IVAS 2022 banner
IVES 9 IVES Conference Series 9 IVAS 9 IVAS 2022 9 Depletion Of Vine-Shoots Phenolic Composicion After Being Used As An Enological Tool For Wine Differentiation

Depletion Of Vine-Shoots Phenolic Composicion After Being Used As An Enological Tool For Wine Differentiation

Abstract

Pruning vine-shoots are a viticulture waste that have been traditionally poorly exploited in relation to its chemical minority composition related to phenolic and volatile compounds. In this line, toasted vine-shoots supposes a proposal of enological tool to use to modulate the chemical and sensorial profile of wines. From a phenolic point of view, when vine-shoots are used during winemaking mainly influence to increase the flavanols and stilbenes content, mostly trans-resveratrol, as also an increasing in the sweet tannins and decreasing the green character and total anthocyanins, changing the violet for garnet colour.
Along with the already proven release of compounds from the vine-shoots to wines elaborates with them, the transfer of some of them that are present in wines to vine-shoots must be considered. For this, the aim of this work was to evaluate the depletion in terms of transfer of phenolic compounds from the wine to vine-shoots that were used during vinification. For which, vine-shoots were analysed before and after having been in contact with the wine. To compare the effect on the type of wine, two wines from Tempranillo and Cabernet Sauvignon were considered, to which toasted vine-shoots of their corresponding varieties were added after malolactic fermentation in a dose of 24 g/L. The analysis in terms of phenolic composition was development by HPLC-DAD.

The results revealed that different patterns were observed for families. As expected, there was a clear transfer of anthocyanins from the wine to vine-shoots, ranging between 3.3 and 3.5 g/Kg for Tempranillo and Cabernet-Sauvignon, which resulted in a loss of 25 to 27% in wines from the respective varieties. The same behaviour was observed for flavonols group, whose content was among 0.29 and 0.25 g/Kg for Tempranillo and Cabernet-Sauvignon vine-shoots, being its decrease in wines between 31 to 25%, respectively. In contrast, flavanols, phenolic acids and stilbenes showed an average increase of 14%, 8% and 57%, showing trans-resveratrol the greatest increase.
These results show the different transfer of phenolic compounds from the wine to vine-shoos. This would suppose that, after being used during winemaking, vine-shoos could be considered for a second use, given their remaining potential. 

Acknowledgments: This study was supported by USARVID019 Project (Ref.: IDI-20190844), financed by Pago de la Jaraba winery (Albacete, Spain) through the FEDER and CDTI entities.

DOI:

Publication date: June 24, 2022

Issue: IVAS 2022

Type: Poster

Authors

Sánchez-Gómez Rosario1, Cebrián-Tarancón Cristina1, Fernández-Roldán Francisco1, Alonso Gonzalo L.1 and Salinas M. Rosario1

1Cátedra de Química Agrícola, E.T.S.I. Agrónomos y Montes, Universidad de Castilla-La Mancha

Contact the author

Keywords

depletion, loss level, phenolic compounds, vine-shoots enological tool

Tags

IVAS 2022 | IVES Conference Series

Citation

Related articles…

Architecture, microclimate, vine regulation, grape berry and wine quality: how to choose the training system according to the wine type ?

This synthetic presentation deals with : • A description of the variability and the main models of grapevine canopy architecture in the world. • A precision on the model « potential exposed leaf area SFEp », which estimates the potential of net carbon balance of the plant, and shows a regulating effect of high SFEp levels on production decrease.
Read More

Understanding the impact of climate change on anthocyanin concentrations in Napa Valley Cabernet Sauvignon

Climate change is having a significant impact on the wine industry through more regular drought conditions, fires, and heat events, leading to crop loss. Furthermore, these events can reduce overall quality of the fruit, even when crop yields are not impacted. Anthocyanins are considered one of the most important classes of compounds for red wine production and are known to be sensitive to vine water status and heat events.

Read More

WHITE WINES OXIDATIVE STABILITY: A 2-VINTAGE STUDY OF CHARDONNAY CHAMPAGNE BASE WINES AGED ON LEES IN BARRELS

Ultra-premium champagne wines are characterized by a long stay on laths. The goal of the winemaker is to use all possible oenological techniques to keep the aromatic freshness of the future products. To that purpose, some champagne base wines can be aged on lees in oak barrels. However, if it is now acknowledged that such ageing practices contribute to the oxidative stability of dry white wines, no study has been done on Chardonnay champagne base wines designed for a long ageing on laths [1].

Read More

Effects of water and nitrogen uptake, and soil temperature, on vine development, berry ripening and wine quality of Cabernet-Sauvignon, Cabernet franc and Merlot (Saint-Emilion, 1997)

Wine quality depends largely on berry ripening conditions in relation to soil and climat. The influence of the soil has been studied in Bordeaux since the early Seventies (SEGUIN, 1970; DUTEAU et al., 1981; VAN LEEUWEN, 1991; VAN LEEUWEN et SEGUIN, 1994) and, more recently, in the Val de Loire (MORLAT, 1989), the Alsace (LEBON, 1993) and the Costières de Nîmes regions (MARTIN, 1995).

Read More

Study of the vine performance and the wine composition of Tannat on the terroir of Colonia del Sacramento – Uruguay

Grape-growing terroirs were defined according to the method proposed by Falcetti and Asselin (1996) near of Colonia de Sacramento, a city of Uruguay situated on the left of the “Rio de la Plata”.

Read More