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1.
A partial defoliation study was carried out on ‘Hayward’ kiwifruit vines with the aim of evaluating effects on fruit yield, changes in concentration of carbohydrates, and return bloom. At full bloom, ‘Hayward’ kiwifruit vines trained to the pergola system were submitted to 0% (control), 50% and 75% defoliation in the 2.0 m wide central horizontal area of the canopy. This area represents the vine ‘replacement cane zone’ (RCZ), whereas the remaining external area represents the ‘fruiting zone’ (FZ). Removing 50% of the leaves resulted in a small (−9 g in the RCZ and −3.3 g in the FZ), but significant, reduction in fruit weight compared to the control vines. More severe defoliation (75%) reduced fruit weight by 13 g in the RCZ and 7 g in the FZ. The defoliation treatment reduced the concentrations of starch and total soluble carbohydrates (glucose + fructose + sucrose) in the shoots and starch in trunk bark compared to those in control vines. The treatments caused a large reduction in return bloom, expressed as number of flowers per winter bud, by about 25% and 53% in vines with 50% and 75% defoliation, respectively. 相似文献
2.
Biochemical changes in dormant grapevine shoot tissues in response to chilling: Possible role in dormancy release 总被引:1,自引:0,他引:1
At leaf fall, one-year-old shoots of cv. Superior Seedless table grape were collected and cut into single-node sections. These cuttings were subjected to 0, 100, 200, 300, 400 or 500 h of chilling at 5 °C to simulate natural chilling accumulation. After each treatment, one group of cuttings was forced to break buds while a second group was used to study biochemical changes taking place in the bud and underlying internode tissues. Carbohydrates, free polyamines and proline concentrations were determined and amylolitic and invertase (EC 3.2.1.26) activities were estimated. Low temperature treatment caused a hydrolysis of starch concomitant with an accumulation of sucrose. There was also a rapid build-up of proline, putrescine (Put) and spermidine (Spd) which reached their maximum levels at 300 positive chill units (PCU). Afterwards, as buds approached chilling satisfaction (400 and 500 PCU), hexoses accumulated in the buds while sucrose concentration increased considerably in both structures. Proline and Put, however, decreased in both tissues. Spd level remained high, while spermine (Spm) increased slightly. Changes in starch concentration seem to be controlled by α-amylase (EC 3.2.1.1). Sucrolytic activity, consisting mainly in the acid invertase form, changed inversely to sucrose concentrations. Nevertheless, at chilling satisfaction both sucrose content and invertase activity remained high in the buds implying a possible import of sucrose into the bud which acted as a strong utilizing sink. Our data suggest that limited budbreak due to a lack of chilling may be due to low hexoses availability. However, as buds approached chilling satisfaction, a high acid invertase activity, high soluble sugars concentration and a decrease in Put to Spd plus Spm ratio appear to be correlated with bud dormancy release and improve budbreak. Furthermore, endodormancy can be divided into two phases: the first one (from 0 to 300 PCU) is an acclimation period; the second (from 300 to 500 PCU) is a beginning of growth resumption. 相似文献
3.
E. Or E. Belausov I. Popilevsky Y. Bental 《The Journal of Horticultural Science and Biotechnology》2013,88(2):190-194
SummaryIn warm-winter regions, the need for artificial means to compensate for the lack of natural chilling becomes a dominant factor for maintaining economic production of table grapes. However, in the absence of a reliable method of predicting the time of natural bud break, the application of the dormancy breaking agent hydrogen cyanamide (HC) entails the risk of serious bud damage if the application is mistimed. In several studies in temperate regions, concentrations of endogenous abscisic acid (ABA) were found to increase as the grape buds entered dormancy, and to decrease during winter months towards dormancy release. To assess the possibility of using bud ABA content as a marker for the stage of bud dormancy in grapevines grown in hot regions, we evaluated the dormancy depth of grape buds in the course of the dormancy cycle and monitored their endogenous ABA content in cv. Perlette vines grown in the Jordan Valley. The endogenous ABA content was highest at maximum dormancy. However, the decline in ABA content was not correlated with dormancy release. The involvement of ABA in dormancy induction and maintenance is discussed. 相似文献
4.
H. G. Mcpherson C. Jill Stanley I. J Warrington 《The Journal of Horticultural Science and Biotechnology》2013,88(5):737-747
SummaryA range of temperatures (7°C, 10°C or 13°C mean) were imposed under controlled conditions on four year old, container-grown ‘Hayward’ kiwifruit vines. The treatments were applied for periods of from one to four months during the dormant period from May to September (Southern Hemisphere). Following these treatments the vines were held at a “forcing” temperature of 16°C mean until flowering. The objective was to define the response of bud break and flowering in spring to temperatures experienced during the preceding winter. Cool winter temperatures dramatically increased flower numbers, increased the proportion of bud break, advanced the day of bud break, and increased the duration from bud break to flowering. These responses were much larger between 13°C and 10°C than they were between 10°C and 7°C. For any treatment duration, the temperature imposed during dormancy had no effect on the time of flowering. Two months at cool temperatures produced the greatest number of flowers per winter bud, with reduced numbers at three and four months. The proportion of winter buds that produced shoots showed a similar response. The Richardson chill unit is frequently used to describe the effects of winter chilling on kiwifruit. It proved unreliable as an index to integrate the effects of temperature and time on any of the developmental variables monitored in this experiment. 相似文献
5.
不同化学物质打破葡萄、桃休眠的研究 总被引:7,自引:1,他引:7
以保护地栽培的葡萄、桃为试材,对氰氨类、细胞分裂素、赤霉酸和KNO3打破休眠的效果进行了研究。结果表明,1.5%单氰氨、11%石灰氮可明显促使葡萄提前萌芽,提早着色9-10d;50mg/LGA3和100mg/L6-BA对打破休眠基本无效。TDZ与单氰氨混用提高萌芽率的效果最好。在2个葡萄品种上,均没有观察到单氰氨或石灰氮处理对果穗或果实品质性状的不良影响。在华光油桃上,没有观察到化学物质对提早开花或成熟有明显的作用。对葡萄和桃上应用化学物质打破休眠的有关问题进行了讨论。 相似文献
6.
VFL and VvTFL1 genes expression patterns and the effects of sucrose on the expression of VFL and VvTFL1 genes in different organs of the “Xiangfei” grapevine (Vitis vinifera L.) were investigated. VvTFL1 gene expression was detected in the meristem of the apical bud and lateral bud, but was not detected during inflorescence differentiation and flower organ development. After sucrose treatment, VvTFL1 gene expression increased in the apical bud, but decreased in the lateral bud. These results suggested that the VvTFL1 gene might be mainly involved in the apical growth process of shoots, and exogenous sucrose had an effect on the VvTFL1 gene by increasing shoot apical meristem initiation of apical buds. The VFL gene was expressed primarily during inflorescence differentiation and early flower organ development, but it gradually reduced in later flower development. After sucrose treatment, VFL gene expression increased in the inflorescence and small or middle flower, but a little change was seen in the large flower. These results suggested that the VFL gene plays important roles in the initiation of inflorescence meristems and the morphological formation of flower organs. Exogenous sucrose had an effect on VFL gene expression at the early stage of flower development. 相似文献
7.
In vitro bud and shoot organogenesis was investigated for the ornamental plants Eucalyptus erythronema var. erythronema, E. stricklandii and their interspecific hybrids cv. ‘Urrbrae Gem’ and ‘Hybrid 2.5’ by using 0.0, 0.1, 0.25, 0.5 or 1.0 μM BAP on apex and leaf explants. Callus developed on all explants and increased with all concentrations of BAP without significant differences between BAP concentrations. Buds formed on apex and leaf explants of E. erythronema and E. cv. ‘Urrbrae Gem’ especially with 1.0 μM BAP, but these buds rarely developed into shoots. Bud clusters formed on E. erythronema and E. cv. ‘Urrbrae Gem’ apex and leaf explants whereas E. stricklandii and ‘Hybrid 2.5’ produced fewer, individual buds on the explant. Shoots regenerated from apex explants of all genotypes with all levels of BAP, whereas few shoots of any genotype regenerated from leaf explants regardless of the number of buds formed. Shoots from apex explants could be multiplied successfully. Light microscopy showed meristems developed within the callus, and at the callus and bud surfaces. However, few shoots developed considering the level of bud and meristem formation. This report is the first for successful shoot organogenesis and multiplication in an ornamental eucalypt. 相似文献
8.
萝卜花芽分化过程中茎尖和叶片碳水化合物含量的变化 总被引:9,自引:0,他引:9
以萝卜冬性品种‘一点红’和春性品种‘短叶13’为材料,研究花芽分化过程中茎尖和叶片以及萌动种子碳水化合物含量的变化。萌动种子在5℃下处理20 d,然后在温暖(>15℃)、长日照(16h)下生长,于不同花芽分化时期测定可溶性总糖、蔗糖和淀粉含量。结果表明:在花芽分化期间,无论是茎尖或是叶片,可溶性总糖、蔗糖和淀粉含量的变化趋势在两个品种之间较为接近。随着花芽分化的继续,可溶性总糖含量呈先上升后下降的趋势;蔗糖和淀粉含量则一直呈现上升趋势,在花芽分化完成后再下降。叶片中可溶性总糖、蔗糖和淀粉含量始终低于茎尖。冬性品种的蔗糖和淀粉含量在整个花芽分化期间始终较低,但在花芽分化初期的可溶性总糖含量则高于春性品种。 相似文献
9.
The effect of defoliation (DEF) alone or combined with hydrogen cyanamide (HC) on dormancy state, fruit quality and yield of Anna apple cultivar was studied. Trees were manually defoliated on three successive dates, November 15th, December 1st and December 15th. The flower buds (FB) entered the endodormancy synchronized with vegetative buds (VB) for most of the treatments. Most of the treatments terminated endodormancy between January 27th and February 8th during the season 2004/2005 and between January 18th and February 8th during the season 2005/2006. The treatments were effective in dormancy release of FB and somewhat with VB. Defoliation on November 15th + HC recorded the lowest chilling accumulation needed to reach 50% bud break. All the treatments exceeded the control considering the percentage of flower (FBB) and vegetative bud break (VBB) either in the lab or at the field. Growing degree hours and the number of days required to reach each stage of fruiting were differed between the two studied seasons. The control and DEF on December 15th exceeded all the treatments regarding initial fruit set percentage (IFS). The defoliation treatments alone gave the highest yield (kg/tree). Defoliation + HC treatments gave the best fruit quality, while the control gave the least values. 相似文献
10.
J. Carreño S. Faraj A. Martínez 《The Journal of Horticultural Science and Biotechnology》2013,88(4):426-429
SummaryThe effect of hydrogen cyanamide (H2CN2) on budburst and fruit maturity of `Thompson Seedless' grapes was examined. Nine year old vines of cv. Thompson Seedless grafted on R.110 rootstock and supported on overhead tendone trellis (parral), were treated with either 2% or 4% of H2CN2, 53 and 67 d before expected budbreak and compared with unsprayed vines. The earliest treatment with 4% H2CN2 enhanced budbreak and advanced fruit maturity by 17 d. However, the same concentration applied 53 d before natural budbreak advanced the date of maturity by only 4 d. All the treatments increased significantly the percentage of budburst compared with the control. H2 CN2 had no significant effect on yield, but a positive effect on fruit quality. A higher index of maturity was obtained by the treatment: 4% H2CN2, 67 d before budbreak. All the treatments of H2CN2 induced more uniform budburst compared with the control. The best uniformity was obtained by the earliest spray using the higher concentration (4%). 相似文献
11.
Commercial fig production is relatively new to the Mediterranean-type climate Western Cape Province of South Africa. A lack of lateral branch development impedes tree structure development and therefore adequate yields of quality fruit. The chemical rest breaking agents, Lift® (thidiazuron 3 g L−1) at 6%, Dormex® (hydrogen cyanamide, 520 g L−1) at 4%, mineral oil at 4% and a combination of mineral oil and Dormex® at 2% each were evaluated in a split plot design in combination with tip-pruning vs. no-pruning to overcome apical dominance and increase complexity (Experiment 1). During the 2008/2009 season, an additional investigation was conducted to evaluate the use of thidiazuron and hydrogen cyanamide for harvest scheduling (Experiment 2). Dormex® at 3% and Lift® at 6%, were applied to dormant trees on 30 June 2008, 3 August 2008, 15 August 2008 or 30 August 2008. In general, Lift® can be used to increase the number of buds breaking in ‘Bourjasotte Noire’ and ‘Col de Damme Noire’, while tip pruning decreased bud break with a resultant increase in shoot length. Dormex® and oil combined decreased bud break in these two cultivars but was effective on ‘Noire de Caromb’. Where bud break was increased the resultant N + 1 shoot length was decreased. RBAs increased the number of fruit in both the breba and main crop of ‘Noire de Caromb’, but decreased fruit size of the breba crop. Our data are not conclusive as to what the reason for low lateral bud break might be but leans towards strong AD in seasons with 400 Utah CU or more, but might include some delayed foliation response in seasons with less than 200 Utah CH. 相似文献
12.
Effects of shading and thidiazuron + oil treatment on dormancy breaking,blooming and fruit set in apricot in a warm-winter climate 总被引:1,自引:0,他引:1
Overcoming dormancy represents one of the major limitations to fruit tree production in warm areas. High temperatures during the chilling period have a negative effect on breaking of dormancy. Shading of trees reduces the incidence of radiation and the temperature. Previous works on shading did not take into account the stage of dormancy. The aim of this work was to evaluate the effects of shading during different periods of endodormancy, in an area having relatively warm winters, and the effects of a treatment of thidiazuron ([TDZ] N-phenyl-N-1,2,3-thiodiazol-5-il-urea) and winter oil, on apricot blooming, fruit set and ripening. The study was carried out during three years which showed marked differences regarding chilling accumulation. Autumn shading did not affect blooming or harvesting. Regarding harvest date, 2–3 days of precocity were achieved by shading during endodormancy, relative to the control. The TDZ + oil treatment increased blooming percentage, made blooming more uniform and brought forward the blooming (by 7–14 days) and ripening (3–8 days) dates. However, pistil abortion percentage was strongly increased by using TDZ and winter oil when there was low chilling accumulation, which led to reduce fruit set percentage. Shading during late endodormancy produced 5 days precocity for the harvest date in the year with lower chill accumulation. Shading of trees during endodormancy and TDZ + oil treatment could be suitable for increasing precocity in warm-winter climates. Significant year-to-year variation has been shown for blooming, pistil abortion, fruit set and fruit/bud percentages. Correlations among these variables are also discussed. Under conditions of marginal chill accumulation, the distribution of chilling during autumn and winter had an important role in the overcoming of dormancy, blooming and fruit set. 相似文献
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15.
Axillary buds from 1-year-old twigs of European aspen (Populus tremula L.) were used for propagation of indigenous aspen clones for further phytoremedial studies. The most intense bud development was seen after the break of dormancy, i.e. from the middle of February until mid-March. Lower infection rates were observed from the axillary buds collected at an urban forest border in comparison to a forest location, accompanied by higher percentages of browning. The optimal medium for shoot induction primarily via callus cultures was Murashige and Skoog mineral salts medium (MS) supplemented by 20 μM zeatin riboside and 1 μM indol acetic acid. The shoots were rooted in half-strength MS medium supplemented by the same hormones, after which they were successfully transferred to a commercial soil mixture. The protocol for aspen propagation is proposed. 相似文献
16.
在温室大棚栽培"晚红"葡萄的生产中,升温前1周,应用含50%单氰胺的果树破眠剂2号喷布葡萄冬芽芽眼。结果表明:应用果树破眠剂2号20倍液催芽,催芽效果好于石灰氮,萌芽期比涂抹石灰氮提前7d,花期提前6d,萌芽率提高16.2%,坐果率提高9.1%,可在生产中代替石灰氮应用。 相似文献
17.
《Scientia Horticulturae》2005,105(2):223-240
Endogenous carbohydrate contents and availability in structures near the meristematic zone (scales, cushion, part of stem) during winter with and without sufficient chilling were investigated. Insufficient chilling is known to provoke an abnormal pattern of budbreak and development in temperate zone fruit trees cultivated in warm climates. Mild temperatures applied during winter to strictly floral buds, as is the case in peach, are known to provoke the necrosis of flower primordia in the buds. One of the hypotheses to explain this is that carbohydrate fluxes to the buds are impeded and/or that internal reserves are completely used up. Carbohydrate availability and bud survival were compared between peach trees under natural temperate conditions and under complete deprivation of cold, by keeping trees in a greenhouse with temperature constantly above 15 °C from early October to the first sign of necrosis in flower buds. Concentrations and carbohydrate contents were compared during a little more than 2 months (beginning mid-December) before the first signs of necrosis in flower buds. Results showed that cold deprivation deeply disturbed carbohydrate dynamics, blocking the import of carbohydrates into vegetative and floral primordia, even though sucrose and sorbitol concentrations within these structures remained high. Conversely, soluble carbohydrates accumulated strongly in bud scales and in the cushion beneath the primordia. This suggests a strong diversion towards structures close to the primordia under cold deprivation. However, since sucrose and sorbitol concentrations in the floral primordia remained high, necrosis could be the consequence of the inability to use sucrose and sorbitol reserves rather than the result of a lack of available carbohydrates. 相似文献
18.
Stem cuttings of peach, nectarine, plum and apricot, obtained from 1-year-old shoots at leaf drop in autumn, were exposed at a constant 3.0 ± 0.1 °C to simulate different chilling accumulation treatments (0, 500, and 1000 chilling hours). A set of 10 excised shoots was forced to budbreak after chilling accumulation; a second set of 10 excised shoots was used to analyse sugars, starch, and ammonium-, nitric- and proteinaceous-nitrogen content in the bark tissues. Sorbitol, fructose and glucose were the main sugars in the bark tissues, whereas sucrose and rafinose showed the lowest quantities in all Prunus sp. studied. Sorbitol and starch concentration decreased whereas glucose and fructose concentration increased with chilling. Ammonium-nitrogen showed the more dramatic increase with medium chilling treatment, decreasing again at high chilling exposure. No modifications in proteinaceous- and nitric-nitrogen levels were observed due to chilling. Chilling treatments increasing flowering intensity showed high ammonium- and proteinaceous-nitrogen content in the bark tissues of the stem cuttings, whereas those reducing flowering intensity showed high starch and nitric-nitrogen content, in three of the four Prunus sp. studied. Ammonium-nitrogen content gives the highest correlation with flowering intensity. 相似文献
19.
Norberto Gariglio Diego E. González Rossia Marisa Mendow Carmina Reig Manuel Agusti 《Scientia Horticulturae》2006
Stem cuttings were obtained from 12 peach and nectarine cultivars during leaf fall, placed in plastic bags at 3.0 ± 0.1 °C to simulate 0–800 h of chilling and forced to budbreak at 20.0 ± 1.0 °C for a period of 6 weeks. Some cultivars showed high blooming and leafing without exposure to chilling; chilling enhances leafing and blooming but the percentage increment was higher in leaf buds. In general, maximum budbreak was reached with less chilling accumulation (<100–200 h) in flower buds compared with leaf buds; excessive chilling caused a reduction of the percentage budbreak in flower but not in leaf buds. Additionally, chilling modified the proportion of blooming that occurred before leafing. In non-chilled shoots, blooming occurred earlier than leafing, except in cv. ‘San Pedro 16–33’ but the proportion of blooming before leafing decreased significantly with chilling in most cases. By studying the mean time to budbreak, we conclude that the flower bud generally has a lower intensity of rest; the intensity of rest declines at a slower rate in flower than in leaf buds with chilling; flower buds had greater heat requirements than leaf buds when the chilling requirement had been covered, so that each peach cultivar had a point of critical chilling accumulation below which blooming tended to occur earlier, and above which leafing tends to occur first. Flower and leaf buds had different depths of endodormancy but similar chilling requirements in the majority of peach and nectarine cultivars studied. Finally, different varieties with similar chilling requirements showed different responses to chilling. Therefore, the cutting test measuring the response of vegetative and floral buds provides considerable information on the characterisation of the variety, compared with the sole and traditional data of chilling requirements. 相似文献