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- plant growth retardant (PP333) 多效唑
- Research Progress of Application and Present Problems on Plant Growth Retardants in Turf. 植物生长延缓剂在草坪上的应用研究进展及存在问题。
- The effects of plant growth retardant on Phalaenopsis 植物生长延缓剂对蝴蝶兰生长的影响
- Research of Application of Plant Growth Retardant in Turf 生长延缓剂在草坪养护中的应用
- The Effect of Plant Growth Retardant on Eucalyptus urophylla Trial 生长延缓剂对巨尾桉苗生长控制试验
- Nie Lei,Xie Jianbo,Liang Yueming.Improved cold-resistance of Zoysia tenrifolla in winter by plant growth retardants[J].Pratacultural Science,2003,(3):63-65. [6]聂磊;谢剑波;梁月明.;植物生长延缓剂提高结缕草冬季抗寒性的初步研究[J]
- Lack of sun retards plant growth. 光照不足则植物生长缓慢。
- Abstract: Lolium perenne was treated with plant growth regulator- PP333 and CCC at different concentration levels. 摘要:分别采用不同浓度的PP333(多效唑)、CCC(矮壮素)对黑麦草进行叶面喷施处理。
- Effects of plant growth retardants on growth characters of ryegrass 植物生长延缓剂对盆栽黑麦草生长特性的影响
- EFFECTS OF PLANT GROWTH RETARDANTS ON THE MORPHA OF SCARLET SAGE 植物生长延缓剂对一串红植株形态的抑制作用
- plant growth retardant 植物生长阻滞剂
- PP333, a new plant growth regulator, can inhibit biosynthesis of gibberellin, reduce, length of new growth and increase fruit weight. 是一种新的植物生长调节剂,抑制赤霉素的生物合成,减少新梢长度,增加果实产量。
- Phosphorus is essential to plant growth. 植物生长需要磷。
- Magnesium is the nutrient element in plant growth. 镁是植物生长的营养要素。
- Burning the field to encourage new plant growth. 焚烧原野以促进新植物生长
- Lack of sun.retards plant growth. 阳光不足使植物生长缓慢。
- Iron A MICRONUTRIENT essential for plant growth. 铁:是植物生长所必须的微量元素。
- A chemical plant growth regulator,C6H12N2O3,used commercially on apples to retard growth,enhance color,and increase storage life. 植物生长调节器一种植物生长的化学调节器,C6H12N2O3,在商业上用在苹果上以减缓其生长速度、增加颜色和延长保存期
- A chemical plant growth regulator, C6H12N2O3, used commercially on apples to retard growth, enhance color, and increase storage life. 植物生长调节器一种植物生长的化学调节器,C6H12N2O3,在商业上用在苹果上以减缓其生长速度、增加颜色和延长保存期
- Effects of some plant growth regulators on the regulation of root formation and development were studid, and the physiological mechanisms of IBA, ETH, PP333 and GA in regulating root formation and development were discussed. 幼苗和3年生幼树为试材,研究了一些生长调节物质对平邑甜茶根系发生的调节,并进一步探讨了吲哚丁酸、多效唑以及赤霉素调控根系发生与生长的生理机制。