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Gisela5为德国培育的甜樱桃矮化砧木,因其矮化性能好、抗逆性强、适应性广及与甜樱桃嫁接亲和力强等特点,在甜樱桃的矮化密植栽培中具有广阔的应用前景。由于其枝条发根能力较差、萌蘖少,用扦插及普通压条方法繁殖苗木较困难,所以当前生产上主要通过组织培养来繁育砧苗,但组织培养所需设备及技术要求较高,一般单位或农户很难做到,且组培苗价格较高,限制了该砧木的大面积推广。为此我们于2003 年春从山东果树研究所引入 Gisela5砧木大苗 1 000 株,进行了促根压条快速繁育甜樱桃苗技术研究,苗木当年可达 1 m 高,每667 m2(亩)产苗10 000… 相似文献
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甜樱桃是我国人民喜爱的水果之一,甜樱桃的发展除受品种制约之外,砧木也是限制其发展的关键因素,甜樱桃矮化砧木吉塞拉5号是德国用酸樱桃与灰毛叶樱桃种间杂交育成的三倍体甜樱桃砧木品种,其植物学特征同灰毛叶樱桃,在北美和欧洲各国应用广泛。吉塞拉5号于1998年引进我国,经7年 相似文献
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吉塞拉6号甜樱桃矮化砧木由德国育成。其植物学性状特点等同于灰毛叶樱桃,为酸樱桃与灰毛叶樱桃进行种间杂交培育的三倍体杂种,在欧洲北美广泛应用。该砧木1998年从美国引入我国.经7a(年)的区域试验和生产试验观察,与大多数甜樱桃品种亲合性良好,具有明显的矮化、丰产、早实性,抗病、耐涝、土壤适应范围广,固地性能好,抗寒,产量、效益高。2004年12月通过国家林业局林木良种审定委员会审定。 相似文献
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砧木是限制甜樱桃生产的关键问题之一。‘吉塞拉6号’,甜樱桃矮化砧木由德国育成.其植物学性状特点等同于灰毛叶樱桃.为酸樱桃与灰毛叶樱桃进行种间杂交培育的三倍体杂种.在欧洲、北美广泛应用。该种砧木1998年经美国引入我国.经7年的区域试验和生产试验观察.与大多数甜樱桃品种亲合性良好,具有明显的矮化、丰产、旱实性强、抗病、耐涝、土壤适应范围广、固地性能好、抗寒、产量效率高等优点.2004年12月通过国家林业局林木良种审定委员会审定(国S—SV—PCP-015-2004)。 相似文献
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B. H. Howard Wendy Oakley 《The Journal of Horticultural Science and Biotechnology》2013,88(6):891-897
Poor stands of ‘Queen Cox’ apple bud-grafted in summer onto M.9 rootstock were shown to be due to the scion bud not growing, or growing too late to produce a worthwhile ‘maiden’ tree, despite virtually all scion graft-chips forming unions with the rootstock. This problem was caused by raising the budding height to 30 cm above ground, as a method of increasing the height of lateral branches. The key element in higher budding which depressed subsequent scion bud growth was the complete removal of all rootstock shoots to a height of 35 cm to give a traditional ‘clean leg’ during the budding year. Removing rootstock shoots only at the budding position gave good stands of high quality trees. This appears to be a general effect, with the benefits of retaining rootstock shoots applying also to Malus tschonoskii when budded at 30 cm on M.9 rootstock. For both ‘Queen Cox’ and M. tschonoskii, failure of scion buds to grow vigorously often resulted in the development of ‘papery bark canker’ on the M.9 rootstock. The main benefit of root- stock shoots retained in the budding year was to ensure that scion buds grew early in the following ‘maiden’ year, whereas allowing these and new rootstock shoots to remain for the first two months of ‘maiden’ growth reduced the number of secondary scion buds which developed, and raised the height of laterals by delaying their emergence. 相似文献
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甜樱桃砧木离体叶片愈伤组织诱导及不定芽再生 总被引:5,自引:5,他引:5
叶片再生效率的高低直接影响目的基因转化的成功率,为建立稳定、高效的樱桃不定芽离体再生体系,以30~40d苗龄的甜樱桃砧木ZY-1的组培继代苗为试材,取上部幼嫩叶片或不含腋芽的茎段,分别从培养基生长调节剂配比、接种材料类型、叶片接种部位、接种方式以及培养条件等方面进行了不定芽再生技术研究。结果表明,培养基中添加7.0mg/L的6-BA与0.5~1.0mg/L的IBA配比时不定芽再生率和出芽数均较高,TDZ和NAA不适于诱导ZY-1叶片再生不定芽;接种继代苗茎段比叶片再生率高;接种叶片以选择嫩叶横切2刀、远轴面向下接触培养基的方式为好;叶片不同部位处理以带叶柄的基部叶块最易再生;叶片接种后在25℃室温条件下,先暗培养3周再照光,利于不定芽的再生。 相似文献
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SummaryAn experiment with Malus demonstrated that a large proportion of the transplanted root system was lost through death and decomposition soon after transplanting in the open ground. Mortality of the roots was not influenced by the rootstock cultivars or by defoliation but increased significantly with time. In the first month, shoots of maiden trees of Malus transplanted in June when in-leaf grew, but roots did not. Subsequently, most of the new roots on the rootstock M.9 regenerated from the rootstock stem, whereas with MM.106 the old coarse roots (>2.0 mm diameter) initially present at planting were most important. Root growth occurred in concert with shoot growth such that a functional balance was maintained as shown by the existence of a constant root length:leaf area ratio over a large part of the growing season. Following transplanting, the trees appear to re-establish their optimal ‘functional’ ratio by way of a co-ordinating pattern of growth tending to correct any disturbance to the ratio resulting from transplanting. Defoliation in the early establishment phase caused only a temporary initial reduction in the root growth, but reduced all the shoot growth variables measured and increased the root length:leaf area ratio throughout the growing season. 相似文献
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以欧洲甜樱桃优良矮化砧木CAB-6p试管苗幼嫩叶片为试材,从基本培养基、激素配比、叶片生理状态和培养基中琼脂用量等方面对影响离体叶片再生的关键因素进行了研究。结果表明,CAB-6p试管苗幼嫩叶片以WPM为基本培养基再生效果最好,明显优于QL和DKW培养基,1/2MS培养基再生效果最差;最佳激素配比是BA2mg/L+IAA2mg/L,用IBA或NAA替代IAA出现愈伤组织生长量大但再生率低;CAB-6p试管苗顶部新发出合拢的幼嫩叶片再生能力最高,半展开的幼嫩叶片和完全展开的幼嫩叶片未能再生植株;用4.5g/L琼脂配制偏软的再生培养基明显有利于提高离体叶片的再生效率。通过以上几个方面的优化,建立CAB-6p试管苗幼嫩叶片高效离体再生技术体系,再生率可稳定地保持在90%左右,平均每叶再生4~5芽。 相似文献