Water stress, applied through Regulated Deficit Irrigation (RDI), is a commonly employed practice to enhance the concentration of secondary metabolites in grapes. However, the impact of this practice on grape aromas has been poorly explored, and metabolic responses to water stress can vary significantly among different cultivars. In the context of warm climate conditions, such as in Sicily, the influence of irrigation strategy on the synthesis of aromatic precursors in the grapes of cv. Grillo (Vitis vinifera L.) was investigated in 2022 vintage. Two irrigation regimes were compared: 1) moderate water stress (MWS), maintaining Stem Water Potential (ΨSWP) values > -1.4 MPa and < - 1.1 MPa from veraison to harvest; 2) severe water stress (SWS), maintaining Stem Water Potential (ΨSWP) values < -1.4 MPa and > -1.8 MPa from veraison to harvest. Berry sampling was performed at 5% of veraison, full veraison, and at harvest to evaluate the synthesis of aromatic precursors. For each treatment, from veraison to harvest, vegetative growth, bunch and berry weight, ripeness level (TSS, pH, titratable acidity), terpenic, norisoprenoids, benzenoids, and thiolic compounds precursors were assessed. At harvest, yield per vine was measured while wood weight was measured during pruning time in order to calculate the Ravaz index. Although SWS at full veraison showed higher concentrations for most of the aromatic compounds analyzed, the prolonged severe stress conditions triggered degradation processes, resulting in lower levels compared to MWS treatment at harvest. The imposed stress conditions had limited effects on primary metabolites and berry weight, indicating that the observed variations of aroma precursors were effectively dependent to the water stress conditions applied. These results suggest that regulated deficit irrigation applied from veraison to harvest with different strategies may improve the aromatic profile of grapes, having a relevant impact in the context of climate change.
Miccichè Daniele, Di Lorenzo Rosario, Fracassetti D., Puccio S., Turano L., Pisciotta A. (2024). Aroma precursors in Grillo grape (Vitis vinifera L.): exploit the impact of irrigation regimes. In O. Arina Antoce, A. Atak, G. Muñoz Organero (a cura di), European Horticulture Congress,12-16 May 2024. S04: Viticulture and winemaking between tradition and innovation.
Aroma precursors in Grillo grape (Vitis vinifera L.): exploit the impact of irrigation regimes
Miccichè Daniele;Di Lorenzo Rosario;Turano L.;Pisciotta A.
2024-01-01
Abstract
Water stress, applied through Regulated Deficit Irrigation (RDI), is a commonly employed practice to enhance the concentration of secondary metabolites in grapes. However, the impact of this practice on grape aromas has been poorly explored, and metabolic responses to water stress can vary significantly among different cultivars. In the context of warm climate conditions, such as in Sicily, the influence of irrigation strategy on the synthesis of aromatic precursors in the grapes of cv. Grillo (Vitis vinifera L.) was investigated in 2022 vintage. Two irrigation regimes were compared: 1) moderate water stress (MWS), maintaining Stem Water Potential (ΨSWP) values > -1.4 MPa and < - 1.1 MPa from veraison to harvest; 2) severe water stress (SWS), maintaining Stem Water Potential (ΨSWP) values < -1.4 MPa and > -1.8 MPa from veraison to harvest. Berry sampling was performed at 5% of veraison, full veraison, and at harvest to evaluate the synthesis of aromatic precursors. For each treatment, from veraison to harvest, vegetative growth, bunch and berry weight, ripeness level (TSS, pH, titratable acidity), terpenic, norisoprenoids, benzenoids, and thiolic compounds precursors were assessed. At harvest, yield per vine was measured while wood weight was measured during pruning time in order to calculate the Ravaz index. Although SWS at full veraison showed higher concentrations for most of the aromatic compounds analyzed, the prolonged severe stress conditions triggered degradation processes, resulting in lower levels compared to MWS treatment at harvest. The imposed stress conditions had limited effects on primary metabolites and berry weight, indicating that the observed variations of aroma precursors were effectively dependent to the water stress conditions applied. These results suggest that regulated deficit irrigation applied from veraison to harvest with different strategies may improve the aromatic profile of grapes, having a relevant impact in the context of climate change.
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