2) Thickness measurement of plant leaf
植物叶片厚度测量
3) Leaf thickness
叶片厚度
1.
Comparative anatomy analysis of the leaf thickness changes in tomato
番茄叶片厚度变化规律的比较解剖分析
2.
The changes in palisade tissue thickness,leaf thickness,and their ratio in flue-cured tobacco green leaves during field were studied.
田间条件下对烤烟下、中、上3个部位叶片生长发育过程中栅栏组织厚度、叶片厚度、栅栏组织与叶片厚度比值3个叶片组织结构特性的变化进行了研究。
3.
The key technique is to research a two parameter transducer that can precision examine both in tiny variety of leaf thickness and temperature,the principle experiment of transducer that can measure the tiny variety of leaf thickness had already complete.
其关键技术是研究可同时精确测量叶片厚度微变化和温度的双参数融合式传感器,测量叶片厚度微变化的传感器原理实验已经完成。
5) plant leaf
植物叶片
1.
A new method of detecting the sulfur content in plant leaf, YX-DL type compact sulfur detector with fast, exact operating, character and low operation cost is described.
介绍了用YX-DL一体化定硫仪测定植物叶片含硫量的方法,该法具有速度快、成本低、操作简便、数据准确的特点。
2.
The modern agriculture and forest need high precision measurement of plant leaf, in order to confirm the best measure force, it needs exactitude measurement of elastic mould quantity of the plant.
现代农业要求对植物叶片进行高精度测量,为了确定最佳的测量力就要对植物的弹性模量进行精确测量。
3.
【Objective】This paper gave a recognition approach,which combined the shape feature and the texture feature of the plant leaf,to effectively solve the problem that the classification features of traditional plant recognition were usually not synthetic and the recognition rate was always slightly low,hoping to provide technical reference for rapid machine recognition for plant.
【目的】提出一种将植物叶片的形状特征与其纹理特征相结合的综合特征识别方法,有效解决了传统的植物机器识别分类特征单一且识别率较低的问题,为植物的快速机器识别提供技术参考。
6) Plant leaves
植物叶片
1.
Airborne dust detainment by different plant leaves: Taking Beijing as an example.;
植物叶片滞尘规律研究——以北京市为例
2.
A method for analyzing volatile constituents from plant leaves with gas chromatography/mass spectrometry(GC/MS) coupled with solid-phase microextraction(SPME) was developed.
采用固相微萃取(SPME)方法吸附植物叶片中的挥发性物质,然后采用气相色谱/质谱法(GC/M S)分析了挥发性物质的成分。
3.
Perchloric acid is used in extracting the fluoride content in plant leaves, which is socked in the TISAB combined with citric acid and sodium chloride.
本文采用高氯酸对植物叶片中氟化物含量浸取,以柠檬酸钠-氯化钠-冰醋酸所组成的总离子强度调节剂(TISAB),PH控制在5。
补充资料:《苏联药用植物及近缘植物分布区(图谱)》
《苏联药用植物及近缘植物分布区(图谱)》
А реа(?)ы (?)екарсмвенных u ро(?)смвенных uмрасменuu: CCCP Ам(?)ас
sulian yoovong zh一wu Ji]inyuan zhlwu fenbuqu(tupu)《苏联药用植物及近缘植物分布区(图谱)》(A尽泪刀、J五六刀那mBeH勘“ul轰义又mBe凡肋议械Pac服Hu反:CO皿〕A二a。)俄国B.M.施米特主编。列宁格勒大学出版社出版,1983年出第一版,1990年出第二版修订版。本书记载了前苏联1980年出版的《苏联药用植物资源及分布图集》未记载的152种药用植物和近缘植物。按恩格勒系统分科、属叙述。重要的属叙述了前苏联药用植物的数量和利用前景。每属中选一至若干种进行介绍,包括:该种的拉丁学名,在前苏联的地理分布、生境、利用部位及其主要有效成分、药理作用、制剂和功效。有些种类还介绍了种的生态特性、蕴藏量和可提供生产的经济量。该书以文字叙述为主,但每种都附有一幅分布区图(不同于前书的是黑白素图),在每科叙述之后。分布区图采用点线结合的方法绘制,用线条勾划出分布范围,用圆点标明主要分布地点,分布图主要根据已有的标本资料编绘。 (王良信)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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