EFFECT OF SOIL MOISTURE AVAILABILITY ON MERLOT: FROM LEAF WATER POTENTIAL TO GRAPE COMPOSITION
Sivilotti, P.;Bonetto, C.;Paladin, M.;Peterlunger, E.
Grape phenolics are a relevant part of grape quality, and their metabolism in the berry may be modified by environmental factors. To determine the influence of different water regimes on the polyphenolic composition of berries, research was conducted for two years (2000 and 2001) on three-year-old *Vitis vinifera* cv. Merlot potted vines, comparing three water supply levels: (1) control (C), at about 80 % of available water (aw); (2) moderate stress (M), at about 30 % aw; and (3) severe stress (S), at about 15 % aw. The treatments were applied in both years from veraison to fruit maturity. Predawn leaf water potential was reduced only in the S treatment in 2000, while in 2001 both M and S treatments had a lower value. Berry weight was reduced in M and S treatments, but no differences were observed in sugars, pH, and berry titratable acidity. Total skin and seed polyphenols were increased in S vines, but a probable increase of the structural complexity of phenolic compounds inside the berry (higher degree of polymerization) caused a lower extractability in winelike solution. Anthocyanins, which are monomers, were more concentrated and also more extracted in S berries. Water-stressed Merlot grapes (both S and M) will benefit from a longer maceration because a higher concentration of polymerized polyphenols could be extracted, stabilizing color and improving the mouthfeel properties of the resulting wines.
We suggest that you consult the full text of this article, which was published in the American Journal of Enology and Viticulture 2005, 56 (1) 9-18.
Published on 11/19/2006