盛花

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盛花盛花
  1. 花朵于3月26日迎来盛花期。

    Peak blossom arrived on March 26th .

  2. 上一次最早的盛花期要追溯到1409年,不过比今年晚一天。

    The previous earliest date was way back in 1409 , when the blossom came one day later .

  3. 在日本首都东京,樱花在3月22日达到了全盛,这是有记录以来第二早的盛花期。

    And in the capital Tokyo , cherry blossoms reached full bloom on March 22 , the second-earliest date on record .

  4. 根据青野的数据,京都过去几百年的盛花期都是在四月中旬,但是19世纪开始变成四月初。

    In Kyoto , the peak date hovered around mid-April for centuries , according to Aono 's data , but began moving into early April during the 1800s .

  5. 盛花期后至吐絮期前,叶片和花瓣的Bt蛋白表达量明显增加,在抗虫亲本中表现最为明显。

    The Bt insecticidal protein content in leaves and petals at later flower stage was the highest .

  6. 进入盛花后,各品种高氮水平的GA含量最低。

    Then after the blooming stage , the GA content of the functional leaves in high nitrogen level was the lowest .

  7. 生长旺盛期、初花期、盛花期用300-400mg/kg浓度喷施,对草莓具有显著的增产效果。

    The optimum concentration for the vigorous growth period , early florescence , and blossom period is 300-400mg / Kg .

  8. 蕾期、初花期、盛花期、吐絮期的CAT酶活性均以白色棉最高,绿色棉在前期和后期最低,棕色棉在花铃期最低。

    CAT activity of white cotton are the highest among brown cotton , green cotton , and white cotton , which green cotton lowest , in the bud stage , and boll opening stage .

  9. 盛花期LI及分布特性对作物生长率(CGR)、籽粒形成及最终产量有重要影响。

    Light interception and distribution in canopy at anthesis stage played an important rule in crop growth rate ( CGR ), kernel formation and economic yield per area .

  10. 果皮较快增厚而汁胞发育缓慢时期(盛花后60~90d);

    Rapid peel growth and slow juice sac development stage ( 60-90 d after full blossom );

  11. 结果表明,叶片及叶柄中N,K含量在葡萄年生长季内的变化呈下降趋势,其中叶片N含量在初花期至盛花后第6周下降最为明显;

    The result showed that the contents of N and K in leaves and petioles decreased with the growth of grape , and the decreasing rate of N in leaves was more significant from early blooming to the sixth week after the full blooming period ;

  12. 就环剥的总体效果来看,以盛花后20d环剥效果最好。

    Judged by general results of girdling , it had the best effect to band girdle on the 20th day after flowering .

  13. 盛花期至成熟期,根面土壤脲酶活性的动态变化呈倒V状的变化趋势,即为结荚期以前土壤酶活性逐渐升高,结荚期酶活性值最大,成熟期逐渐降低。

    From flowering stage to podding period , the dynamic change of root-soil interface soil urease activity shows " V " - shaped trend , soil enzyme activity increased gradually before podding period , which reached the highest up to podding period and reduced gradually at maturity .

  14. 在种子发育早期(盛花期后7d),灌4次水种子标准发芽率最高,老化发芽率最高,种苗芽长最长,芽重最重。

    In seed growth early stage ( the seventh day after perk anthesis ), standard germination , accelerated aging germination , seedling length and seedling weight under irrigating four times were the highest .

  15. 明确了果实生长的四个阶段,即(1)果皮与汁胞细胞分裂期(盛花后0~60d);

    Four developmental stages for a fruit were observed : ( 1 ) cell division stage for both peel and juice sac ( 0-60 d after full blossom );

  16. 盛花期后168d采收的果实失水严重;

    The water loss was high in fruits picked at 168d after full bloom ;

  17. 盛花期后180d和183d采收的果实硬度下降快且腐烂率高;

    The firmness decreased quick and rotted ratio was high in fruits picked at 180d and 183d after full bloom ;

  18. 盛花期,叶片NRA、GS-GOGAT低活性与毒蛋白含量低值同期。

    The activities of NRA and GS-GOGAT were lower during flowering stage . At the same time , the Bt protein content was lower also .

  19. 迟处理(TrC)能推迟盛花期,其中200和500ppm处理还能显著抑制花序生长和减少雄花数;

    Retarded flowering time and reduced number of male flower and length of panicle in late treatment ( only 200 and 500 ppm );

  20. 在成龄元帅苹果树盛花初期喷布7种浓度的硼酸,结果表明,50~800mg/kg的硼酸液能显著和极显著地提高花朵坐果率和花序坐果率。

    The boric acid of 7 different concentrations was sprayed on adult marshal apple trees in early flowering phase The results show that 50-800 × 10 - 6 boric acid liquor can improve fruiting rates of flower and inflorescence significantly .

  21. 银杏种实盛花后30d出现第一个呼吸高峰,第30~60d呼吸强度急剧下降,此后至成熟,呼吸强度变化相对稳定。

    The respiratory intensity ( RI ) of seed had a maximum on 30 d after full blossom , RI fell rapidly from 30 to 60 d and changed little after then till maturity .

  22. 盛花期(8月4日)至盛铃期(8月14日)棉株5~20cm土体内侧根还原力高于0~5cm和20cm以下的。

    The lateral root reductive activity in 5-20 cm soil layer was higher than that in 0-5 cm layer and below 20 cm layer from full-blooming stage ( Aug. 4 ) to boll-forming stage ( Aug. 14 ) .

  23. 用标准发芽率、电导率和TTC含量测定种子活力,结果表明,从小花开放到种子成熟需要74~79d,盛花期后72~77d是一次性收获种子的适宜期。

    Seed vigor was determined by standard germination percentage , conductance rate and TTC content , which showed that it took about 74 ~ 79 d from flowering to seed maturity , and the suitable harvesting time was 72 ~ 77 d after blooming .

  24. 平邑甜茶的无性胚囊原始细胞始于盛花期前后靠近合点端的珠心细胞,并很快发育为单核无性胚囊,盛花后5~7d的坐果初期形成无性的八核胚囊。

    The aposporous initials , the nucellar cells in the chalazal end , developed during full blooming stage . Then it grew rapidly to unreduced embryo sac and formed 8-nuclei aposporous embryo sac , which happened 5 to 7 days after full bloom .

  25. 盛花期后171d、174d和177d采收的果实可溶性固形物、有机酸及Vc含量变化幅度小,失水及腐烂少。

    The contents of soluble solid , organic acid and Vc changed slow , and it also had a low water loss and rotted ratio in fruits picked at 171d & 177d after full bloom .

  26. 盛花期过后,呼吸速率、蛋白质和ATP含量迅速降低,UWL强度缓慢下降,而超氧自由基的产生速率与丙二醛含量迅速升高。

    After the peak season of blossom , the respiration rate and ATP content declined rapidly while the UWL intensity went down slowly , but the active oxygen production rate increased rapidly . The protein content increased at first and then decreased during the florescence of apricot .

  27. 种子浸出液电导率值随盛花后天数增加而逐渐降低,盛花后45d种子达到生理成熟。进行了不同成熟度种子的萌发试验,结果表明授粉后九个多月的种子已达到生理成熟。

    The electric conductivity of seeds decreased with days after peak anthesis , seeds attained physiological maturity at 45 days after peak blooming . About three months before the dehiscence of the capsule , the seeds are ready for germination .

  28. 苜蓿种子的硬实率随着种子成熟而增加,并在种子生理成熟前后(盛花后29d~43d)达最高。

    The rate of hard seed increased as the seed mature , and up to the maximum before and after the seed physiological maturity ( full bloom after 29 days - 43 days ) .

  29. 植株呈单茎或丛生,株高65~90cm,总叶面积随株高的增高而增加,盛花期株叶面积最大,叶面积指数最高;

    Its plants , 65 ~ 90 cm high , grow either signally or thickly . Total leaf area increases with the increase of plant height , and at flowering stage , it reaches the maximum .

  30. 用32P示踪法研究了不同抗性油菜品种3叶期及盛花期感染菌核病后磷素吸收与转运的变化。

    In this paper , the ~ ( 32 ) P radio-tracer technique was used to study the ways of phosphorus uptake and transfer in 4 Brassica napus cultivars ( 1ines ) with different resistance to Sclerotinia sclerotiorum at seedling stage ( below 3 leaves ) and flowering stage .