terclim by ICS banner
IVES 9 IVES Conference Series 9 TARTARIC STABILIZATION MAY AFFECT THE COLOR AND POLYPHENOLIC COMPOSITION OF TANNAT RED WINES FROM URUGUAY

TARTARIC STABILIZATION MAY AFFECT THE COLOR AND POLYPHENOLIC COMPOSITION OF TANNAT RED WINES FROM URUGUAY

Abstract

Tartrate precipitation affects the properties of wines, due to the formation of crystals that cause turbidity, even after being bottled. The forced tartaric stabilization is carried out frequently for young wines, through various physicochemical procedures. The traditional treatment for tartaric stabilization is refrigeration, but it can have a negative effect on wine’s sensory properties, and particularly on the color of red wines. The aim of this study was to evaluate the effect of different tartaric stabilization options on the color and phenolic composition of Tannat red wines from Uruguay. Cold treatment (C: 14 days at 4 ° C), mannoproteins (M: 100 mL / HL), arabic gum (AG: 200 g / HL), carboxymethylcellulose (CMC: 10 g / HL) and carboxymethylcellulose + arabic gum (AG CMC + 10 g / HL + 200 g / HL) were tested. The chromatic properties, basic composition, polyphenolic indexes, and anthocyanins and derived-anthocyanin pigments contents were analyzed. The initial impact of the cold treatment was significant, but differences with the other wines were attenuated over time. At 15 days of the start of the essay, C wine had significantly lower color intensity and was much brighter and less red than control wine. C had too the lowest anthocyanin and proanthocyanidin contents. Anthocyanin profile of this wine shows an increase in the proportion of non-acylated glucosides and malvidin, and a decrease in the percentages of delphinidin, cyanidin and coumaryl-glucosides. Anyway, the typical anthocyanin profile of the variety was slightly modified. All wines showed low differences in color and polyphenolic composition at five months from stabilization. However, the contents of free anthocyanins were decreased by all stabilization treatments in relation to the control wines. CMC+GA wines had the highest color intensity and proanthocyanidin levels while M and CMC wines had the highest catechin contents. At this time, it was verified that the contents of free anthocyanins were diminished by all treatments in relation to the control wine. At 14 months, CMC+GA wines had the highest colour intensity, and the lowest luminosity (L*). Colour intensities of C and CMC wines had not differences respect to those of control wines. However, all wines showed precipitation of tartaric salts at 5 and at 14 months from stabilization. Therefore, the tested options (products and doses) do not stabilize red wines adequately.

 

1. Filipe-Ribeiro et al. Food Chemistry 360, 129996 (2021). 
2. Martínez-Pérez et al. Foods 9, 1275 (2020).
3. Rodrígues et al. Food Chemistry 131, 907–914 (2012).
4. Low et al. International Journal of Food Science and Technology 43, 1202–1216 (2008).
5. Moutounet et al. www.infowine.com 6/2 (2010).

DOI:

Publication date: February 9, 2024

Issue: OENO Macrowine 2023

Type: Poster

Authors

Gustavo González-Neves¹, Guzmán Favre¹, Diego Piccardo¹, María Pérez Serratosa²

1. Facultad de Agronomía, Universidad de la República. Montevideo. Uruguay.
2. Universidad de Córdoba. Córdoba. España.

Contact the author*

Keywords

anthocyanin, color intensity, tannins, Tannat

Tags

IVES Conference Series | oeno macrowine 2023 | oeno-macrowine

Citation

Related articles…

EFFECTS OF LEAF REMOVAL AT DIFFERENT BUNCHES PHENOLOGICAL STAGES ON FREE AND GLYCOCONJUGATE AROMAS OF SKINS AND PULPS OF TWO ITALIAN RED GRAPES

Canopy-management practices are applied in viticulture to improve berries composition and quality, having a great impact on primary and secondary grape metabolism. Among these techniques, cluster zone leaf removal (defoliation) is widely used to manage air circulation, temperature and light radiation of grape bunches and close environment. Since volatiles are quantitatively and qualitatively influenced by the degree of fruit ripeness, the level of solar exposure, and the thermal environment in which grapes ripen, leaf removal has been shown to affect volatile composition of grape berries [1].

NEW INSIGHTS INTO THE EFFECT OF TORULASPORA DELBRUECKII/SACCHAROMYCES CEREVISIAE INOCULATION STRATEGY ON MALOLACTIC FERMENTATION PERFORMANCE

Winemaking is influenced by micro-organisms, which are largely responsible for the quality of the product. In this context, Non-Saccharomyces and Saccharomyces species are of great importance not only because it influences the development of alcoholic fermentation (AF) but also on the achievement of malolactic fermentation (MLF). Among these yeasts, Torulaspora delbrueckii allows in sequential inoculation with strains of S. cerevisiae shorter MLF realizations [5] . Little information is available on the temporal effect of the presence of T. delbrueckii on (i) the evolution of AF and (ii) the MLF performance.

REMEDIATION OF SMOKE TAINTED WINE USING MOLECULARLY IMPRINTED POLYMERS

In recent years, vineyards in Australia, the US, Canada, Chile, South Africa and Europe have been exposed to smoke from wildfires. Wines made from smoke-affected grapes often exhibit unpleasant smoky, ashy characters, attributed to the presence of smoke-derived volatile compounds, including volatile phenols (which occur in free and glycosylated forms). Various strategies for remediation of smoke tainted wine have been evaluated. The most effective strategies involve the removal of smoke taint compounds via the addition of adsorbent materials such as activated carbon, which can either be added directly or used in combination with nanofiltration. However, these treatments often simultaneously remove wine constituents responsible for desirable aroma, flavour and colour attributes.

DISCRIMINATION OF BOTRYTIS CINEREA INFECTED GRAPES USING UNTARGE-TED METABOLOMIC ANALYSIS WITH DIRECT ELECTROSPRAY IONISATION MASS SPECTROMETRY

Infection of grapes (Vitis vinifera) by Botrytis cinerea (grey mould) is a frequent occurrence in vineyards and during prolonged wet and humid conditions can lead to significant detrimental impact on yield and overall quality. Growth of B. cinerea causes oxidisation of phenolic compounds resulting in a loss of colour and formation of a suite of off-flavours and odours in wine made from excessively infected fruit. Apart from wine grapes, developing post-harvest B. cinerea infection in high-value horticultural products during storage, shipment and marketing may cause significant loss in fresh fruits, vegetables and other crops. A rapid and sensitive assessment method to detect, screen and quantify fungal infection would greatly assist viticultural growers and winemakers in determining fruit quality.

CLIMATE CHANGE EFFECT ON POLYPHENOLS OF GRIGNOLINO GRAPES (VITIS VINIFERA L.) IN HILLY ENVIRONMENT

Current changes of ecoclimatic indicators may cause significant variation in grapevine phenology and grape ripening. Climate change modifies several abiotic factors (e.g. temperature, sunlight radiation, water availability) during the grapevine growth cycle, having a direct impact on the phenological stages of the grapevine, modulating the metabolic profile of berries and activating the synthesis and accumulation of diverse compounds in the skin of berries, with consequences on the composition of the grapes.
The influence exerted by different meteorological conditions, during three consecutive years (2020-2022) on secondary metabolites such as the polyphenolic profile of Grignolino grapes was investigated. The samples were collected from three vineyards characterized by different microclimatic conditions mainly related to the vineyard aspect and to a different age of the plants.