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不同浓度赤霉素对打破洋桔梗簇叶化的影响 总被引:2,自引:1,他引:1
试验研究不同浓度的赤霉素对打破洋桔梗簇叶化的影响。结果表明:摘心处理2个月后,CK(清水)处理的洋桔梗90%发生簇叶化,表明赤霉素对降低洋桔梗簇化率有效。赤霉素浓度对洋桔梗生长势的影响为150 mg/L100 mg/L50 mg/L清水,150 mg/L赤霉素处理对洋桔梗株高、茎粗和小花数影响显著,但对叶片数影响不显著,从而证明赤霉素是通过促进节间的伸长来促进整株植株生长,而不是通过促进节数的增加来促进植株的生长。 相似文献
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《中国果树》2016,(3)
针对浙江省设施栽培‘红颊’草莓出现的花而不实问题,研究不同种苗来源和育苗期药剂处理对草莓花粉活力和产量的影响。结果表明:育苗期喷施200 mg/L多效唑,在草莓苗定植成活率、花序数、产量、大果率和花粉活力表现上,效果好于喷施300 mg/L多效唑,与对照相比,除了大果率其他指标都有所降低;在2个浓度多效唑处理15 d后加施20 mg/L赤霉素,各项指标均明显提升,尤其200 mg/L多效唑加20 mg/L赤霉素处理后,成活率和大果率显著提高;83 mg/L烯唑醇无论加施20 mg/L赤霉素与否,都不利于草莓的开花结果。丛生苗和疑似小叶苗花粉活力非常低,畸形率极高,几乎没有商品果,这可能是‘红颊’草莓花而不实现象的主要因素。建议在育苗后期采用200mg/L多效唑加20 mg/L赤霉素控苗,组培苗圃发现丛生苗、田间发现小叶苗及疑似小叶苗及时拔除。 相似文献
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以"龙泉大五星"枇杷为试材,分别用萘乙酸、比效隆、赤霉素等植物生长调节剂混合配成不同浓度处理,研究其对枇杷果实生长的影响。结果表明:处理E(比效隆40mg/L+赤霉素350mg/L+萘乙酸16mg/L)可有效促进枇杷果实膨大,提高果实品质。 相似文献
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以Co60γ射线为辐射源,研究了辐射剂量200,300,500,800,1 200,1 500和2 000 Gy对甜瓜单倍体诱导率的影响. 同时在辐射花粉授粉6 h后,用1,10,50,100和200 mg/L的2,4-D,以浸蘸柱头和节间注射2种处理方法,研究2,4-D对甜瓜辐射花粉诱导单倍体的影响.研究结果表明,辐射剂量在200~1 500 Gy时,坐果率低于对照(96.7%),但不同剂量间坐果率没有明显的差异,都达到80%以上;而在2 000 Gy时坐果率明显降低,仅为63.3%.2,4-D的两种处理方法在低浓度(1 mg/L)时,对坐果率没有影响;但随2,4-D处理浓度的升高,坐果率呈下降趋势.浸蘸柱头对出胚率和植株再生率没有明显影响,而在100 mg/L浓度下采用节间注射处理时出胚率和植株再生率分别为2.8%和1.09%,明显高于其他处理. 相似文献
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不同处理方法对梧桐种子萌发和幼苗生长的影响 总被引:2,自引:0,他引:2
以梧桐(Firmiana simplex(L.)W.F.Wight)种子为试材,研究不同浓度赤霉素、水杨酸、α?萘乙酸以及层积处理对梧桐种子萌发率的影响,并研究不同浓度赤霉素和α?萘乙酸2种激素对梧桐幼苗生长的影响。结果表明:浓度为0.075g/L的水杨酸处理和层积处理,能够显著提高梧桐种子的萌发率;0.050、0.075g/L的α?萘乙酸能够分别显著促进梧桐幼苗主根以及主茎的生长,而赤霉素和α?萘乙酸对梧桐叶片的生长都具有抑制作用,浓度越高,叶片越小。 相似文献
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以黄瓜(Cucumis sativus L.)幼苗为试材,研究了不同浓度极多产溶液(壳聚糖的酸性溶液)的处理对其低温胁迫后的生长势和生理生化特性变化的影响.结果表明:在低温胁迫后恢复生长过程中,极多产处理浓度为100mg/L和200mg/L的黄瓜幼苗恢复生长较快,常温下恢复生长15d幼苗的光曲线净光合速率及活性氧清除酶SOD、APX和POD也明显高于对照,同时植株的株高、最大叶面积、鲜重和干重也都显著高于对照.说明适宜浓度的极多产处理能有效地促进冷胁迫后黄瓜幼苗的生长,对低温胁迫有一定的缓解效应. 相似文献
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赤霉素对非洲菊生长开花的影响研究 总被引:2,自引:0,他引:2
对非洲菊品种"洛斯"采用不同浓度的GA处理,研究其对非洲菊开花的影响。结果表明:赤霉素可使株高、叶片数、茎粗和叶绿素含量都有增长,不同浓度的赤霉素对花卉的品质影响不同,赤霉素以50 mg/L为最佳浓度处理。 相似文献
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采用73.0 mg/L的果蔬钙肥及1.25 g/L、2.5 g/L和3.75 g/L 3种浓度的氯化钙溶液对菜心进行叶面喷施,研究不同钙肥处理对菜心生长及品质的影响。试验结果表明,不同的钙肥处理均可促进菜心的生长发育,提高叶绿素含量、增加菜心的产量、改善菜心品质,但存在差异,73.0 mg/L的果蔬钙肥处理效果最好,低浓度氯化钙处理对菜心产量和品质影响很小,中浓度氯化钙处理影响比较大,高浓度氯化钙处理比中浓度处理效果差。在不同的生长发育期,作用效应有所不同,在菜心生长的初期各钙肥处理影响不大,生长中后期影响比较大。 相似文献
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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
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Partly cooled (5°C) tulip ‘Apeldoorn’ were treated with gibberellins GA3 and GA4 + 7 by vacuùm infiltration, with a view to defining conditions suitable for exploiting the effects of GA on forced tulips (faster flowering, control of stem extension, reduction of floral bud blasting).The first experiment showed that GA3 and GA4 + 7 were equally effective in reducing the glasshouse period following 6 or more weeks cold storage; with less than 6 weeks cold storage, effects were less marked. Stem length at flowering was reduced by GA treatments, particularly by GA3 and following more than 6 weeks cold storage. However, the vacuum infiltration method used (30 min at 10 torr) resulted in serious flower losses.Next, the effect of GA3 concentration (up to 1500 mg 1?1) was studied using vacuum infiltration treatments for 1–15 min at 20–510 torr, which resulted in fewer flower losses. Following 4 weeks cold storage, reducing pressure or increasing GA3 concentration reduced both glasshouse period and stem length, with no effect of duration of treatment; GA3 concentration was the only factor affecting flower length, which was increased. Following 8 weeks cold storage, increasing GA3 concentration, vacuum or duration reduced glasshouse period. With all 3 factors at their maximum levels, 16 days earliness was obtained compared with controls. With maximum earliness, stem length was reduced to about 23 cm, compared to about 26 cm for treatments giving about 1 week's earliness, and 32 cm for untreated controls. Increasing vacuum appeared the most economical way of obtaining earliness, 20 torr giving 7 days earliness even at only 250 mg GA3 1?1. Treatments giving earlier flowering also gave larger flowers. For comparison, there was little effect of soaking bulbs at atmospheric pressure even at 500 mg GA3 1?1 for up to 20 h.Further experiments, conducted with vacuum infiltration at 260 torr for 15 min, confirmed these GA effects using formulated GA3 (as “Berelex”) and GA4 + 7 (as “Regulex”). Effects of GA on stem length at flowering had disappeared by the time stems reached their final length. Comparisons with bulb injection of GA showed that this method required less GA than vacuum infiltration for similar effects, and that the greater effectiveness of GA4 + 7 compared with GA3 was less marked using vacuum infiltration. 相似文献