: cellulose, hemicelluloses and lignins. These compounds may undergo hydrolysis or chemical reactions during cooperage processes, especially during heat treatment, which release some aromatic compounds or aromatic precursors having a genuine sensorial interest on wine aged in barrel or in contact with oak products. To date, no studies revealed a link between the proportions of these compounds in oak wood and the chemical and sensorial impact in wines ageing with oak wood. Our study showed that the proportions of these compounds evolved significantly during oak wood seasoning and the results highlighted the impact of selection factors. Respectively, extractables, lignins, hemicelluloses and cellulose proportions were mostly for non matured, 12 months, 18 months and 24 seasoning months. The development of a test plan with a Merlot wine from a second oak wood sampling, using similar modalities as the previous test plan allowed the evaluation of oak wood seasoning impact on the chemical composition of a wine ageing with oak wood pieces. Results showed a lowering of 8% in ellagitannins content of wine between 12 and 24 months modalities. An impact on volatile composition in wine has also been established: furanic aldehydes were positively correlated with a long maturation time (18 and 24 months), whereas phenolic aldehydes were positively correlated with a shorter seasoning time (12 months). Our results highlighted also the impact of selection factors on wine chemical composition. Sensorial analysis on this Merlot wine led to significant differences detected by the panel between 12 and 24 seasoning modalities, but not between 18 and 24 months modalities with triangular tests. Sensorial profiles were also established to attempt to associate the differences detected to one or more descriptors. For this test, results highlighted the difficulty for the panel to make a significant difference between 12 and 24 months modalities. However they contribute to explain the differences demonstrated with triangular tests for some seasoning modalities: toasted, bitterness, astringency, roundness and sweet perception.

Publication date: May 17, 2024

Issue: Macrowine 2016

Type: Poster

Authors

Alexandra Le Floch*, Michael Jourdes, Nicolas Mourey, Pierre-Louis Teissedre, Thomas Giordanengo

*ISVV

Contact the author

Tags

IVES Conference Series | Macrowine | Macrowine 2016

Citation

Related articles…

Effect of the winemaking technology on the phenolic compounds, foam parameters in sparklig wines

Contribution Sparkling wines elaborated following the traditional method undergo a second fermentation in closed bottles of base wines, followed by aging of wines with lees for at least 9 months. Most of the sparkling wines elaborated are white and rosé ones, although the production of red ones is highly increasing. One of the initial problems in red sparkling wine processing is to obtain suitable base wines that should have moderate alcohol content and astringency and adequate color intensity; which is difficult to obtain when grapes must be harvested at low phenolic and industrial maturity stage. The low phenolic maturity degree in the red grapes makes essential to choose an adequate winemaking methodology to obtain the base wines because the extracted polyphenols will vary according the winemaking technique: carbonic maceration or destemmed-crushed grapes.

How pressing techniques affect must composition and wine quality of Pinot blanc

This study investigates how the sensory profile of Pinot Blanc is affected from different maceration and pressing techniques. Grapes were sourced from four vineyards in the village Tramin in South Tyrol. For the experiment 200 kg of grapes from each vineyard site were hand picked the day before harvest for the commercial winery took place. Grapes were stored over night at 4°C, homogenized and processed in the experimental winery at Laimburg research centre the day after harvest. Four different pressing techniques were applied in duplicates of 100kg each.

Development of a new sustainable filtering media for wine and beer clarification and sterilisation

Different separation techniques are frequently used during vinification process. Nowadays, clarification and microbiological stabilization of wine or beer can be done using precoat filters or crossflow filters to remove yeast and bacteria. Kieselguhr powders are the most used filter aids for precoat filtration. Their crystalline structure and their pulverulent nature induce ecotoxicological risks when used. Moreover, regeneration and reuse of these filter aids is not efficient and the filtration waste requires cost effective retreatment.

Novel analytical technologies for wine fingerprinting in and beyond the laboratory

For characterization, sensory designing and authentication rapid analytical technologies have become available. Some, like Proton Transfer Reaction Mass Spectrometry allow a rapid spectrum of the volatile compounds of wines. Combined with chemometrics wines can be characterized. The same approach can be used to calculate the results of virtual mixtures and allow formulation of constant quality blends. Other new techniques and portable devices based on spectroscopy allow measurements on production sites and in grocery stores, even for the smart consumer. We will present some examples of the application of these techniques for authentication of wines, both in the laboratory and on site.

Characterizing the effects of nitrogen on grapevines with different scion/rootstock combinations: agronomic, metabolomic and transcriptomic approaches

Most vineyards are grafted and include a variety (Vitis vinifera) grafted over a wild Vitis rootstock (hybrids of V. berlandieri, riparia and rupestris). Grape berry quality at harvest depends on a subtle balance between acidity and the concentrations of sugars, polyphenols and precursors of aroma compounds. The mechanisms controlling the balance of sugars/acids/polyphenols are influenced by the abiotic environment, in particular nitrogen supply, and interact with the genotypes of both the scion variety and the rootstock. Previous work suggests that some of the effects of water stress are in fact linked to a nitrogen deficiency driven indirectly by the reduction of water absorption.