Macrowine 2021
IVES 9 IVES Conference Series 9 Sensory and nephelometric analysis of tannin fractions obtained by ultrafiltration of red wines

Sensory and nephelometric analysis of tannin fractions obtained by ultrafiltration of red wines

Abstract

The assessment of red wine mouthfeel relies primarily on the sensory description of its tannic properties. This evaluation could be improved by gaining a better understanding of the physicochemical properties of these tannins. Hence, the objectives of the present study were threefold: (1) to gain an insight into the sensory properties of subpopulations of proanthocyanidic tannins of different molecular sizes obtained through several ultrafiltration steps, (2) to quantify the kinetics of haze formation of these proanthocyanidic tannins in a dynamic polyvinylpyrrolidone (PVP) precipitation test, (3) to determine whether a correlation exists between the sensory and the precipitation data. Two wines from different grape varieties, gamay and merlot from Switzerland, were ultrafiltered to provide four tannic fractions differing by the range of their polymerization degrees. Then, these fractions were added (individually or in combination) into their native wine matrix according to a specific experimental design. The reconstituted wines were then characterized by PVP precipitation tests using a dynamic nephelometer and by sensory assessment following two methods, Quantitative Descriptive Analysis, and Temporal Dominance of Sensations (TDS). For the sensory test, a panel of twenty trained judges generated a list of seven mouth-feel descriptors. Wines containing the fraction with the largest size tannins (range of highest polymerization degrees) were perceived as being more astringent and mouth-drying after spitting. Wines containing with the smallest size tannins added (range of lowest polymerization degrees) were perceived as more voluminous. With regards to the TDS, wines containing the largest tannins fraction were the most intense and mouth-drying, and the astringency and mouth-drying perceptions were the most persistent attributes. Wines containing the fraction with the smallest tannins were judged to be the most voluminous, bitter and sour. Finally, a positive correlation, RV=0.58, p=0.001, between the results of the precipitation test and the Quantitative Descriptive Analysis could be established.

Publication date: May 17, 2024

Issue: Macrowine 2016

Type: Poster

Authors

Pierrick Rebenaque*, André Rawyler, Marc-Olivier Boldi, Pascale Deneulin

*HES-SO

Contact the author

Tags

IVES Conference Series | Macrowine | Macrowine 2016

Citation

Related articles…

Correlations between sensory characteristics and colloidal content in dry white wines

Must clarification is an important step occurring just after grape extraction in the elaboration of white wine, consisting in a solid-liquid separation. Traditionally, low must turbidity, around 50-150 NTU, is generally reached in white winemaking in order to prevent reductive aromas and facilitating alcoholic fermentation. Alternatively, a higher turbidity (300 NTU or above) can be sought for reasons such as a better expression of grapes identity (terroir), or for getting a must matrix that could supposedly lead to wines having greater ageing potential.

WineMetrics: A new approach to unveil the “wine-like aroma” chemical feature

“The Human being has an excellent ability to detect and discriminate odors but typically has great difficulty in identifying specific odorants”(1). Furthermore, “from a cognitive point of view the mechanism used to judge wines is closer to pattern recognition than descriptive analysis.” Therefore, when one wants to reveal the volatile “wine-like feature” pattern recognition techniques are required. Sensomics is one of the most recent “omics”, i.e. a holistic perspective of a complex system, which deals with the description of substances originated from microorganism metabolism that are “active” to human senses (2). Depicting the relevant volatile fraction in wines has been an ongoing task in recent decades to which several research groups have allocated important resources. The most common strategy has been the “target approach” in order to identify the “key odorants” for a given wine varietal.

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.

Influence of methyl jasmonate foliar application to vineyard on grape volatile composition over three consecutive vintages

An alternative to improve grape quality is the application to the vineyard of elicitors. Although these compounds were first used to increase resistance of plants against pathogens, it has been found that they are also able to induce mechanisms involved in the synthesis of phenolic compounds and some amino acids. However, researches about the influence of elicitors on grape volatile composition are scarcely. Therefore, the aim of this work was to study the influence of methyl jasmonate (MeJ) foliar application on grape aroma composition over three consecutive vintages. MeJ was applied to Tempranillo grapevines at a concentration of 10 mM in 2013, 2014, and 2015 years. Control plants were sprayed with water.

New biological tools to control and secure malolactic fermentation in high pH wines

Originally, the role of the malolactic fermentation (MLF) was simply to improve the microbial stability of wine via biological deacidification. However, there is an accumulation of evidence to support the fact that lactic acid bacteria (LAB) also contribute positively to the taste and aroma of wine. Many different LAB enter into grape juice and wine from the surface of grape berries, cluster stems, vine leaves, soil and winery equipment. Due to the highly selective environment of juices and wine, only a few types of LAB are able to grow.