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不同矮化中间砧对‘长富2号’苹果生长特性及早果性的影响 总被引:1,自引:0,他引:1
《中国果树》2017,(5)
为筛选在甘肃陇东地区适合‘长富2号’苹果生长的矮化中间砧,研究了10种不同矮化中间砧对‘长富2号’幼树树体生长特性及早花早果性的影响。2013年春季栽植矮化中间砧芽苗(‘长富2号’/10个不同中间砧/新疆野苹果),供试的矮化中间砧分别为‘M26’‘M9’‘T337’‘M7’‘JM7’‘SH1’‘SH6’‘SH38’‘SCI’‘辽砧2号’,定植行株距4 m×2 m,授粉品种‘金世纪’,细长纺锤形整形。以中间砧‘M26’为对照,试验采用随机区组设计。结果表明:以‘SH1’和‘SCI’为中间砧时,能有效地控制树体、提早开花结果,丰产性强,3年生‘长富2号’树体花序坐果率均在80%以上;3年生树平均单株产量均达5.0 kg,折合667 m2产量为416.69 kg;抗逆性和适应性优于‘M26’。上述2个中间砧和‘M26’可在甘肃陇东地区及类似生态区域推广应用。 相似文献
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以15个矮化砧穗组合苹果苗为研究对象,以‘美乐富士/八棱海棠’和‘烟富3/高山海棠’为乔化对照,对其成活率、茎秆、枝条和叶片的生长指标进行了调查,并通过相关分析和主成分分析,以期了解不同矮化砧穗组合苹果苗在阿拉尔的矮化效果及生长适应性。结果表明:不同矮化砧穗组合苹果苗的成活率和生长指标差异显著,以T337和海棠为基砧的苹果苗成活率高、生长指标较优,而以SH和甜茶做基砧的苹果苗成活率低,并且生长缓慢;结合相关分析和主成分分析,初步推断‘华瑞/SH/海棠’‘礼泉富士/M26/海棠’‘华硕/M26/海棠’‘华星/M26/海棠’‘锦绣红/M26/海棠’‘华瑞/T337’和‘华硕/T337’7个矮化砧穗组合适宜在阿拉尔引种栽培;此外,成活率、株高、接穗直径、砧木直径、结合部直径、发育枝比例、短枝比例、叶绿素含量和叶柄长9个指标可用于评价砧穗组合的矮化及生长适应性。 相似文献
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苹果矮化砧木新品种‘青矮1号’ 总被引:2,自引:1,他引:1
苹果矮化砧木‘青矮1号’是以‘M2’为母本,‘M9’为父本杂交选育而成。树冠较小,节间长1.6 cm。嫁接基砧的成活率84.0%,嫁接品种的成活率87.8%,3年生矮化中间砧果苗出圃率73.8%。嫁接的‘红富士’盛果期树高2.93 m,冠径3.10 m;嫁接口无肿大,不发生气根,品种/中间砧的干周比值0.95;2年生结果株率61.5%,7 ~ 14年生树平均产量43 380 kg · hm-2,果实可溶性固形物14.9%,硬度8.3 kg · cm-2,果形指数0.86。适宜在山东、河北、山西、陕西等矮化苹果主产区应用。 相似文献
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矮化中间砧对‘嘎拉’苹果树前期生长的影响 总被引:1,自引:0,他引:1
《中国果树》2016,(1)
以‘平邑甜茶’为基砧,以‘M26’‘B9’‘CG80’‘Mark’和‘崂山柰子’为中间砧,嫁接苹果品种‘嘎拉’,以‘平邑甜茶’上直接嫁接‘嘎拉’为对照,研究中间砧对‘嘎拉’树体前期生长发育的影响。结果表明:不同砧木对‘嘎拉’顶芽形成率从高到低依次为‘M26’‘B9’‘崂山柰子’‘CG80’‘平邑甜茶’‘Mark’;不同砧木对‘嘎拉’分枝角度,2008年从大到小依次为‘平邑甜茶’‘崂山柰子’‘Mark’‘M26’‘B9’‘CG80’;嫁接于各矮化中间砧的‘嘎拉’树1年生枝条长度、粗度、节间长度明显小于直接嫁接于‘平邑甜茶’上的‘嘎拉’树;嫁接于各砧木上的‘嘎拉’树枝量明显少于直接嫁接于‘平邑甜茶’上的‘嘎拉’树;嫁接于各砧木上的‘嘎拉’树株高、树干横断面积和冠径从小到大顺序一致,均依次是‘M26’‘CG80’‘B9’‘崂山柰子’‘Mark’‘平邑甜茶’,其年增幅,‘平邑甜茶’最大,‘M26’最小;与对照相比,除‘Mark’外,矮化中间砧都提高了‘嘎拉’成花能力。 相似文献
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【目的】探讨富士苹果优系‘烟富7’不同砧穂组合的生长结果习性,以期为‘烟富7’的现代栽培以及优质和高效提供参考依据。【方法】2008年田间定植‘烟富7’/八棱海棠、‘烟富7’/M7、‘烟富7’/M9,各年份连续调查不同砧穂组合的生长及结果习性对树高、冠径与干周、开花株率、总枝量与枝类组成、产量以及品质的影响。【结果】‘烟富7’嫁接在不同类型的砧木上,树体的大小(包括树高、冠径、干周)为八棱海棠>M7>M9;枝类组成上,矮化程度的不同,666.7 m2枝量、短果枝比例显著增加,营养枝比例显著降低;在早果丰产性上,‘烟富7’与各砧木组合均是第2年形成花芽,第3年形成产量,‘烟富7’/M9第5年进入盛果期,‘烟富7’/八棱海棠与‘烟富7’/M7进入初盛果期;随着矮化程度的增加,产量显著增加,进入丰产期后各砧穂组合差异不显著,‘烟富7’/M9果实品质(除果形指数、果实硬度)显著高于‘烟富7’/八棱海棠。【结论】‘烟富7’嫁接在不同砧木的生长势大小为八棱海棠>M7>M9;666.7 m2枝量及短果枝比例顺序则相反,M9>M7>八棱海棠;早果性和丰产性以M9优于M7及八棱海棠,因此‘烟富7’嫁接M9有利于早实丰产。 相似文献
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苹果矮化砧木‘辽砧2号’选育 总被引:2,自引:0,他引:2
从1135系的助列涅特与M9杂交实生苗中选出优良苹果矮化砧木—辽砧2号(原代号80-1-6),经过22年田间观查和区试鉴定,其矮化性、早果性、丰产性、生根性与M26相近,适应性强于M26,以其为中间砧的富士树栽后6年进入盛果期,平均株产为23.5kg,同龄M26为17.2kg;8年生树冠积为4.07m3,同龄M26为4.58m3,树体存活率较M26高55%,平均每666.7m2产量1000kg以上;与基砧山定子和生产上主栽的富士系、元帅系、国光系等品种亲和性良好,以自根砧和中间砧方式利用均可。 相似文献
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《International Journal of Fruit Science》2013,13(3):27-31
ABSTRACT The ‘SJM15’ Apple Rootstock is s a new dwarfing apple rootstock developed at the Agriculture and Agri-Food Canada (AAFC) Research Station, St-Jean-sur-Richelieu, Quebec. It produces dwarf trees equal to or slightly smaller than ‘Ottawa 3’ (O.3) and ‘Malling 9’ (M.9). It was released because of its superior hardiness, ease of propagation, and better efficiency compare to ‘O.3’. 相似文献
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The aim of the study is to determine the effect of different growth vigorous rootstocks on phenolic compounds in leaves of apple. For this purpose it was used the leaves of cultivar ‘Red Chief’ grafted on dwarf (M9), semi-dwarf (M26) and semi-vigorous (MM106) rootstocks. During mid-July, the leaf samples were taken from the middle part of annual shoots. Phenolics of the leaves were determined by HPLC analysis. While significant differences among the rootstocks for p-hydroxybenzoic acid, eriodictyol, ferulic acid and p-coumaric acid were detected, these differences were insignificant for gallic acid and quercetin. It was shown that semi-vigorous rootstocks (MM106) had higher phenolic contents in total than the other two dwarf rootstocks. In addition, apigenin-7-glucoside, chlorogenic acid, caffeic acid, rosmarinic acid, epicatechin, syringic acid, catechin, rutin, resveratrol, hesperidin, naringenin, luteolin, apigenin and acacetin could not to be detected. Data showed that there is the relationship between growth vigour and phenolic contents of apple leaves. Especially, p-hydroxy benzoic acid and p-coumaric acid contents were higher in semi-vigorous rootstock than in dwarf rootstock. 相似文献
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‘青矮3号’是1978年从苹果矮化砧木M9的自然实生苗中选育而成的半矮化砧木新品种。其树冠中等,长势中庸;作中间砧嫁接红富士树,3年生树全部结果,7 ~ 14年生树平均产量42 270 kg · hm-2(M26嫁接树为34 785 kg · hm-2),丰产性强;嫁接树的果实着色好,品质优,果形指数、果实硬度和可溶性固形物分别为0.87、7.8 kg · cm-2、14.3%,与M26嫁接树相当。嫁接红富士的盛果期树,树高3.83 m,冠径3.57 m,为M26嫁接树的130%,属半矮化砧木;干性强,可不设立柱栽培;适宜在山东、河北、山西、陕西等苹果主产区应用。 相似文献
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苹果柱型基因的ISSR分子标记研究 总被引:15,自引:1,他引:15
以普通型苹果品种‘富士’和柱型苹果‘舞姿’以及其杂交后代的柱型与非柱型实生苗为试材, 建立了苹果的ISSR ( Inter-Simple Squence Repeat polymorphic DNA) 分子标记体系, 并将ISSR 标记用于苹果柱型基因Co 的遗传分析。结果表明, 在20μL 反应体系中各组分的用量为Taq DNA 聚合酶1U、Mg2+ 的浓度为2.5 mmol·L-1 、模板DNA 用量20 ng、引物浓度0.2μmol·L - 1及退火温度52 ℃, 80 %引物具有良好的扩增能力。调整模板DNA 的用量、引物浓度及退火温度能够优化苹果ISSR-PCR 扩增体系。从所筛选的65 个引物中获得了35 个ISSR 标记, 其中33 个标记呈现1∶1 分离, 可用于苹果柱型基因的遗传分析。 相似文献
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The influence of 9 rootstocks (M2, M7, M25, M26, MM104, MM106, MM109, MM111 and seedling) on fruit quality at harvest and after storage of ‘Wellspur Delicious’ (WS) and ‘Goldspur’ (GS), and of 3 rootstocks (M7, M26 and MM106) on fruit quality of ‘Red King Delicious’ (RK) and ‘Golden Delicious’ (GD) apple (Malus domestica Borkh.) was evaluated during a 4-year period. Fruits from trees on M26 were larger, developed earlier color and soluble solids (SS), and maintained higher levels of acidity (at harvest and during storage) in comparison with other rootstocks. Fruit from trees on M2 tended to have high SS. Fruit color from trees on MM104, MM106 and MM109 tended to be comparatively poor. There were significant rootstock effects on SS, starch, acidity, color, circumference, weight and box size. 相似文献
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O. Callesen 《The Journal of Horticultural Science and Biotechnology》2013,88(2):305-313
SummaryThe apple rootstocks M.9, M.26, and MM.106 were evaluated for their efficiency in bringing ‘Discovery’ apple trees into production. The experiment, carried out over a ten- year period compared two planting densities at 1666 and 3333 trees per ha. Tree vigour differences between rootstocks were measured in term of trunk growth, tree volume, weight of branches pruned off and final weight of the above-ground parts of the trees. Fruit production is presented both as total yield and as the weight of first class fruit. Fruit colour development is also shown. Cropping efficiency is calculated and presented in relation to the different vigour measurements. The results confirm that ‘Discovery’ is slow to come into production. M.9 was the most productive rootstock, but due to vigour differences MM.106 gave the same yields per tree, although the latter had the lower yield efficiency. M.26 performed poorly; its vigour was similar to M.9 but it produced the lowest yields. 相似文献
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SX系列矮化砧对苹果生长结果的影响 总被引:2,自引:0,他引:2
SX系列苹果矮化砧是用富平秋子分别与M26、M9、M7矮化砧杂交育成。1997年以富平秋子作基砧,以SX系列无性砧木、M26砧木(CK)作中间砧嫁接秋富1品种,在陕西渭北建园试验,中间砧基本埋入土中,地面露出3~5cm。经连续7年对各组合的鉴定表明,SX系列的致矮作用相当或高于M26,嫁接品种的累计产量显著高于M26,果实着色指数、可溶性固形物含量、果肉硬度、果形指数均优于或与M26相当,果个普遍大于M26,大部分SX系列的抗旱性和抗偏斜能力优于M26。其中SX126、SX13、SX138和SX140综合性状优良,可在渭北黄土高原苹果产区及条件相同的地区应用。 相似文献