Macrowine 2021
IVES 9 IVES Conference Series 9 Impact of heating must before fermentation on Chardonnay wines

Impact of heating must before fermentation on Chardonnay wines

Abstract

Prefermentation steps of white winemaking are very important for controlling the stability and the sensory attributes of wines. Usually musts are clarified by cold settling to prevent the start of the fermentation, before racking big lees and thus limiting the appearance of vegetable or reduction off flavour while favouring an aromatic expression with low turbidity. Besides, to reach the protein stability, some white wines further require a bentonite fining, sometimes associated with negative effects on the sensory quality. This study aims to know the impact of musts heating after pressing on a Chardonnay wine in northern conditions by comparison with a classic cold racking of the must. This technique appeared a few years ago to treat spoiled grape harvest or sub-maturity ones. After pressing and SO2 addition, a Chardonnay must was separated in two glass containers: one stored at 6°C during 12 hours and the other one heated at 65°C during 12 hours. A racking of the clear juice was then realized before temperature adjustment to 18°C for starting the alcoholic fermentation. All the other wine making stages, ageing and bottling were similar for both conditions. Without impact on the alcoholic fermentation, must heating gave a more expressive and aromatic wine with citrus fruits notes. The latter appeared early in the wine making process and remained after bottling, suggesting a likely higher concentration of volatile thiols. Two months after the bottling, the wine from the heated must was considered significantly fruitier, more persistent and was more appreciated in quantified descriptive analysis by a wine professionals panel. Must heating also led to chemical changes in the wine. Untargeted analysis by 3D fluorescence showed phenolic and protein component evolution for the heated must modality. Acid phenols and derivatives analysis showed that they were present in lower concentration in the heated must modality, contrary to caftarique or coutaric acids. Oxidation and esterification reactions with tartaric acid could have been favoured. Steric exclusion chromatography allowed to confirm hypotheses for the protein fraction. At the end of alcoholic fermentation, the high molecular weight fraction (> 200 kDa) seemed to decrease in the heated must modality. At the end of malolactic fermentation, fractions between 20 and 30 kDa, potientially associated with heat instable proteins, were also reduced in the heated must modality. A heat test realized after bottling confirmed that the heated must modality was stable, but not the control. This trial confirms the interest for this technique especially for cellars, which already have must heating equipments for red grapes (thermo process). This technique seems to favour the expression of fruity white wines. In a context of reduction of oenological waste production, a further advantage is that bentonite treatment seems to be no longer required.

Publication date: May 17, 2024

Issue: Macrowine 2016

Type: Poster

Authors

Bertrand Chatelet*, Christian Coelho, Laurence Noret, Maria Nikolantonaki, Régis Gougeon, Valérie Lempereur

*IFV

Contact the author

Tags

IVES Conference Series | Macrowine | Macrowine 2016

Citation

Related articles…

Microbial life in the grapevine: what can we expect from the leaf microbiome?

The above-ground parts of plants, which constitute the phyllosphere, have long been considered devoid of bacteria and fungi, at least in their internal tissues and microbial presence there was long considered a sign of disease. However, recent studies have shown that plants harbour complex bacterial communities, the so-called “microbiome”[1]. We are only beginning to unravel the origin of these bacterial plant inhabitants, their community structure and their roles, which in analogy to the gut microbiome, are likely to be of essential nature. Among their multifaceted metabolic possibilities, bacteria have been recently demonstrated to emit a wide range of volatile organic compounds (VOCs), which can greatly impact the growth and development of both the plant and its disease-causing agents.

Effect of concentration and competition between different fungicide residues on the adsorption efficiency of activated vegetal fibres for treatment of wine

Vineyards are strongly exposed to fungal diseases, attacks from insects and competition with weeds. Most treatments used on grape vines contain synthetic active substances, which may be transferred to the wine. Such pesticides have a negative image because many active substances are potential health hazards. A specific oenological treatment allowing the reduction of pesticide residues in wine based on activated vegetable fibres (AVF) is under examination by the International Organisation for Vine and Wine. This technique works efficiently and alters the wine only little (Lempereur et al. 2014).

Interactions of wine polyphenols with dead or living Saccharomyces cerevisiae Yeast Cells and Cell Walls: polyphenol location by microscopy

Tannin, anthocyanins and their reaction products play a major role in the quality of red wines. They contribute to their sensory characteristics, particularly colour and astringency. Grape tannins and anthocyanins are extracted during red wine fermentation. However, their concentration and composition change over time, due to their strong chemical reactivity1. It is also well known that yeasts influence the wine phenolic content, either through the release of metabolites involved in the formation of derived pigments1, or through polyphenol adsorption2,3.

The impact of branched chain and aromatic amino acids on fermentation kinetics and aroma biosynthesis by wine yeast Saccharomyces cerevisiae

One of the major determinants of wine quality is the aroma. Wine aroma is the human perception of the matrix of grape and yeast derived volatiles and their interaction that contribute to flavour wine. Most common are higher alcohols, ester and aldehydes. In previous studies the formation of characteristic volatile compounds have been linked to the metabolism of branched-chain and aromatic amino acids
(BCAAs) in synthetic grape must. Here we report on an investigation to assess the impact of the initial amino acid concentration on the production of aroma compounds by the industrial yeast VIN13 grown in both synthetic and real grape musts.

Effects of bottle closure type on sensory characteristics of Chasselas wines

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.