terclim by ICS banner
IVES 9 IVES Conference Series 9 PREVALENCE OF OAK-RELATED AROMA COMPOUNDS IN PREMIUM WINES

PREVALENCE OF OAK-RELATED AROMA COMPOUNDS IN PREMIUM WINES

Abstract

Barrel fermentation and barrel-ageing of wine are commonly utilised practices in premium wine production. The wine aroma compounds related to barrel contact are varied and can enhance a range of wine aromas and flavours, such as ‘struck flint’, ‘caramel’, ‘red berry’, ‘toasty’ and ‘nutty’, as well as conventional oaky characters such as ‘vanilla’, ‘spice’, ‘smoky’ and ‘coconut’. A survey of commercially produced premium Shiraz, Cabernet Sauvignon, Pinot Noir and Chardonnay wines was conducted, assessing the prevalence of compounds that have been proposed as barrel-ageing markers¹ including oak lactones, volatile phenols, furanones, aldehydes, thiazoles2,3, phenylmethanethiol⁴ and 2-furylmethanethiol.⁵

Accurate quantitative data is necessary to help understand the compounds which might influence these aromas but their analysis is often not a trivial undertaking. The furanones, especially furaneol, are difficult to measure accurately in wine as they are very polar. Thus, an improved stable isotope dilution assay was developed using automated liquid–liquid microextraction and multidimensional–gas chromatography–mass spectrometry. Also, the quantification of aldehydes was simplified using automated headspace solid-phase microextraction and gas chromatography–tandem mass spectrometry with invial derivatisation. Thiazoles were quantified utilising gas chromatography–tandem mass spectrome-try. Other targeted volatile compounds were quantified using previously published stable isotope dilution assay methods that are routinely used in-house. Wide concentration ranges were found for many of the targeted aroma compounds and this information will direct further detailed studies.

 

1. Jarauta, I.; Cacho, J.; Ferreira, V. Concurrent phenomena contributing to the formation of the aroma of wine during aging in oak wood:  an analytical study. J. Agric. Food Chem. 2005, 53 (10), 4166-4177.
2. Gros, J.; Lavigne, V.; Thibaud, F.; Gammacurta, M.; Moine, V.; Dubourdieu, D.; Darriet, P.; Marchal, A. Toward a molecular understanding of the typicality of Chardonnay wines: identification of powerful aromatic compounds reminiscent of hazelnut. 
J. Agric. Food Chem. 2017, 65 (5), 1058-1069.
3. Marchand, S.; de Revel, G.; Bertrand, A., Approaches to Wine Aroma:  Release of aroma compounds from reactions between cysteine and carbonyl compounds in wine. J. Agric. Food Chem. 2000, 48, (10), 4890-4895.
4. Piano, F.; Petrozziello, M.; Vaudano, E.; Bonello, F.; Ferreira, V.; Zapata, J.; Hernández-Orte, P. Aroma compounds and sensory characteristics of Arneis Terre Alfieri DOC wines: the concentration of polyfunctional thiols and their evolution in relation to different ageing conditions. Eur. Food Res. Technol. 2014, 239 (2), 267-277.
5. Blanchard, L.; Tominaga, T.; Dubourdieu, D. Formation of furfurylthiol exhibiting a strong coffee aroma during oak barrel fermentation from furfural released by toasted staves. J. Agric. Food Chem. 2001, 49 (10), 4833-4835. 

DOI:

Publication date: February 9, 2024

Issue: OENO Macrowine 2023

Type: Poster

Authors

Tracey SIEBERT¹, Flynn WATSON¹, Mark SOLOMON¹, Maddy JIANG¹, Tabea SÖNCKSEN1,2, Lisa PISANIELLO¹, Leigh FRANCIS¹, Marlize BEKKER¹

1.The Australian Wine Research Institute, Waite Precinct, Hartley Grove cnr Paratoo Road, Urrbrae 5064, Australia
2.Technical University of Braunschweig, Universitätsplatz 2, 38106, Braunschweig, Germany

Contact the author*

Keywords

oak barrel, wine, aroma compounds, quantitation

Tags

IVES Conference Series | oeno macrowine 2023 | oeno-macrowine

Citation

Related articles…

PHOTOCHEMICAL DEGRADATION OF TRYPTOPHAN IN MODEL WINE: IMPACT OF HEAVY METALS AND OXYGEN ON 2-AMINOACETOPHENONE FORMATION

The wine industry worldwide faces more and more challenges due to climate change, such as increased dryness in some areas, water stress, sunburn and early harvesting during hot summer temperatures¹. One of the resulting problems for the wine quality might be a higher prevalence of the untypical aging off-flavor (ATA)². A substance, which Rapp and Versini made responsible for ATA, is the 2-aminoace-tophenone (2-AAP)³. 2-AAP in wine causes a naphthalene, wet towels, wet wool, acacia flower or just a soapy note⁴.

IMPACT OF RHIZOPUS AND BOTRYTIS ON WINE FOAMING PROPERTIES

A lot of work has been done on the impact of Botrytis on the foam of sparkling wines. This work often concerns wines produced in cool regions, where Botrytis is the dominant fungal pathogen. However, in southern countries such as Spain, in particularly hot years such as 2022, the majority fungal pathogen is sometimes Rhizopus. Like Botrytis, Rhizopus is a fungus that produces an aspartic protease.

DETERMINATION OF FREE AMINO ACIDS, AMINO ACID POTENTIAL AND PROTEASE ACTIVITY IN THE LEES AND STILL WINES OF CHAMPAGNE

Prior to winemaking, organic or mineral nitrogen compound concentrations are usually measured in the vineyard and in grape musts. These indicators facilitate vine cultivation decisions, usually through yield or vigor. During vinification, yeast and bacteria metabolize nitrogen compounds in the musts in order to generate biomass. After fermentation, the microorganisms rerelease a part of this nitrogen as soluble compounds into the wines. Another part remains bound in the lees and can be lost during racking. The must’s natural nitrogen quantities, additional supplements during fermentation, and lees contact management enhance the release of nitrogen compounds to the wines. During ageing these nitrogen compounds – primarily the amino acids – are implicated in the generation of odorous compounds such as heterocycles(1).

ALCOHOLIC FERMENTATION DRIVES THE SELECTION OF OENOCOCCUS OENI STRAINS IN WINE

Oenococcus oeni is the predominant lactic acid bacteria species in wine and cider, where it performs the malolactic fermentation (MLF) (Lonvaud-Funel, 1999). The O. oeni strains analyzed to date form four major genetic lineages named phylogroups A, B, C and D (Lorentzen et al., 2019). Most of the strains isolated from wine, cider, or kombucha belong to phylogroups A, B+C, and D, respectively, although B and C strains were also detected in wine (Campbell-Sills et al., 2015; Coton et al., 2017; Lorentzen et al., 2019;

THE EFFECT OF PRE-FERMENTATIVE GLYPHOSATE ADDITION ON THE METABOLITE PROFILE OF WINE

The synthetic herbicide glyphosate has been used extensively in viticulture over many decades to combat weeds. Despite this, the possible influence of residual glyphosate on both the alcoholic fermentation of grape juice and the subsequent metabolite profile of wines has not been investigated. In this study, Pinot noir juice supplemented with different concentrations of glyphosate (0 µg L-1, 10 µg L-1 and 1000 µg L-1) was fermented with commercial Saccharomyces cerevisiae yeast strains. Using a combination of analytical methods, 80 metabolites were quantified in the resulting wines.