Inflorescence necrosis, ammonium, and evidence for ferredoxin-glutamate synthase activity in grape (Vitis vinifera L.)

Creasy, Glen L.

26 August 1996

Death of flower parts near bloom due to inflorescence necrosis (IN) is associated with high ammonium (NH₄⁺) concentration in flower clusters, shade, cool wet weather preceding bloom, and excessive vigor. Faults in NH₄⁺ assimilation are suspected to cause a rise in NH₄⁺ concentration to toxic levels in flower cluster but not other tissues. In this study, shading whole vines of Pinot noir increased flower NH₄⁺ concentration if applied at budbreak (early) or 1 wk before bloom (late), but only late application of shade to individual shoots raised it. Late, complete shoot defoliation raised flower cluster NH₄⁺ in all three years of the experiment. Early or late removal of lower leaves on a shoot also increased flower cluster NH₄⁺. Lamina, petiole, and other shoot tissue NH₄⁺ levels responded differently to treatments than flower clusters. IN severity was not affected by treatments; however, on shoots whose primary clusters had been removed at bloom secondary clusters did show significant differences, with IN being more severe in the early defoliation and late, lower defoliation treatments. Ethephon, sprayed on whole vines, slowed shoot growth to zero and increased IN severity greatly, however, flower cluster NH₄⁺ concentration was increased only 20% over the controls. Methionine sulfoximine applied as a cluster dip, increased flower cluster NH₄⁺ by 100%, yet resulted in little necrosis. Rootstock and clone affected Pinot noir flower cluster NH₄⁺ and IN severity. Rootstocks 420A caused lower and 101-14 and 3309 higher NH₄⁺ concentrations than the average. IN severity and flower cluster NH₄⁺ varied between vineyard sites, possibly due to environment and management differences. Pinot noir clones UCD23 and 32 had lower and UCD4 higher than average flower cluster NH₄⁺. IN in clones UCD4 and DJN115 was the least and UCD23 the most severe. A single 73kDa protein from grape shoot tissues reacted with anti-rice Fd-GOGAT IgG. An extraction method and assay for Fd-GOGAT activity from grape tissues was developed and gel filtration was used to show that the native enzyme is a dimer or trimer of the 73kDa protein. Activity was found in lamina, petiole, flower, rachis, and tendril, but not pedicel tissue. / Graduation date: 1997

Grapes -- Diseases and pests

Grapes -- Physiology

The effect of shoot heterogeneity on the physiology and grape composition of Shiraz/Richter 99 grapevines

Cloete, Hanle

12 1900

Thesis (MScAgric)--Stellenbosch University, 2004. / ENGLISH ABSTRACT: The effect of shoot heterogeneity on vegetative and reproductive growth parameters, vine physiology and grape composition was investigated in a ShirazlRichter 99 vineyard. Comparisons between underdeveloped (typically shorter and less ripened at véraison) and normally developed shoots in both shaded (non-manipulated) and well-exposed (manipulated) canopies were made. Compared to underdeveloped shoots, normal shoots had a larger total leaf area, due to the higher occurrence of secondary shoots as well as larger leaves on primary and secondary shoots. Since the photosynthetic activity of the leaves from normal shoots was higher than those from underdeveloped shoots, higher levels of carbohydrates were produced and stored in the former. Starch was more evenly distributed over the length of the whole shoot in normally developed shoots compared to underdeveloped shoots. Normally developed shoots were longer and thicker in diameter than underdeveloped shoots. The larger clusters of the normally developed shoots are evidence of their more favourable total leaf area per gram berry mass. Berries from the normally developed shoots were smaller at five weeks after véraison than those from underdeveloped shoots, displaying a higher skin to pulp ratio and therefore higher anthocyanin and total phenolic extraction potential for winemaking. The smaller clusters and fewer berries per cluster found for the underdeveloped shoots indicate an imbalance between vegetative and reproductive growth initiated during the vegetative growth phase and continued during the ripening period. The peculiar absence of statistically significant differences in grape composition between normally and underdeveloped shoots indicates that assimilates needed for berry ripening of the latter originated in organs other than the leaves [e.g. from adjacent normal shoots and the rest of the permanent structure of the vine (cordon, trunk, roots)]. The larger differences in berry size that occurred between shoot types in the shaded compared to the well-exposed canopies may be evidence for this. The photosynthetic activity of shoots was lower in shaded than in exposed canopies. The total carbohydrate production of the normal shoots in shaded canopies seemed insufficient to supply in the ripening needs of the shoot itself, their own clusters as well as the ripening of stem tissue and clusters of the underdeveloped shoots in the canopy. This is illustrated by the lower levels of starch that accumulated in the normal shoots from shaded compared to that of exposed canopies. Vine shoot heterogeneity clearly leads to visible and physiological imbalances that would impact negatively on grape and wine quality as well as production costs and should therefore be avoided on any terroir. / AFRIKAANSE OPSOMMING: In hierdie studie is die effek van heterogene lootontwikkeling in die lower van 'n ShirazlRichter 99 wingerd ondersoek. Vergelykings is getref tussen normale en onderontwikkelde lote in beskadude en blootgestelde lowers ten opsigte van hul vegetatiewe en reproduktiewe groeieienskappe, fisiologiese aktiwiteit en druifsamestelling en -gehalte. 'n Groter totale blaaroppervlak het by die normaalontwikkelde lote voorgekom as gevolg van die groter aantal sekondêre lote en groter primêre en sekondêre blare. Aangesien die blare van die normaal ontwikkelde lote fotosinteties meer aktief was as dié van onderontwikkelde lote, het die eersgenoemde lote groter hoeveelhede koolhidrate geproduseer en gestoor. Styselopberging het meer eweredig oor die lengte van die normale lote plaasgevind. Laasgenoemde lote was ook heelwat langer en dikker in deursnee as die onderontwikkelde lote. Die gunstiger totale blaaroppervlak per korrelmassa verhouding van die normale lote is duidelik weerspieêl in die groter trosse, terwyl die kleiner korrels (en dus die groter dop:pulp verhouding) op 'n groter potensiaal vir kleur- en fenolekstraksie tydens die wynbereidingsproses dui. Die kleiner trosse en kleiner aantal korrels per tros wat by die onderontwikkelde lote gevind is, dui op 'n wanbalans tussen die vegetatiewe en reproduktiewe groei van die loot wat tydens die vegetatiewe groeifase van die wingerdstok geïnisieer is en tydens die rypwordingsperiode voortgesit is. Die vreemde afwesigheid van enige statisties betekenisvolle verskille in druifsamestelling tussen die normale en onderontwikkelde lote dui daarop dat die verbindings wat vir die rypmaking van trosse op onderontwikkelde lote aangewend is, waarskynlik van ander wingerdorgane (bv. naasliggende lote, kordonarms, stam, wortels) as die spesifieke loot se blare afkomstig was. Die waarneming dat die korrelgroottes van normale en onderontwikkelde lote meer van mekaar verskil het in die beskadude as blootgestelde lowers, kan moontlik as bewys hiervoor dien. Die fotosintetiese aktiwiteit van beide loottipes was laer in die skaduryke lowers. Die koolhidrate wat deur normaalontwikkelde lote in skadu-Iowers geproduseer is, was oênskynlik onvoldoende vir die rypmaking van die loot self, die spesifieke loot se trosse, asook die trosse en lootweefsel van naasliggende onderontwikkelde lote. Hierdie bewerings word gerugsteun deur die laer vlakke van styselakkumulasie wat by die normale lote in beskadude lowers gevind is. Aangesien heterogene lootontwikkeling en -groei duidelike sigbare en fisiologiese wanbalanse in die wingerdstok tot gevolg het wat negatief op druifsamestelling, wyngehalte en produksiekoste inwerk, behoort dit in kommersiêle wingerde vermy te word.

Grapes -- Growth

Grapes -- Physiology

Shoots (Botany) -- Growth

Dissertations -- Agriculture

Theses -- Agriculture

Japanese beetle Popillia japonica Newman: foliar feeding on wine grapes in Virginia

Boucher, T. Jude

January 1986

The natural infestation level for 1985 of the Japanese beetle, Popillia japonica Newman, in the Shenandoah Valley of Virginia failed to reduce berry quality, yield or shoot growth in a commercial vineyard. Intensive postveraison foliage feeding by Japanese beetle resulted 1n fruit with lower soluble solids and higher total titratable acidity at harvest, but did not affect pH, sugar per berry, berry weight, yield, leaves per vine or shoot length. Intensive previraison feeding also resulted in fruit with higher total titratable acidity. All other parameters were unaffected. In a separate experiment with 0, 10, 20, and 33% leaf removal, no relationship was shown between leaf area loss and soluble solids, total titratable acidity or pH. Data from one season of damage by the beetle indicate that control measures may not be warranted in some years. In a third experiment, grape leaves on potted vines were artificially damaged by removing leaf disks with a paper punch. The leaves showed an increased loss of efficiency (measured in net photosynthesis, Pn) for the remaining tissue as leaf area loss (LAL) increased. This loss of efficiency in the remaining leaf area at low levels of damage was more pronounced after 12 days than after either 1 or 5 days. The additive effect on Pn of both LAL and lowered efficiency predicted the total shutdown of Pn at 60% damage at 1 and 5 days after treatment, but not at 12 days. / Master of Science

LD5655.V855 1986.B682

Japanese beetle

Grapes -- Diseases and pests -- Virginia

Grapes -- Physiology