bud dormancy

美 [bʌd ˈdɔrmənsi]英 [bʌd ˈdɔːmənsi]
  • 网络芽休眠;芽的休眠;发芽
bud dormancybud dormancy
  1. The Effect of Temperature on Peach Bud Dormancy and Flowering and Fruit Set

    温度对桃树芽休眠及开花坐果的影响

  2. Advances in Bud Dormancy Types and Its Influential Factors

    芽休眠的类型及影响因素研究进展

  3. A study advance on effect of temperature on fruit trees bud dormancy

    温度对果树芽休眠的影响研究进展

  4. The effect of different temperature on breaking peach bud dormancy

    不同温度对打破桃芽休眠的影响

  5. Study on Factors Influencing the Process of Bud Dormancy of Early Ripening Pear Cultivar

    离体早熟梨芽休眠进程的影响因素研究

  6. Factors that influence bud dormancy in deciduous fruit trees

    影响落叶果树芽休眠的因素

  7. Physiological changes of peach cultivars with different chilling requirement during bud dormancy induction

    不同需冷量桃品种芽休眠诱导期间的生理变化

  8. Effects of Short-term Heating on Bud Dormancy in ' Shuguang ' Nectarine Tree

    短时间高温对‘曙光’油桃芽自然休眠调控的研究

  9. Bud Dormancy of Grapevines in Dry and Hot River-valley Regions of Southwest China

    西南干热河谷地区葡萄休眠规律的研究

  10. Studying the effect of different low temperature to break peach bud dormancy and the different temperature regulating measure to peach flowing and fruiting in protected cultivation ;

    研究了不同低温对打破桃芽休眠的影响及设施栽培中不同温度调控措施对桃开花坐果的影响,探讨了适宜的温度调节措施。

  11. The definition of dormancy process , the determination of dormancy depth and the effect of temperature on dormancy are the theoretical foundation of fruit trees bud dormancy study .

    果树芽休眠进程的界定、休眠深度的确定以及温度对休眠的影响的研究是果树芽休眠研究的理论基础。

  12. Low temperature could improve to break dormancy There are three methods to determinate the end time of fruit trees bud dormancy : 7.2 ℃ low temperature model , Utah model and dynamic model .

    低温可以促进打破芽休眠。对果树芽休眠结束时间的计算有3种方法:7.2℃低温模型、犹他模型和动力学模型。

  13. The experiment was conducted with the bearing branch of early ripening pear cultivar and it studied the crucial factors influencing the process of bud dormancy through different temperature , different light condition and different kind and level of plant growth regulator .

    以早熟梨离体结果枝为试验材料,通过控制温度、光照条件以及喷施不同种类和浓度的生长调节剂生长调节物质来研究影响早熟梨芽休眠进程的因素。

  14. The results showed that all the short-term heating could break flower bud dormancy on 21st December and affect the contents of O2-and MDA . The indexes of flower bursting were different in heating temperature and duration of heating .

    结果表明:12月21日各短时高温处理,均不同程度的解除花芽休眠,早露蟠桃枝皮及花芽内O2-含量、MDA含量的影响,因处理温度和处理持续时间长短的不同而异。

  15. High concentrations of GA3 will be better to release floral bud from dormancy and improve reflowering quality , and also advance flower time .

    较高浓度的GA3可以有效解除混合芽休眠、提高开花质量、促使花期提前。

  16. The bud physiological dormancy of mulberry and poplar initiated 12 days after the Ca 2 + influx was observed ( August 20 ) .

    12d后(8月20日),观测到桑树和杨树芽已经开始进入生理休眠。

  17. Temperature plays an important role which can regulate flower bud differentiation , dormancy , blossom , fruiting , and crop production .

    温度作为重要的农业气象要素可以调控作物的花芽分化、休眠和开花结实。

  18. Best studied are the effects of differing photoperiods on the times of height growth cessation , bud formation and dormancy onset .

    研究最彻底的是不同的光周期对高生长停止,萌芽和进入休眠的时间的效应。