terclim by ICS banner
IVES 9 IVES Conference Series 9 International Congress on Grapevine and Wine Sciences 9 2ICGWS-2023 9 Drought tolerance assessment and differentiation of grapevine cultivars using physiological metrics: insights from field studies

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

Abstract

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. Sigmoid curves were employed to model the impact of water potential on stomatal conductance (gs) and embolism in shoots. These curves determined the water potential at which gs decreased by 50% () and the water potential at which air extraction from shoots increased by 50% (). Pressure-volume curves estimated the water potential at which leaf turgor loss occurred ().

Additionally, sigmoid curves described the effect of decreased water potential on yield per plant. Results showed that Chardonnay exhibited earlier reduction in gs under moderate water stress compared to Sauvignon blanc, with the latter demonstrating greater water stress tolerance (). S. Blanc maintained higher gs and gas exchange under limited water availability, enabling a 50% reduction in yield per plant () even under low water availability conditions. In contrast, Chardonnay experienced cellular turgor loss () and impaired water conduction in shoots () at lower water availability than S. Blanc, potentially due to a larger hydro-escape area. Overall, cultivars’ capacity to sustain yield per plant under moderate water deficit conditions () was identified as a differentiating metric for cultivars. However, considering the cultivar’s potential yield is crucial to determine the economic viability of partial yield maintenance under a water deficit.

Acknowledgements: Fruit tree physiology Laboratory, ANID Human Capital program.

References:

  1. Henry, C., John, G. P., Pan, R., Bartlett, M. K., Fletcher, L. R., Scoffoni, C., & Sack, L. (2019). A stomatal safety-efficiency trade-off constrains responses to leaf dehydration. Nature Communications, 10(1). https://doi.org/10.1038/s41467-019-11006-1
  2. Gambetta, G. A., Herrera, J. C., Dayer, S., Feng, Q., Hochberg, U., & Castellarin, S. D. (2020). The physiology of drought stress in grapevine: Towards an integrative definition of drought tolerance. Journal of Experimental Botany, 71(16), 4658–4676. https://doi.org/10.1093/jxb/eraa245

Fig. 1 Hydroscape area                                                                                  

Fig. 2 Metrics representing response to drought

DOI:

Publication date: October 11, 2023

Issue: ICGWS 2023

Type: Poster

Authors

Felipe Suárez-Vega1*, Bastián Silva-Gutiérrez¹, Benjamín Velásquez¹, Felipe Torres-Pérez¹, Jose Alcalde, Alonso Pérez-Donoso¹

1Departamento de Fruticultura & Enología, Facultad de Agronomía e Ing. Forestal, Pontificia Universidad Católica de Chile

Contact the author*

Keywords

drought, viticulture, gas exchange, water potential

Tags

2ICGWS | ICGWS | ICGWS 2023 | IVES Conference Series

Citation

Related articles…

Preliminary study of extraction of polysaccharides from pomace by high powered ultrasonic combined with enzymes

Red grape pomace can be an important source of polysaccharides, but currently they are little studied and even less with viable and environmental extraction processes (green extraction). These green techniques must be able to break the cell wall so that the compounds contained in the cells, including polysaccharides, are released and can have a great influence on extraction yields, the chemical structure of polysaccharides and applications in wines. Amongst the emerging green techniques most applied to the extraction of bioactive compounds, such as polysaccharides, high-power ultrasound (US) and enzyme-assisted extraction stand out.

Investigation of cellulose nanofiber-based films used as a protective layer to reduce absorption of smoke phenols into wine grapes

Volatile phenols from wildfire smoke are absorbed by wine grapes, resulting in undesirable smoky and ashy sensory attributes in the affected wine.[1] Unfortunately the severity of wildfires is increasing, particularly when grapes are ripening on the vine. The unwanted flavors of the wine prompted a need for solutions to prevent the uptake of smoke compounds into wine grapes. Films using cellulose nanofibers as the coating forming matrix were developed as an innovative means to prevent smoke phenols from entering Pinot noir grapes. Different film formulations were tested by incorporating low methoxy pectin or chitosan.

The potential of some native varieties of Argentina for the production of sparkling wines. Effect of lees contact time 

Grapevine varieties from South-America, commonly known as criollas, originated because of the natural crossbreeding of grapevine varieties brought by the Spaniards. The objective of this work was to evaluate the potential of some varieties to produce sparkling wines considering the effect of lees contact time. The following varieties were used: Moscatel Rosado, Criolla Chica, Pedro Gimenez, Blanca Oval, Canelón, and the European variety Chardonnay (control), planted in the ampelographic collection of EEA Mendoza INTA (Argentina). Pilot-scale vinifications were carried out to obtain the base wines, in 20 L glass containers. The second fermentation was performed through the traditional method.

Optimization of the acquisition of NIR spectrum in grape must and wine 

The characterization of chemical compounds related with quality of grape must and wine is relevant for the viticulture and enology fields. Analytical methods used for these analyses require expensive instrumentation as well as a long sample preparation processes and the use of chemical solvents. On the other hand, near-infrared (NIR) spectroscopy technique is a simple, fast and non-destructive method for the detection of chemical composition showing a fingerprint of the sample. It has been reported the potential of NIR spectroscopy to measure some enological parameters such as alcohol content, pH, organic acids, glycerol, reducing sugars and phenolic compounds.

Characterization of spoilage yeasts from Malbec grapes from San Rafael wine region (Argentina)

The yeast ecosystem in grape musts is quite broad and depends on the region and the health of the grapes. Within this, there are yeasts that can generate fermentative deviations and/or cause defects in the wine. It is very important to address this issue because there are significant economic losses in the wine industry when the fermentation process and/or the organoleptic characteristics of the wine are negatively affected, even more today since climate change has a marked effect on the composition of this ecosystem. The aim of this work is to characterize the behavior regarding detrimental oenological features of potential spoilage yeasts isolated from viticultural environments.