Deficit irrigation in grapevine improves water-use efficiency while controlling vigour and production quality.

Book Title: NA
Year Published: 2007
Month Published: NA
Author: Chaves, M. M. ; Santos, T. P. ; Souza, C. R. ; Ortuño,M. F. ; Rodrigues, M. L. ; Lopes, C. M. ; Maroco, J. P. ; Pereira, J. S.
Book Group Author: NA

Grapevine irrigation is becoming an important practice to guarantee wine quality or even plant survival in regions affected by seasonal drought. Nevertheless, irrigation has to be controlled to optimize source to sink balance and avoid excessive vigour. The results we present here in two grapevine varieties (Moscatel and Castelão) during 3 years, indicate that we can decrease the amount of water applied by 50% (as in deficit irrigation, DI, and in partial root drying, PRD) in relation to full crop's evapotranspiration (ETc) [full irrigated (FI) vines] with no negative effects on production and even get some gains of quality (in the case of PRD). We report that in non-irrigated and in several cases in PRD vines exhibit higher concentrations of berry skin anthocyanins and total phenols than those presented by DI and FI vines. We showed that these effects on quality were mediated by a reduction in vigour, leading to an increase on light interception in the cluster zone. Because plant water status during most of the dates along the season was not significantly different between PRD and DI, and when different, PRD even exhibited a higher leaf water potential than DI vines, we conclude that growth inhibition in PRD was not a result of a hydraulic control. The gain in crop water use in DI and PRD was accompanied by an increase of the δ13C values in the berries in DI and PRD as compared to FI, suggesting that we can use this methodology to assess the integrated water-use efficiency over the growing season.

Pages: 237 - 252
Volume: 150
Number: 2
Journal: Annals of Applied Biology
Journal ISO: NA
Organization: NA
Publisher: NA
ISSN: 0003-4746

crop quality, crop yield, drought, evapotranspiration,grapes, irrigation, light, light relations, plant water relations,roots, vigour, water stress, water use, water use efficiency, Portugal,Vitis, Vitis vinifera, Vitis, Vitidaceae, Rhamnales, dicotyledons,angiosperms, Spermatophyta, plants, eukaryotes, Southern Europe, Europe,Mediterranean Region, Developed Countries, European Union Countries,OECD Countries, vigor, Vitaceae, watering, Horticultural Crops (FF003)(New March 2000), Plant Physiology and Biochemistry (FF060), Plant WaterRelations (FF062), Plant Production (FF100), Soil Water Management(Irrigation and Drainage) (JJ800) (Revised June 2002) [formerly SoilWater Management]

Source: EBSCO
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