Macrowine 2021
IVES 9 IVES Conference Series 9 Effect of different foliar nitrogen applications on the must amino acids and glutathione composition in Cabernet Sauvignon vineyard

Effect of different foliar nitrogen applications on the must amino acids and glutathione composition in Cabernet Sauvignon vineyard

Abstract

Cabernet Sauvignon is one of the most important winegrape varieties in Chile. However, temperature raise and decreased rainfall due to climate change can lead to grape quality decrease in certain areas. Amino acids are essential as nitrogen source for yeast but also directly affect grape quality serving as precursors of certain volatile compounds that enhance the wine bouquet. Besides, glutathione is an important tripeptide acting as antioxidant, preventing the appearance of browning pigments in must and exerts a protective effect in volatile compounds. Thus, increasing amino acid and glutathione content on grapes plays a crucial role in winemaking. Nitrogen foliar fertilization can be a useful strategy to achieve this aim because of the quick and efficient assimilation of applied products by plants. Therefore, the effect of different foliar nitrogen applications on must amino acid and glutathione composition on a Cabernet Sauvignon vineyard was studied in order to increase the grape quality. Nitrogen treatments applied to the grapevines were urea (Ur), urea plus sulphur (Ur+S), arginine (Arg) and two commercial foliar fertilizers with amino acids on its composition (Basfoliar Algae (BA) and Nutrimyr Thiols (NT)). Two applications of 1 kg N/ha were sprayed first at the beginning of veraison and two weeks later. Must amino acid and glutathione were analyzed by HPLC-DAD. Oenological parameters for each sample were also determined. Commercial nitrogen sprays increased the amount of aspartic acid, glutamic acid, serine, glutamine, alanine and ornithine (NT), whereas BA increased the content of serine, glutamine, threonine, arginine, methionine and proline. Ur+S treatment had a better assimilation than Ur, increasing content of aspartic acid, glutamic acid, serine, glycine and methionine. Arg treatment did not increase amino acid content, however it increased the amount of easily extractable anthocyanins, total anthocyanins and total polyphenol index. Foliar nitrogen applications of Arg, NT and BA increased considerably the glutathione concentration, from 2.62 mg/L in control samples to 26.48, 41.51 and 27.6 mg/L in Arg, NT and BA musts, respectively. These findings have oenological and viticultural interest for improving grape quality by enhancing must amino acid composition in high proline accumulating varieties as Cabernet Sauvignon.

Publication date: May 17, 2024

Issue: Macrowine 2016

Type: Poster

Authors

Teresa Garde-Cerdan*, Ana Gonzalo-Diago, Ana Martínez-Gil, Gaston Gutiérrez-Gamboa, Yerko Moreno-Simunovic

*Instituto de Ciencias de la Vid y del Vino

Contact the author

Tags

IVES Conference Series | Macrowine | Macrowine 2016

Citation

Related articles…

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.

Extraction of polyphenols from grape marc by supercritical fluid extraction (SFE) and evaluation of their ‘bioavailability’ as dietary supplements

In the winemaking process, several compounds that remain in the grape skins and seeds after the fermentation stage are bioactive-compounds (substances with potential beneficial effects on health) that can be extracted in order to recovery valuable substances with a high commercial value for the cosmetic, food (nutraceuticals) and pharmaceutical industries. The skins contain significant amounts of bioactive substances such as tannins (16-27%) and other polyphenolic compounds (2-6.5%) in particular, catechins, anthocyanins, proanthocyanins, quercetin , ellagic acid and resveratrol.

Effects of a new vacuum evaporation method on chemical and sensory properties of must and wine

A new process for vacuum evaporation was developed where evaporation takes place near the inner surface of a vortex produced by a rotor submerged in the liquid. Contrary to the state of the art the Vortex rotor process does not need a vacuum vessel but the rotating liquid creates a geometrically stable low pressure void surrounded by a vortex stabilized by the equilibrium between centrifugal forces and the pressure difference. First tests with water and sugar solutions at concentrations similar to grape must were conducted to verify the theoretical predictions, test the performance under different conditions and study the effect of various process parameters (Rösti et al 2015).

Moscatel vine-shoot extracts as grapevine biostimulant to increase the varietal aroma of Airén wines

There is a growing interest in the exploitation of vine-shoots waste, since they are often left or burned. Sánchez-Gómez et al. [1] have shown that vines-shoots aqueous extracts have significant contents of bioactive compounds, among which several polyphenols and volatiles are highlighted. Recent studied had demonstrated that the chemical composition of vine-shoots is enhanced when vine-shoots are toasted
[2,3]. The application of vegetable products in the vineyards has led to significant changes towards a more “Sustainable Viticulture”. An innovative foliar application for Airén vine-shoot extracts have been carried out to the vineyard. It has been shown that they act as grape biostimulants, improving certain wine quality characteristics [4].

Elicitors used as a tool to increase stilbenes in grapes and wines

The economic importance of grapevine as a crop plant makes Vitis vinífera a good model system to study the improvement of the nutraceutical properties of food products (Vezulli et al. 2007). Stilbenes in general, and trans-resveratrol in particular, have been reported to be responsible for various beneficial effects. Resveratrol´s biological properties include antibacteria and antifungal effects, as well as cardioprotective, neuroprotective and anticâncer actions (Guerrero et al. 2010 ). Stilbenes can be induced by biotic and abiotic elicitors since they are phytoalexins (Bavaresco et al. 2001).