terclim by ICS banner
IVES 9 IVES Conference Series 9 From soil to canopy, the diversity of adaptation strategies  to abiotic constraints in grapevine

From soil to canopy, the diversity of adaptation strategies  to abiotic constraints in grapevine

Abstract

Climate change is here. One of the main consequences is an increase in the frequency and severity of abiotic stresses which mostly occur in a combined manner. Grapevine, which grows in a large diversity of pedo-climatic conditions, has presumably evolved different mechanisms to allow this widespread adaptation. Harnessing the genetic diversity in these mechanisms will be central to the future of viticulture in many traditional wine growing areas. The interactions between the scion and the rootstock through grafting add an additional level of diversity and adaptive potential to explore.

At the physiological level, these mechanisms are related to processes such as root system development and functioning (water and nutrient uptake), interactions with the soil microbiome, gas exchange regulation, hydraulic properties along the soil-plant-atmosphere continuum, reserve storage, short and long distance signaling mechanisms and plasticity for some of these traits. At the molecular level, hormonal, osmotic and oxidative metabolisms are involved. Considering all together, adaptation to any constraint appears as a complex property arising from the interaction of these processes.

Based on a review of recent literature related to grapevine and other plants, and some studies performed in our own laboratory, this communication will illustrate the diversity of adaptive responses, how these responses characterize different adaptation strategies and how these strategies can be leveraged to select new genotypes for the future.

DOI:

Publication date: June 13, 2024

Issue: Open GPB 2024

Type: Article

Authors

Nathalie Ollat1*, Marina de Miguel Vega1, Clément Saint Cast1, Elisa Marguerit1, Philippe Vivin1, Virginie Lauvergeat1, Cornelis van Leeuwen1, Sarah J. Cookson1, Philippe Gallusci1, Gregory A. Gambetta1

1 EGFV, University of Bordeaux, Bordeaux Sciences Agro, INRAE, ISVV, 210 chemin de Leysotte, 33883 Villenave d’Ornon

Contact the author*

Keywords

Vitis spp, hydraulic traits, microbiome, root development, signaling

Tags

IVES Conference Series | Open GPB | Open GPB 2024

Citation

Related articles…

Effect of different pH values on the interaction between yeast mannoproteins and grape seed flavanols

The consequences of the global climate change in the vitiviniculture are revealed as a gap between phenolic and technological grape maturities, higher grape sugar concentration that leads to high wine alcohols levels, lower acidities and high pH values, among others. The unbalanced phenolic maturity caused in this scenario leads to harsh astringency and to instable colour of wines. Previous studies have reported that the addition of yeast mannoproteins (MPs) to wines may have positive effects on these two organoleptic properties due to their capability to interact with wine polyphenols [1]; however, studies about the effect of the pH on these interactions have not been carried out so far.

CONSUMER PERCEPTION OF INTERSPECIFIC HYBRID RED WINE COLOR IN RELATION TO ANTHOCYANIN PROFILE AND CHEMICAL COLOR PARAMETERS

Interspecific hybrid winegrapes are of growing interest in the context of climate change based on their disease resistance and cold hardiness. In addition to a need for increased understanding of their chemical composition, there is little empirical evidence on the consumer perception of non-vinifera wine. Phenolic compounds, and particularly color, play an important organoleptic and quality determination role in wine, but can vary significantly in interspecific hybrid wines compared to wines produced from Vitis vinifera cultivars [1, 2, 3]. Anecdotally, the variation in anthocyanin species, interactions, and concentrations in interspecific hybrids could result in a variance from“vinifera-like” wine color.

Vitivoltaics: overview of the impacts on grapevine performance, wine quality, design features and stakeholder perceptions

This multidisciplinary study investigates “”Vitivoltaics,”” where photovoltaic (PV) panels are integrated into vineyard systems to generate renewable energy while providing partial shade to grapevines.

IMPACT OF FINING WITH K-CARRAGEENAN, BENTONITE, AND CHITOSAN ON PROTEIN STABILITY AND MACROMOLECULAR COMPOUNDS OF ALBARIÑO WHITE WINE PRODUCED WITH AND WITHOUT PRE-FERMENTATIVE SKIN MACERATION

Pre-fermentative skin maceration is a technique used in white wine production to enhance varietal aroma, but it can increase protein concentration, leading to protein instability and haze formation [1]. To prevent protein instability, wine producers typically use fining agents such as bentonite, before wine bottling, which can negatively impact sensory characteristics and produce waste [2,3]. The aim of this study was to understand the impact of alternative techniques such as the application of polysaccharides (k-carrageenan and chitosan) on protein stability and on the wine macromolecular composition.

Impact of enological enzymes on aroma profile of Prosecco wines during second fermentation and sur lie aging

Proseccco is a famous italian Protected Designation of Origin (PDO) produced in two regions: Veneto e Friuli Venezia Giulia, however, the production is mainly concentrated in the province of Treviso. These territories are characterized by plains with some hilly areas and temperate climate. Its Production regulation provides a minimum utilization of 85% of Glera grapes, a local white grape variety, and up to a maximum of 15% of other local and international varieties. Prosecco second fermentation takes place, according to the Charmat method, in autoclaves.