leaf bud

Controlling Growth of Root Bud and Leaf Bud during Wheat Germination

小麦发芽过程中抑制根叶芽生长的研究

Studies on Chemical Constituents in the Leaf Bud and Flower Bud of Cotton

棉花叶芽和花芽化学组分的研究

DNA damages of Osmanthus fragrans leaf bud cells induced by different levels of formaldehyde air pollution

不同浓度的甲醛空气污染对桂花叶芽细胞的DNA损伤作用

An elementary research report concerning the optimum rooting pattern of western azalea tissue culture with leaf bud

洋丁香花芽、叶芽、芽位的分布规律叶芽组培西洋杜鹃最佳生根途径试验研究初报

With CK , on December 26 , the index of bud break of leaf bud was 30.72 % , and dormancy was broken .

而CK在12月26日叶芽萌芽指数达30.72%，叶芽解除自然休眠，花芽在12月30日解除自然休眠。

In this paper the suitable ecological conditions for the leaf bud of ginkgo to take roots are probed by the cuttage test of simple and fascicular leaf buds of ginkgo .

通过对银杏单叶芽和丛状叶芽扦插的试验研究，探索出适宜于银杏叶芽生根的生态环境条件。

The result showed that the callus could be effectively induced from the leaf bud cell of soybean sprout cultured in B_5 medium at pH 5.0 and the production of Vc was most .

结果表明：叶芽在pH值为5.0的B5培养基中，能有效诱导愈伤组织，且目标产物Vc积累最多。

The Effect of Gamma Irradiation on Shoot Regeneration from Leaf and Bud Growth of Pear and Apple in Vitro

γ-射线对苹果和梨离体叶片不定梢再生及芽生长的影响

Research on the adventitious buds induced from the leaf of bud mutant of Populus tomentosa

芽变毛白杨叶片诱导不定芽的研究

From leaf , bud and shoot 81.7 % , 79.8 % , 84.2 % callus was inducted .

叶片、芽、茎段的诱导率分别达到81.7%、79.8%、84.2%。

The leaf , bud , bast and xylem of type C plant had no components of type A , and showing that the above-ground of type C was already pure .

深州杨C型植株的叶、芽、韧皮部、木质部已经检测不到深州杨A型的成分，说明深州杨C型的地上部分已经纯合；

Peroxidase isoenzymes of leaf , bud and shoot bark are determined for some mulberry varieties by the means of the tabular electrophoresis with the supporter of starch gel .

用淀粉凝胶作支持物的平板电泳法，以叶、芽和茎皮为材料作桑若干品种的过氧化物同工酶分析。

Plant height 、 growth rate of leaf 、 bud numbers of individual plant 、 boll numbers of individual plant of cotton were superior to other two areas ', with desert improving temperature effect becoming strong , 40 days after seeding .

出苗40d以后，随着沙漠增温效应的作用加强，沙漠区的棉花株高、出叶速率、单株蕾数、单株铃数都表现出优于其他两个区域棉花的明显优势。

The results showed that glucosinolate contents were different among rape plants and organs including root , stem , leaf , bud andflower , siliqua , siliqua epidermis and rapeseed in the3 cultivars .

结果表明，品种间在植株和根、茎、叶、蕾花、角果、果壳、种子等器官上的含量是不均一的，并因生育期不同而呈一定的规律性变化；

Ginkgo seedlings of different ontogenetic stages were used for studying the relationships among ontogenetic stages and the content of endogenous hormones , such as GA 3 , ZT , IAA and ABA in leaf and bud tip .

以不同年龄银杏实生树为试材，研究芽尖和叶片中内源激素赤霉素（GA3）、玉米素（ZT）、吲哚乙酸（IAA）和脱落酸（ABA）含量与个体发育阶段的关系。

Effects of complex potassium chlorate on nutrient content of longan leaf and flower bud formation

复合氯酸钾对龙眼叶片营养元素含量及成花的影响

Feasible cutting time for producing alfalfa leaf meal was bud appearing to 10 % flowering phase .

生产紫花苜蓿叶粉适宜刈割期为现蕾至10%开花。

Variation of Mineral Nutrient Content in Rosa rugosa cv . Plena Leaf at Flower Bud Differentiation Stage

平阴玫瑰花芽分化期叶片矿质元素含量动态变化

The evaluation of the characteristics of the tea is rated in the condition of the normal production process , spring tea , a bud with a leaf and a bud with two leaves .

在正常制程、春茶、一芽一叶与一芽二叶的状况下，所评鉴出的茶质特色。

The contents of the nine mineral nutrient elements in the Rosa rugosa cv . Plena leaf at flower bud differentiation stage were Ca > K > P > Mg > Fe > Mn > B > Zn > Cu .

平阴玫瑰叶片中9种矿质营养元素含量按高低排序为：Ca>K>P>Mg>Fe>Mn>B>Zn>Cu。

Study on ` Red Globe ' Grape Leaf and Petiole Adventitious Bud Regenerating System

‘红地球’葡萄叶片、叶柄不定芽再生体系的建立

Study on Muscari botryoides Mill Leaf and Bulb Adventitious Bud Regenerating System

葡萄风信子叶片、鳞茎不定芽再生体系的建立

GA_3 applied in the fall delayed leaf abscission , promoted bud sprouting and flowering , and increased flowering rates and flower diameter of peony .

秋施GA3可使牡丹落叶期延迟，萌芽期和开花期提前，并提高牡丹的开花率，增大了花径。

Durign the cotton growing season , the dry matter distribution has transferred as following true leaf → stem → bud and flower → young boll → boll shell → seed cotton .

地上部干物质分配中心随生育进程发生着如下动态转移：真叶→茎枝→蕾花→幼铃→铃壳→籽棉。

Both the activity of CAT in NO. 2 leaf and NO. 3 leaf under the bud are significantly different among 3 experimental tea cultivars ( p < 0.05 ) .

无论是芽下第2叶还是芽下第3叶CAT活性品种间的差异都达到了显著水平（p＜0.05）。