0000000000417366

AUTHOR

Alberto Palliotti

showing 2 related works from this author

Transcriptional responses to pre-flowering leaf defoliation in grapevine berry from different growing sites, years, and genotypes

2017

Leaf removal is a grapevine canopy management technique widely used to modify the source–sink balance and/or microclimate around berry clusters to optimize fruit composition. In general, the removal of basal leaves before flowering reduces fruit set, hence achieving looser clusters, and improves grape composition since yield is generally curtailed more than proportionally to leaf area itself. Albeit responses to this practice seem quite consistent, overall vine performance is affected by genotype, environmental conditions, and severity of treatment. The physiological responses of grape varieties to defoliation practices have been widely investigated, and just recently a whole genome trans…

0106 biological sciences0301 basic medicineCanopyBerry transcriptome; Flavonoid; Grapevine; Pre-flowering defoliation; Secondary metabolite; Plant ScienceBerry transcriptomeBerryPlant Sciencelcsh:Plant cultureBiology01 natural sciencesTranscriptomeCropSecondary metabolite03 medical and health scienceschemistry.chemical_compoundAuxinSettore AGR/07 - Genetica AgrariaBotanylcsh:SB1-1110JasmonateAbscisic acidOriginal Research2. Zero hungerchemistry.chemical_classificationfungifood and beveragesRipening15. Life on landPre-flowering defoliationberry transcriptome; flavonoid; grapevine; pre-flowering defoliation; secondary metaboliteSettore AGR/03 - Arboricoltura Generale E Coltivazioni Arboree030104 developmental biologychemistryFlavonoidGrapevine010606 plant biology & botany
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Upscaling leaf gas exchange measurements to the whole grapevine canopy: An update

2009

This review first revisits current knowledge about single-leaf function, viz. photosynthesis, chiefly in relation to environmental factors, that underscores the importance of multiple summer stresses. Emphasis is placed on the response different genotypes show under light and heat stress with or without soil-water shortage. Secondly, it tackles the thorny issue of extrapolating single-leaf readings to the whole-canopy level, with special reference to both methodological and physiological implications. Whole-canopy gas-exchange systems deliver and emphasise the usefulness of such an approach in achieving key research goals. One case in point is quantifying the amount and dynamics of canopy g…

canopycarbon balanceAssimilate partitioningchlorophyll fluorescenceleafgrowthsummer pruningtraining systemdroughtgrapevinenet photosyntheisiswater stressphoto-inhibitionphotosynthesigasnet photosyntheisis; respiration; growth; shade stress; water stress; drought; carbon balanceSettore AGR/03 - ARBORICOLTURA GENERALE E COLTIVAZIONI ARBOREEtranspriration rateshade stressrespiration
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