ABSCISIC ACID SPRAYS SIGNIFICANTLY INCREASE YIELD PER PLANT IN VINEYARD-GROWN WINE GRAPE ( VITIS VINIFERA L.) CV. CABERNET SAUVIGNON THROUGH INCREASED BERRY SET WITH NO NEGATIVE EFFECTS ON ANTHOCYANIN CONTENT AND TOTAL POLYPHENOLINDEX OF JUICE AND WINE

ANDREA QUIROGA; FEDERICO BERLI; DANIELA MORENO; JUAN CAVAGNARO; RUBEN BOTTINI

JOURNAL OF PLANT GROWTH REGULATION

SPRINGER

Año: 2009 vol. 28 p. 28 - 35

0721-7595

In many cultivars of Vitis vinifera periods of mild water stress during ripening are thought to increase grape quality for winemaking, even though yields may be negatively affected. Because abscisic acid (ABA) is involved in the signaling of water stress in plants, we examine the effects of the ABA signal being given without the concomitant water stress. ABA at 250 mg/L was sprayed weekly or biweekly from bud-burst until harvest onto the leaves of vineyard-grown plants of cv. Cabernet Sauvignon. For ABA-treated plants berry yield per bunch and per plant was significantly increased (1.5- to 2.0-fold) across three consecutive harvests (2005 through 2007). Number of berries per bunch and per plant was the primary basis for the significant crop increases, although bunches per plant also tended to increase (1.1- to 1.3-fold) across all three harvests. Other parameters assessed included number of internodes, shoot length, leaf area, leaf water potential at midday, photosynthesis, and stomatal conductance. These parameters showed no significant change with ABA treatment, although shoot length tended to be reduced, as was leaf area relative to control plants. The significantly increased fruit yields were thus accomplished without accompanying increases in leaf photosynthesis and leaf areas. Juice at harvest had equal levels of sugars (ºBrix) and somewhat higher levels of anthocyanins and total polyphenols relative to control values. The two latter trends continued for the resultant wine across two vintage years. In conclusion, three seasons of experimental trials have demonstrated that ABA application can significantly enhance yield per plant in the field-grown grape (cv. Cabernet Sauvignon) by favoring increased berry set without diminishing the quality of the fruit for winemaking use.