烯唑醇

  • 网络diniconazole;diniconazole-M;diniconazol
烯唑醇烯唑醇
  1. 相比,烯唑醇处理抑制ABA的分解显著抑制了种子萌发,这表明ABA的分解代谢的调节起了主要作用。

    In contrast , inhibition of ABA catabolism by diniconazole significantly arrested seed germination , suggesting that the regulation of ABA catabolism plays a major role .

  2. 采用5%烯唑醇超微粉体种衣剂处理大麦种子,研究该种衣剂对大麦主要病害的防治效果及对大麦生长发育的影响。

    Barley seeds were coated by 5 % Diniconazole ultramicro powder .

  3. 烯唑醇含量分析试样用甲醇溶解,以邻苯二甲酸二乙酯为内标物,在ODS柱和紫外检测器上对试样中的烯唑醇进行高压液相色谱分离和测定。

    Dissolved the samples by methanol , with diethyl phthalate as internal standard , the content of diniconazole is separated and determined by means of Liquid Chromatography under high pressure on the ODS column and ultraviolet detector .

  4. 烯唑醇种衣剂对小麦出苗及生长的影响研究

    The Influence of Diniconazole Seed Dressing to Wheat Seed Emergence and Seedling Growth

  5. 烯唑醇超微粉体玉米种衣剂应用技术研究

    Study on Applied Technology of Diniconazole Ultramicro Powdered Seed Coating Chemical of Maize

  6. 烯唑醇在梨及土壤中的残留研究

    A Study on the Dissipation and Residue of Diniconazole in Pears and Soils

  7. 烯唑醇在土壤、小麦中的残留消解动态及其微生物降解研究

    The Residue Dissipation Dynamics of Diniconazole in Soil and Wheat and Its Microbial Degradation

  8. 烯唑醇防治水稻肥床旱育秧苗立枯病的效果

    Experiment on the Control of Rice Damping-off by Diniconazole in Non-flooded Rice Seedling Bed

  9. 5%烯唑醇微乳剂的研制

    Studies on the Microemulsion of 5 % Diniconazole

  10. 试验结果表明,烯唑醇的毒力高于其他三种原药。

    The result indicates that the virulence of diniconazole is higher that other three pesticides .

  11. 烯唑醇是一种高效、低毒、广谱杀菌剂,并具有良好的植物生长调节活性。

    Diniconazole Is a highly active , low toxic fungicide with broad spectrum on controlling disease .

  12. 内吸杀菌剂烯唑醇对小麦条锈菌和白粉菌发育影响的研究

    Effects of systemic fungicide diniconazole on the development of stripe rust and powdery mildew on their host wheat

  13. 以有机碱为催化剂,通过三唑三甲基丙酮与2,4-二氯苯甲醛的反应,合成了具有生物活性的外消旋体化合物烯唑醇。

    By using alkalamides as the catalyst , diniconazole has been synthesized by the reaction of triazolyl-trimethylacetone and2,4-dichlorobenzaldehyde .

  14. 根据单剂筛选的原则,选择了烯唑醇和抑霉唑进行复配比例筛选。

    According to the single dose screening principle , Diniconazole and Imazalil were chosen to screen compound proportion .

  15. 9%毒死蜱·烯唑醇悬浮种衣剂对玉米地下害虫、丝黑穗病的防治效果

    Control Effect of 9 % Corn Seed Coating of Chlorpyrifos & Diniconazole on Hypogenous Pests and Maize Head Smut

  16. 结果表明:多菌灵的抑菌效果最好,其次是抑霉唑和烯唑醇,三唑酮的抑制效果最差。

    The results showed that carbendazim was the most effective one . Imazalil and diniconazole were inferior to carbendazim .

  17. 试验结果表明,用烯唑醇微粉种衣剂1∶200~300包衣,可有效防治玉米丝黑穗病。

    The results showed that the seeds were coated by 1:200-300 diniconazole ultramicro powdered chemical can control maize head smut effectively .

  18. 5%烯唑醇微粉种衣剂防治玉米丝黑穗病效果初报

    Effect of Super Micro-powder Seed Coating Agent of 5 % Diniconazole on the Prevention and Cure of Head Smut of corn

  19. 试验结果表明,5%烯唑醇微粉种衣剂对玉米的发芽率、发芽势有提高的趋势。

    The results showed that germination percentage and germinating energy had increasing trend by 5 % diniconazole micro powdered seed coating chemical .

  20. 应用烯唑醇不同剂量拌种试验结果,以20克拌玉米种100公斤比较适宜,既有效又经济,且对玉米安全。

    At the dosage of 20 g a. i. / 100 kg corn seed , diniconazole was economically effective and safe to corn plant .

  21. 速克灵与烯唑醇对玉米小斑菌未发现增效组合,百菌清与烯唑醇6:4、速克灵与百菌清2:8的混配组合为玉米小斑菌的增效组合。

    The mixture of chlorothalonil and diniconazole in 6:4 and the mixture of procymidone and chlorothalonil in 2:8 are synergistic interaction combinations to Bipolaris maydis .

  22. 本试验筛选的结果为烯唑醇与抑霉唑比例为4:1时,共毒系数最高,表现为相加作用。

    The result of screening is that the proportion of Diniconazole and Imazalil is 4:1 , and this co-toxicity coefficient is the highest , and exhibits an additive effect . 2 .

  23. 用烯唑醇微粉种衣剂包衣,在接种条件下防治玉米丝黑穗病效果在51.2%~60.3%,增产率38.6%~58.7%。

    The prevention from maize head smut was 47.0 % ~ 60.3 % , the increasing yield was 38.6 % ~ 58.7 % under the vaccinate condition using diniconazole micro powdered seed coating chemical for wrapping .

  24. 实验结果表明,这六种菌都是好氧菌种,对烯唑醇降解率大于30%的有1、3、4、6,其中1为优势菌种。

    The results showed that six bacteria all were aerobiosis . The degradation efficiency to diniconazole of 1 # 、 3 # 、 4 # 、 6 # could reach above 30 % and 1 # was predominant bacterium .