terclim by ICS banner
IVES 9 IVES Conference Series 9 International Congress on Grapevine and Wine Sciences 9 2ICGWS-2023 9 Decoupling the effects of water and heat stress on Sauvignon blanc berries

Decoupling the effects of water and heat stress on Sauvignon blanc berries

Abstract

Climate changes have important consequences in viticulture, heat waves accompanied by periods of drought are encountered more and more frequently. This study aims to evaluate the single and combined effect of water deficit and high temperatures on the thiol precursors biosynthesis in Sauvignon blanc grapes. For this purpose, a protocol has been developed for the cultivation of berries on a solid substrate. The berries, collected at three different times starting from veraison and grown in vitro, were subjected to 4 different treatments: control (C), water stress (WS), heat stress (HS), combined water and heat stress (WSHS). Water stress was simulated by adding abscisic acid to the culture medium, while different temperatures, respectively 25°C and 35°C, were managed with two illuminated climatic chambers. The expression of the main genes involved in the biosynthesis of thiol precursors, together with stress marker genes, was evaluated on the berries by qRT-PCR. Moreover, thiol precursors were analysed using an UHPLC/MS method. Results highlighted variable trends in the genes encoding GSTs (glutathione-S-transferase) and GGTs (γ-glutamyl-transferase), responsible for the synthesis of precursors. In detail, the VvGST3 gene was significantly down-regulated in thermal stresses, while HS and WSHS up-regulated the expression of VvGST2, VvGST5, VvGST25 and GGTs. Furthermore, the tested stress marker genes significantly confirm the success of both thermal and water stress conditions. The analysis of thiol precursors, showed that the concentration of Cys-3SH in the two last sampling dates well correlated with the expression of the above-mentioned genes. As opposite, a poor correlation was observed for Glut-3SH. Taken together these results allowed to identify a specific effect of heat and water stress on the regulation of the thiol precursors biosynthetic pathway in Sauvignon blanc berries during maturation.  

DOI:

Publication date: October 11, 2023

Issue: ICGWS 2023

Type: Poster

Authors

Alberto Calderan1,2, Rachele Falchi2, Riccardo Braidotti2, Giorgio Alberti2, Andreja Vanzo3 and Paolo Sivilotti2

1Department of Life Sciences, University of Trieste, via Licio Giorgieri 10, 34127 Trieste, Italy
2Department of Agricultural, Food, Environmental and Animal Sciences, University of Udine, Via delle     Scienze 206, 33100 Udine, Italy
3Kmetijski Istitut Slovenje (KIS), Hacquetova ulica 17, SI-1000 Ljubljana, Slovenia

Contact the author*

Keywords

water stress, heat stress, climate change, berries culture

Tags

2ICGWS | ICGWS | ICGWS 2023 | IVES Conference Series

Citation

Related articles…

Induction of polyphenols in seedlings of Vitis vinifera cv. Monastrell by the application of elicitors

Contamination problems arising from the use of pesticides in viticulture have raised concerns. One of the alternatives to reduce contamination is the use of elicitors, molecules capable of stimulating the natural defences of plants, promoting the production of phenolic compounds (PC) that offer protection against biotic and abiotic stress. Previous studies on Cabernet-Sauvignon seedlings demonstrated that foliar application of elicitors methyl jasmonate (MeJ) and benzothiadiazole (BTH) increased proteins and PC involved in grapevine defence mechanisms. However, no trials had been conducted on Monastrell seedlings, a major winegrape variety in Spain.

Detoxification capacities of heavy metals and pesticides by yeasts 

Winegrowing is still characterized by the extensive use of chemical fertilizers and plant protection products, despite strong recommendations to limit these practices. A part of these xenobiotics and metals are then found in grape juice and wine, causing a major health concern, as well as negatively affecting the fermentation process. In recent years, there has been renewed interest in non-Saccharomyces yeasts. These species have a wide phenotypic diversity, which would be exploited to broaden the aromatic palette of wines.

Impact of polyclonal selection for abiotic stress tolerance on the yield and must quality traits of grapevine varieties

The effects of climate change in viticulture are currently a major concern, with heat waves and drought affecting yield, wine quality, and in extreme cases, even plant survival. Ancient grapevine varieties have high intravarietal genetic variability that so far has been explored successfully to improve yield and must quality. Currently, there is little information available on intravarietal variability regarding responses to stress. In the current work, the intravarietal genetic variability of several Portuguese varieties was studied for yield, must quality, and tolerance to abiotic stress, through indirect, rapid, and nondestructive measurements carried out in the field.

Climate change and viticulture in Nordic Countries and the Helsinki area

The first vineyards in Northern Europe were in Denmark in the 15th century, in the southern parts of Sweden and Finland in the 18th century at 55–60 degrees latitude. The grapes grown there have not been made into wine, but the grapes have been eaten at festive tables. The resurgence of viticulture has started with global warming, and currently the total area of viticulture in the Nordic countries, including Norway, is estimated to be 400–500 hectares, most of which is in Denmark. Southern Finland, like all southern parts of Northern Europe, belongs to the cool-cold winegrowing area.

Exploring the prevalence of esca-induced leaf symptoms in French vineyards and the role of climate: a national scale analysis

Esca, a severe trunk disease affecting vineyards, is caused by fungal pathogens that induce wood necrosis and decay, leaf symptoms, yield losses, and potentially a rapid death of the vine. The prevalence of this disease varies across years, regions, cultivars, and plot ages. Despite its significance in understanding and predicting dieback risk in different vineyards, the role of climate in trunk diseases remains a relatively unexplored research area. While some studies have demonstrated the impact of certain climatic conditions on the prevalence of the disease, they often focus on a limited number of plots and yield conflicting results.We conducted a statistical analysis, using a Bayesian approach on a national database comprising prevalence data of esca from over 500 different plots in France, spanning the years 2003 to 2022 and encompassing various cultivars.