Drought-induced changes in development and function of grapevine (Vitis spp.) organs and in their hydraulic and non-hydraulic interactions at the whole-plant level: a physiological and molecular update

This review deals with grapevine responses to water stress by examining perturbations to physiological and molecular processes at the root, shoot, leaf and berry levels. Long-distance signalling among organs is also considered. Isohydric or anisohydric Vitis genotypes are described in relation to th...

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Published inFunctional plant biology : FPB Vol. 37; no. 2; pp. 98 - 116
Main Authors Lovisolo, Claudio, Perrone, Irene, Carra, Andrea, Ferrandino, Alessandra, Flexas, Jaume, Medrano, Hipolito, Schubert, Andrea
Format Journal Article
LanguageEnglish
Published Collingwood, Victoria: CSIRO Publishing 01.01.2010
Subjects
abscisic acid
aquaporins
desiccation (plant physiology)
drought tolerance
free radical scavengers
fruits (plant anatomy)
grapes
leaves
literature reviews
net assimilation rate
osmoregulation
photoinhibition
photorespiration
photosynthesis
plant development
plant diseases and disorders
plant growth
root hydraulic conductivity
roots
shoots
signal transduction
stomatal conductance
Vitis vinifera
water stress
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Summary:This review deals with grapevine responses to water stress by examining perturbations to physiological and molecular processes at the root, shoot, leaf and berry levels. Long-distance signalling among organs is also considered. Isohydric or anisohydric Vitis genotypes are described in relation to their response to drought, which is linked to stomatal behaviour. Stomatal regulation of grapevine under abscisic acid and hydraulic control (the latter being linked to embolism formation and recovery in water pathways upstream the stomata) is reviewed and linked to impairments of photosynthetic assimilation. We define three stages of photosynthesis regulation in grapevines that are subjected to progressive water stress on the basis of the main causes of assimilation decline. Early and late contributions of aquaporins, which play a fundamental role in water stress control, are discussed. Metabolic mechanisms of dehydration tolerance are rewieved, and variation linked to differences in transcript abundance of genes involved in osmoregulation, photosynthesis, photorespiration, detoxification of free radicals and coping with photoinhibition. Results of these defence strategies accumulated in berries are reviewed, together with perturbations of their molecular pathways. Features observed in different organs show that grapevine fits well as a complex model plant for molecular and physiological studies on plant drought avoidance/tolerance.
Bibliography:http://dx.doi.org/10.1071/FP09191
ISSN:1445-4408
1445-4416
DOI:10.1071/FP09191