此外,两个种的维管束结构及叶缘结构等也有很大的差异。
The structures of vascular bundle and leaf margin were also different.
重瓣中蓝色波折星型花。中到深绿色尖型叶,锯齿叶缘。大型。
Double medium blue frilled star. Medium-dark green, pointed, serrated. Large.
用病菌培养滤液对幼苗浸根可使烟草幼苗叶片快速萎蔫,叶缘干缩。
Quick wilting of tobacco seedling was resulted from cultured filtrates by seedling root-soaking. Wilting symptom appeared and leaf margin dried-up.
本种在茎的分枝,叶形,叶缘,和花序梗长度方面显示了巨大变化性。
This species shows great variability in stem branching, leaf shape, leaf margin , and peduncle length.
通常从老叶的叶尖和叶缘开始出现带白色的,黄色的或橙色的褪绿斑点或条纹。
Appearance of white, yellow, or orange chlorotic spots or stripes on older leaves, usually starting from the leaf tips and margins.
针对甘肃秦安县苹果叶缘焦枯发生严重的情况,对该地果园叶片和土壤进行了分析。
The apple leaf and soil in orchard of Qin 'an county of Gansu were investigated.
叶片形态模拟是植物建模和可视化的重要组成部分,而叶缘是叶片的一个重要形态特征。
Simulation of leaf shape is the most important part in plant modeling and visualization, and leaf margin is an important feature of leaf shape.
单瓣深紫到蓝色花,细的白色镶边。中绿色蛋形叶,叶面光滑多毛,锯齿叶缘,红色叶背。迷你型。
Single purple - blue / thin white edge. medium green, ovate, glossy, hairy, serrated / red back. miniature.
叶沿茎松散生长或成半莲座型,叶倒披针形,骤尖,3 -6厘米长1 -2,4厘米宽,6-8毫米厚,绿色,叶缘红。
Leaves diffuse along the stem or subrosulate, oblanceolate, cuspidate, 3 – 6 x 1 – 2,4 cm, 6 - 8 mm thick, green, margin red.
缺钾的苜蓿叶片:大量褐色坏死斑点经常在叶尖边缘附近或叶缘上,最初是绿色但不久就扩展成狭小的褐色烧焦状边缘,直至枯萎。
Profuse brown necrotic speckling of leaflets usually close to, or just within marginal areas which are initially green but later develop narrow brown scorched rims and then shrivel.
干烧心的始发病部位主要在叶缘和叶柄,症状主要表现为斑点和枯边,水渍只有50%的材料表现,心叶的症状表现与品种有密切关系。
The starting of tip-burn mainly on leaf's marginal and stem. Spot and rot are it's main symptoms, only 50% material show water strain. There is deep relation between symptoms and varieties.
叶:倒卵状匙形,尖,1.5 -3厘米长,0.8 - 2.5厘米宽(在最宽的部分),叶为带有白霜的蓝灰色,叶背面常有红色斑点,叶缘红色。
Leaves obovate-spatulate, cuspidate, 1,5 – 3 x 0,8 – 2,5 cm wide at the widest part, glaucous bluish-grey, often red-flecked beneath, margins reddish.
左区能显示整个左室、左房的大小,二尖瓣的形态与对合情况,二尖瓣脱垂者可见叶瓣游离缘处某一区域向左房脱出。
In left area the contour and size of the left ventricle and left atrium and the shape and coaptation of the mitral valve could be visualized.
叶互生,具叶柄;叶片卵形到线形,边缘全缘或近全缘。
Leaves alternate, petiolate; leaf blade ovate to linear, margin entire or nearly so.
叶互生,通常单叶,具叶柄;叶片边缘全缘或有时具圆齿。
Leaves alternate, usually simple, petiolate; leaf blade margin entire or sometimes crenate.
叶互生,具叶柄,薄革质或纸质,上半部边缘具牙齿,很少全缘,侧脉2或3对,低的离基三出脉。
Leaves alternate, petiolate, thinly leathery or papery, margin dentate in apical half , rarely entire, lateral veins 2 or 3 pairs, lowest triplinerved.
方法通过DTI - M型模式检测33例健康人心尖四腔观和二腔观二尖瓣环后瓣叶外侧缘的运动。
Methods Mitral annular motion in 33 cases of normal subjects form apical four-chamber view and two-chamber view were detected with DTI-M mode.
此外上游静子尾迹以及动叶尾缘出口膨胀波等也是产生转子叶片表面非定常力的因素。
In addition, the wake interaction of upstream blade row and the expansion wave at rotor exit also cause an unsteady force acting on the downstream rotor blade surface.
叶互生,革质,椭圆形或倒卵状长圆形,长7-15厘米,宽5 -8厘米,全缘,背面密被灰色短绒毛。
Leaves alternate , leathery , elliptic or obovate - oblong , 7 - 15 cm long and 5 - 8 cm wide , entire , densely grayish tomentellate.
采用数值模拟的方法,研究了涡轮叶片尾缘斜劈缝气膜冷却的流场特性,及其对叶背面尾缘温度分布的影响。
Numerical methods are used to investigate the film cooling effect of turbine guide vane's trailing edge.
在叶栅尾缘附近存在着部分回流区域。
根据对崖白菜的腊叶标本和武汉植物园栽培的崖白菜活体植物的研究,结合崖白菜的野外调查,认为全缘叶崖白菜应作为崖白菜的异名处理。
Based on the study of herbarium specimens together with living plants cultivated at the Wuhan Botanical Garden, as well as field investigation, Triaenophora integra h.
秋天,是一个叶落纷飞的季节,也是一个邂逅相遇的季节,缘深缘浅,皆因爱深爱浅。
Autumn, is a leaf falls down season, is also a season, because of deep love love is light.
花开花落,缘起缘灭。花谢是因开的疲倦,叶散是为宁静致远。
The flowers bloom, The flower is open for tired, leaf powder is quiet.
试验结果表明:缘板模拟件、叶冠模拟件的材料疲劳性能分别为对比试件(和叶身中部材料性能基本相当)的5.93%和7.68%。
Tests results show that the fatigue performances of the shroud-like specimen and the platform-like specimen are respectively 7.68% and 5.93% those of the notched specimen.
试验结果表明:缘板模拟件、叶冠模拟件的材料疲劳性能分别为对比试件(和叶身中部材料性能基本相当)的5.93%和7.68%。
Tests results show that the fatigue performances of the shroud-like specimen and the platform-like specimen are respectively 7.68% and 5.93% those of the notched specimen.
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