目的:研究三花龙胆地上器官和地下器官獐芽菜苦苷积累相关规律。
AIM: To study the related regulation of swertiamarin of overground and underground organ of g.
刈割后,地上器官中的氮素含量低茬刈割处理高于高茬刈割处理,地下器官恰好相反。
The content of nitrogen at lower stubble height was higher than that at higher stubble with in the belowground organs, opposite to the underground.
方法:采用高效液相色谱法,研究不同加工方法对刺五加地下器官(根及根茎)及地上器官不同组织(茎木质部和茎皮部)中的异秦皮啶含量影响规律。
Methods: Effect of different processing methods on content of isofraxidin in root, rhizome and xylem and bark of stern of Acanthopanax senticosus was studied by HPLC.
地上各器官营养元素含量因器官、元素而异,但尤以叶的含量最高。
Nutrient element content is different in organs, but it is highest in leaf.
当然我们和另外一些陆地上的哺乳动物的一些器官或减少,或与鲸鱼不同,或丢失在水中很好生存的功能。
Some of the senses that we and other terrestrial mammals take for granted are either reduced or absent in cetaceans or fail to function well in water.
各器官干物质分配指数随着生理发育时间而变化,基因型、播期、氮素及水分水平影响各器官干物质在地上部分配的大小。
The dry matter partitioning indices of green leaf, stem and pod varied with the physiological development, and were influenced by the genotype, sowing date, nitrogen level and water status.
健株和脱病植株地上部营养器官均不存在上述症状,但两者在组织结构分化程度上有所区别。
Both healthy plant and pathogen-free plant had not these symptoms, yet there were some different in tissue differentiation of both.
根的生长与根产生分枝、不同级别侧根的生长、苗木地上与地下器官的生长表现出高度的对立统一关系。
The relations between differentation and root growth, among the growth of different order lateral roots and between the growth of shoot-leaf and root were high unity of opposite.
结果表明,稻麦套种对不同类型小麦花后地上部各器官游离氨基酸含量和籽粒蛋白质含量及其他品质指标有显著影响。
The results were as follows: planting types significantly influenced the free amino acid content in the different organs above ground and grain protein content after anthesis.
结果表明:15N-尿素在西洋参各器官均有分布,参株从肥料中吸收氮素(NDFF%)含量地上部各器官高于地下部。
The results showed that 15N (15N-urea) was distributed to all organs of Panax quinquefolium Linne. NDFF% in above-ground part was higher than that in below-ground part.
通过对西瓜地上和地下部分生长量的研究表明:在播种-开花期内,经过2/3 标准水量亏水后复水,能够使西瓜的主蔓、根、叶片和花等器官存在着补偿生长效应;
According to the research about biomass of watermelon, the compensatory effect was occurred in caudexes, root, leaves , flowers and so on, watering again after 2/3 deficit.
通过对西瓜地上和地下部分生长量的研究表明:在播种-开花期内,经过2/3 标准水量亏水后复水,能够使西瓜的主蔓、根、叶片和花等器官存在着补偿生长效应;
According to the research about biomass of watermelon, the compensatory effect was occurred in caudexes, root, leaves , flowers and so on, watering again after 2/3 deficit.
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