terclim by ICS banner
IVES 9 IVES Conference Series 9 International Congress on Grapevine and Wine Sciences 9 2ICGWS-2023 9 Cumulative effect of deficit irrigation and salinity on vine responses

Cumulative effect of deficit irrigation and salinity on vine responses

Abstract

Climate change is increasing water needs in most of the wine growing regions while reducing the availability and quality of water resources for irrigation. In this context, the sustainability of Mediterranean viticulture depends on grapevine responses to the combinations of water and salt stress. With this aim, this work studies the effects of deficit irrigation and salinity on the physiology of the Tempranillo cultivar (Vitis vinifera L.) grafted onto a drought and salinity tolerant rootstock (1103 Paulsen). The experiment was carried out in 2020 in a vineyard with a 22 factorial design located in Moncada, Valencia, Spain. The factors studied were two sustained irrigation regimes (100% and 50% of crop water needs) with two water salinity levels (EC of 0.8 and 3.5 dS m1). Results showed that water deficit significantly impacted vine water relations and leaf gas exchange at the beginning of the season, but that throughout the season the vine adapted to water availability by regulating vigor. Total leaf area was also reduced by salt stress. However, the effect of salinity on vine water status became more evident as the season progressed. Despite the osmotic adjustment caused by both water deficit and salinity, the strong relationship between soil water potential (YPD) and gas exchange rates revealed the cumulative effect of both factors on vine water status. Similarly, chloride content was increased by the effect of salinity but also of water deficit in leaf and petiole, as well as in grape. Cumulative effects were also observed in the reduction of berry mass and in the increase of total soluble solids and must pH, but not in vine yield. These results evidence the importance of assessing abiotic stresses in combination. Experiments are ongoing to evaluate the effect on the agronomic response and possible carry-over effects.

Acknowledgements: This research has been funded by the Agencia Estatal de Investigación with FEDER (grant number PID2021–123305OB-C31).

DOI:

Publication date: October 5, 2023

Issue: ICGWS 2023

Type: Article

Authors

I. Buesa1,2 *, M. Tasa1, J.M de Paz1, F. Visconti1,3, M.A. Martínez-Gimeno1, E. Badal1, L. Bonet1, D.S. Intrigliolo3 and J.G. Pérez-Pérez1

Instituto Valenciano de Investigaciones Agrarias, Centro para el Desarrollo Agricultura Sostenible, Apartado Oficial 46113, Moncada, Valencia.
2 Grupo de investigación de Biología de las Plantas en Condiciones Mediterráneas-Universidad de las Islas Baleares (PlantMed-UIB), Cra. de Valldemossa, km 7.5, 07122, Palma.
3 CSIC, Departamento de Ecología, Centro de Investigación sobre Desertificación (CSIC-UV-GV), Carretera CV‑315, km 10.7, 46113 Moncada, Valencia.

Contact the author*

Keywords

gas exchange, osmotic adjustment, Vitis vinifera L, water relations

Tags

2ICGWS | ICGWS | ICGWS 2023 | IVES Conference Series

Citation

Related articles…

The generation of suspended cell wall material may limit the effect of ultrasound in some varieties

The disruptive effect exerted by high-power ultrasound (US) on plant cell walls, natural barriers to the diffusion of compounds of interest during the maceration of red wines, is established as the reason behind the chromatic improvement that its treatment causes. However, sometimes this improvement is not observed, especially with short maceration times. The presence of a high quantity of suspended cell wall material, which formation is favored by the sonication, could be the cause of this lack of positive results since this cell wall material has a high affinity for phenolic compounds.

The effect of ozonated water treatment on the metabolic profile and resistance of vines to Downy and powdery mildew 

Ozone is a potent oxidizing compound that quickly decomposes into oxygen without residues. Previous works reported that ozone is not only a disinfectant that directly harms the pathogens of the vine but also activates systemic defense systems in the plant by activating oxidative stress. We assume these systemic defense mechanisms are essential to the vines’ resistance to downy and powdery mildew (Plasmopara viticola & Erysiphe necator, respectively). The goals of the research are to examine the effect of spraying with ozone water on the plant’s resistance against the mentioned pathogens as well as to characterize the metabolic profile of the plants treated with ozone as well as physiological characteristics in the vines such as the level of Photosynthesis and crop yield. Vines in the vineyard sprayed with ozone water at concentrations of 2 and 4 PPM weekly and biweekly, untreated control & conventional spray. Leaves were taken from vines 2,4,7,9 and 11 days after exposure to ozone and inoculated with the pathogens.

Comparison of the effects of hormone- and natural-based elicitors on key metabolic pathways in cv. Tempranillo

One of the most important effects of climate change in wine-growing areas is the advance of phenological stages, especially concerning early berry ripening. In the hottest seasons, this results in a lack of synchrony between sugar and phenolic ripeness. In order to cope with this fact, a general effort is being made by researchers and growers aiming at delaying ripening through different strategies. One of the proposed approaches is the application of elicitors. This study aims to assess the effect at the transcriptomic level of application of three elicitors (Vitalfit, Fruitel, and Protone) in Tempranillo.

Effects of laccase from Botrytis cinerea on the oxidative degradation kinetics of the five natural grape anthocyanins

Enzymatic browning[1] is an oxidation process that occurs in many foods that increases the brown colour[2]. This problem is especially harmful in the wine industry[3]. especially when the grapes are infected by grey rot since this fung release the oxidative enzyme laccase[4]. In the particular case of red wines, the presence of laccase implies the deterioration of the red colour and can even cause the precipitation of the coloring matter (oxidasic haze)[5].

Pre-breeding for developing heat stress resilient grape varieties to ensure yield 

Climate change has numerous detrimental consequences and creates new challenges for viticulture around the world. Transitory or constant high temperatures frequently associated with an excess of sunlight (UV) can cause a variety of physiological disorders, such as sunburn. Diverse environmental factors and the plant’s response mechanisms to stress determine the symptoms. Grapevine berry sunburn leads to a drastic reduction in yield, and may eventually decline berry quality. Consequently, this poses a significant risk to the winegrowers.