1) Plant type
株形
1.
Plant type, yield components, lodging resistance as well as grain quality of eui -hybrid rices were investigated.
研究了e 杂交稻的株形、产量构成、茎秆抗倒性 ,并分析了e 杂交稻的稻米品质。
2) Plant morphology
植株形态
1.
In this research, observation was carried on the plant morphology of somatic hybrid between Microcitrus Papuana and Rough Lemon, and determination and analysis were carried on the pollen fertility of somatic hybrid .
本试验对澳洲指橘与粗柠檬属间体细胞植株形态进行了观察 ,并测定与分析了体细胞杂种的花粉育性。
2.
According to the fractal character and the self-resemblance of the plant morphology, this paper deals with the method of the plant morphology simulation by using fractal L-system.
根据植株形态的分形特征及其自相似性 ,阐述了应用分形L -系统理论模拟植株形态的方法 ,从而为植株形态的三维计算机模拟提供参
3.
The changes of plant morphology, physiological and biochemical characters and their relationship to varieties drought resistance were studied under water-stress.
本试验以抗旱性不同的3个玉米品种作为供试材料,以26%PEG(分子量4000)溶液对幼苗进行模拟水分胁迫,研究了水分胁迫下植株形态和生理生化特性的变化及其与品种抗旱性的关系,研究结果表明: 1。
3) Morphological characters
植株形态
1.
In this study, the morphological characters of chimeras of tuber mustard and red cabbage were described, the acid phosphatase isozyme banding patterns and the molecular marker were analyzed.
本试验以人工合成的榨菜和紫甘蓝离体嫁接嵌合体为试验材料,对其植株形态,酸性磷酸酯酶同工酶及分子标记等进行了研究。
4) plant form
植株形态
1.
Effects of enhanced Ultraviolet radiation-B on plant form of spring wheat in arid and semiarid regions of middle-high elevation;
UV-B增强对中高海拔干旱半干旱地区春小麦植株形态的影响
2.
To estimate the effects of enhanced ultraviolet radiation-B on upgrowth of spring wheat and design answerer plans,the article studied influence of enhanced ultraviolet radiation-B on plant form of spring wheat in middle-high elevation、arid and semiarid regions.
探讨UV-B辐射增强对中高海拔、干旱半干旱地区春小麦植株形态的影响,可为正确评估UV-B增强对春小麦生长发育的影响程度并据此制定合理的应对措施提供科学依据。
6) ideal plant type
理想株形
1.
Progress in research of selection index including stem, tiller, leaf, panicle and root for ideal plant type breeding was summarized.
回顾了水稻株形育种的发展历程,归纳了茎、蘖、叶、穗、根五大理想株形形态指标的研究进展,指出了目前株形研究存在的问题,并对今后株形遗传改良的研究方向进行了阐述。
补充资料:J形及L形密封
分子式:
CAS号:
性质:两种均为唇形橡胶密封,截面形状分别为J形和L形。多为纯橡胶制品,也有少数是夹布制品。根据使用条件,一般用天然橡胶或丁腈橡胶制造。结构较简单,摩擦力低,专用于气压或液压机械设备的活塞及活塞杆密封,工作压力在1MPa以下,如用于汽车和火车制动系统及离合器操纵系统中,起传递压力和密封的作用。
CAS号:
性质:两种均为唇形橡胶密封,截面形状分别为J形和L形。多为纯橡胶制品,也有少数是夹布制品。根据使用条件,一般用天然橡胶或丁腈橡胶制造。结构较简单,摩擦力低,专用于气压或液压机械设备的活塞及活塞杆密封,工作压力在1MPa以下,如用于汽车和火车制动系统及离合器操纵系统中,起传递压力和密封的作用。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条