It suggested that PP333 increase the drought-resistance of peanut seedlings.
PP333明显提高花生幼苗的抗旱性。
Continuous circular peeling and surplus application of PP333 aggravated the disease.
连续环剥或过量应用PP 333加重轮纹病的发生。
The effect of PP333 were explored by single factor design, colorimetry and Guaiacol process.
通过单因子实验、比色法和愈创木酚法探讨PP333对试管苗的影响。
The effect of PP333 on seedling quality and chilling resistance of cucumber were investigated.
研究了PP333对黄瓜幼苗素质和抗冷能力的影响。
Of all the three inhibitors, PP333 was most suitable for the preservation in vitro of loquat's germplasm.
枇杷种质低温保存低温有利于枇杷种质的离体保存。
PP333 also increased content of soluble protein and activity of POD in leaves during middle time of upgrowth.
PP 333处理使试管苗生长中期叶片可溶性蛋白含量、POD活力提高。
PP333 treatment caused the fl(?) rescence ahead of time, and NAA treatment postponed the florescence arrival.
多效唑处理使花期提前,萘乙酸处理延迟了花期的到来。
PP333 can be used to delay crop's plant height growth, breed short and strong sprout, or control vigorous growth.
多效唑能延缓作物植株伸长,培育矮壮苗,或控制旺长。
The effect of PP333 applied at elongation stage on plant height and yield of indica-japonica hybrid rice was studied.
本文研究了拔节期施用多效唑对籼粳杂交稻的株高和产量的影响。
Chloroplast structure in new leaflet emerging after PP333 treatment was changed. The numbers of grana and grana lamellae was increased.
对处理后出生的花生叶片叶绿体结构有影响,表现为叶绿体基粒数明显增多,每一基粒中基粒片层数较多;
The results indicated that all of them suppressed the height and the weight of the plantlets more or less, and the effect of PP333 was the best.
结果表明:3种限制生长因子都不同程度地抑制试管苗的株高和鲜重的增长,其中多效唑的作用效果最好。
The results show that PP333 can control the vegetative growth, promote the differentiation of flower buds and increase the yield for the loquat trees.
结果表明,多效唑能抑制枇杷营养生长,促进花芽分化,提高产量。
PP333 and NAA treatment increased the content of carotenoid, soluble protein, chlorophyll of adzuki bean's function leaf, and strengthened the photosynthesis ability.
多效唑和萘乙酸处理均增加了红小豆功能叶中叶绿素、类胡萝卜、可溶性蛋白的含量,增强了光合作用的能力。
As a result, the floral bud inducement with PP333 mainly worked in short time, and the process of accumulation also exhibited some promotion on floral differentiation.
所以,PP333诱导花芽分化主要是在短时间内起作用,但累积过程对花芽分化也具有促进作用。
The inhibition of spraying PP333 on the new shoots of greenhouse grape to the development of secondary xylem cell correlated positively with the concentration of PP333.
温室葡萄的新梢在PP 333喷施后,对其次生木质部导管细胞发育抑制作用的大小与PP 333浓度呈正比。
The inhibition of spraying PP333 on the new shoots of greenhouse grape to the development of secondary xylem cell correlated positively with the concentration of PP333.
温室葡萄的新梢在PP 333喷施后,对其次生木质部导管细胞发育抑制作用的大小与PP 333浓度呈正比。
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