Water deficit and exogenous ABA significantly affect grape and wine phenolic composition under in field and in-vitro conditions

DEIS, LEONOR; CAVAGNARO, BRUNO; BOTTINI, RUBEN; WUILLOUD, RODOLFO G.; SILVA, MARIA F.

PLANT GROWTH REGULATION

SPRINGER

Año: 2011 vol. 65 p. 11 - 21

0167-6903

Phenolic compounds are components responsable of the sensorial characteristics of red wine. Indeed, they present important properties for human health. In the present work, the effects of combined in field treatments (water-stress and exogenous ABA) on phenolic accumulation were evaluated for berries and wine. The responses were assessed by UV?Vis and CZE. A differential phenolic regulation was observed under the same conditions and good correlations were achieved for grape and wine. ABA appears to regulate the content of each phenols under study depending on plant water-status. Although the effects of water-stress and exogenous ABA were similar in magnitude, our results support evidence suggesting that both affect different metabolic pathways. ABA supply increased catechin and malvidin synthesis for both water statuses while the resveratrol was enhanced only for water-stress. Indeed, ABA reduced the quercetin content for both water statuses. In vitro assays were carried out to estimate the effects of combined treatments (temperature-exogenous ABA) on anthocyanin accumulation in berries and pulp. These tests demonstrated that the effect of ABA was dependent on the hormonal level (207% for 0.5 g/L and 307% for 1 g/L of ABA). Effect of temperature varied according to the phenological state. In pulps, we detected an increase of anthocyanin alter ABA treatments.