IVAS 2022 banner
IVES 9 IVES Conference Series 9 IVAS 9 IVAS 2022 9 Impacts of fumaric acid addition at the bottling on Cabernet Sauvignon wine quality. Comparison with tartaric acid addition.

Impacts of fumaric acid addition at the bottling on Cabernet Sauvignon wine quality. Comparison with tartaric acid addition.

Abstract

Climate change and reduction of inputs are two major challenges for viticulture and oenology. With increasing temperature, wines become less acid and microbiologically less stable (1). Thus, their pHs have to be lowered to avoid higher doses of sulfur dioxide (SO2) for their stabilization, which is against input reduction. Chemical acidification through tartaric acid (TA) addition is one of the most common solutions in the OIV countries members. However, with its high acidifying power, its bacteriostatic properties (2) and its low cost, fumaric acid (FA) could be a good candidate for both chemical acidification and stabilization of low acid wines. Nowadays, the effects of FA addition on red wine quality during the aging are not documented. Thus, this study aims to evaluate the impact of FA addition over the years on the quality of a Cabernet Sauvignon red wine. Here, we present results after six months of wine storage at 15°C.
For this, a sulfite free wine from Cabernet Sauvignon grapes was divided in two batches. One batch was sulfited at 80mg/L (S) and the other one remained non-sulfited (NS). Both batches were treated with FA or TA at two different concentrations (1.25 g/L or 2.5g /L eq. TA). S and NS controls were not acidified. Classical oenological parameters (pH, titratable acidity), color parameters (color intensity, CIELAB), total phenolic compounds (IPT, Folin, total anthocyanins and total tannins), antioxidant capacities (DPPH, CUPRAC) were analyzed after bottling and six months later. FA-acidified wines were compared with controls and TA-acidified wines regarding all parameters. Sensory analyses were also performed on wines.

References

(1) Mira de Orduña, R. Climate Change Associated Effects on Grape and Wine Quality and Production. Food Research International 2010, 43 (7), 1844–1855. https://doi.org/10.1016/j.foodres.2010.05.001.
(2) Morata, A.; Bañuelos, M. A.; López, C.; Song, C.; Vejarano, R.; Loira, I.; Palomero, F.; Lepe, J. A. S. Use of Fumaric Acid to Control PH and Inhibit Malolactic Fermentation in Wines. Food Additives & Contaminants: Part A 2020, 37 (2), 228–238. https://doi.org/10.1080/19440049.2019.1684574.

DOI:

Publication date: June 23, 2022

Issue: IVAS 2022

Type: Poster

Authors

Payan Claire1,2, Gancel Anne-Laure1, Christmann Monika2 and Teissedre Pierre-Louis1

1Unité de recherche Œnologie, EA 4577, USC 1366 INRA, ISVV, Université de Bordeaux,
2Hochschule Geisenheim University

Contact the author

Keywords

Fumaric acid, tartaric acid, color, phenolic compounds, organoleptic quality

Tags

IVAS 2022 | IVES Conference Series

Citation

Related articles…

Aroma characterization of mold resistant base wines for sparkling wine produced in a warm-temperate area at two different altitudes

In a recent context where consumers pay an increasing attention to sustainability and eco-friendly aspects in the decision-making process, the use of the resistant varieties in the wine sector have returned to the attention. In this context, the use of mould-resistant grape varieties would be an opportunity for sparkling wine producers as it can reduced the pesticide utilization in grape management and hence production costs.
However, the use of the resistant varieties to produce the base wine may be strongly influenced due to its requirements for a particular balance between sugars and acidity to ensure the quality of the final product. In addition, the aromatic profile of base wine plays a crucial role in the perception of the quality of the sparkling wine.

Read More

Drought tolerance assessment and differentiation of grapevine cultivars using physiological metrics: insights from field studies

This study aimed to validate a protocol and compare metrics for evaluating drought tolerance in two Vitis vinifera grapevine cultivars under field conditions. Various metrics were calculated to represent the physiological responses of plants to progressive water deficit. Data were collected from Sauvignon Blanc and Chardonnay plants subjected to three irrigation levels during the 2022-2023 season, along with data from three previous seasons. Hydro-escape areas were used to assess the plant’s ability to reduce water potential with decreasing soil water availability.

Read More

Microclimatic differences in fruit zone of vineyards on different elevations of ‘nagy-eged hill’ in eger wine region, Hungary

The Bull’s Blood of Eger (‘Egri Bikavér’) is one of the most reputed red wines in Hungary and abroad, produced in the Northeastern part of the country.

Read More

Reduce sulfur dioxide addition using a natural polymer chitosan phytate

Most oxidation reactions in wine require iron as a catalyst. The iron content of wine has decreased greatly in recent decades due to the use of low or no release cellar materials; however, in some cases it is still necessary to adopt winemaking practices to remove excess iron from wine, prevent its oxidation, and be able to reduce the addition of sulfur dioxide and other antioxidants.

Read More

Sensory significance of aroma carry-over during bottling from aromatized wine-based beverages into regular wine

In 2020 one out of  eight wine bottles were filled with a flavoured wine-based beverage.

Read More