甲草胺

  • 网络Alachlor;metolachlor
甲草胺甲草胺
  1. 均相光催化氧化去除水中甲草胺的研究

    Research on the Removal of Alachlor by Homogeneous Photocatalytic Oxidation Process

  2. 高铁氧化-活性污泥耦合工艺处理甲草胺废水

    Integrated Ferrate Oxidation and Activated Sludge Process for Alachlor Mineralization

  3. 由于异丙甲草胺是手性分子,不同对映体与DNA结合的强度表现出一定的差异性。

    Because metolachlor is a chiral molecular , different enantiomers have different binding constants to ctDNA .

  4. Cu/Al2O3催化臭氧氧化降解水中甲草胺的研究

    On Cu / Al_2O_3 catalytic ozonization for degradation of methyl oxalic amine in water

  5. 该方法的检测范围在1×10-9~100×10-9mgmL之间,且和化学结构相似的甲草胺和乙草胺无交叉反应。

    Mg / mL without cross reactions with the structurally similar chloroacetanilide herbicides , alachlor and acetochlor .

  6. 5mg·kg-1和100mg·kg-1处理的异丙甲草胺对供试土壤生态环境的影响和危害可能大于金都尔,但20mg·kg-1处理则表现出例外。

    And 100 mg · kg - 1 metolachlor might have more damage on soil ecosystem than different concentrations Dual Gold .

  7. 研究了0、5、20和100mg·kg-1浓度的异丙甲草胺及其高效体对土壤过氧化氢酶活性的影响。

    This paper studied the effects of different concentrations ( 0,5,20 , and 100 mg · kg - 1 ) metolachlor and its enantiomer S-metolachlor ( Dual Gold ) on soil catalase activity .

  8. 催化臭氧氧化处理后水的内分泌干扰活性比非催化过程的有明显降低,说明Cu/Al2O3催化剂可有效去除甲草胺的中间氧化产物,能彻底去除水中甲革胺这种内分泌干扰物质。

    Also the endocrine interference activity of the catalytic effluent decreased evidently than that of non-catalytic . All these shown that the intermediate products of MOA oxidation could be removed by Cu / Al2O3 catalytic ozonization process , this endocrine interference substance in water could be removed from water drastically .

  9. 异丙甲草胺对根际土壤微生物数量的影响及其在根际环境中的降解研究

    Effect of Metolachlor on Soil Microbial Numbers in Rhizosphere and Its Degradtion

  10. GC/MS/MS法测定油菜籽中异丙甲草胺残留量

    Determination of Metolachlor in Rape Seed by GC / MS / MS

  11. 土壤和葵花籽中精异丙甲草胺的残留分析

    Residue Analysis Method of S-Metolachlor in Sunflower Seed and Soil

  12. 异丙甲草胺及其S型对映体对蚯蚓的急性毒性差异

    Acute toxicity difference of metolachlor and its S-isomer on earthworms

  13. Rac-异丙甲草胺及其S-对映体对土壤微生物量碳、氮的影响

    Effect of Rac-METOLACHLOR and S-isomer on soil microbial biomass carbon and nitrogen

  14. 毛细管气相色谱分析甘蓝、青椒和芹菜中甲草胺残留量

    Determination of LASSO Residue in Vegetable Using Capillary Gas Chromatography

  15. 粘土矿物、腐殖酸对异丙甲草胺的吸附

    Adsorption of Herbicide Metolachlor on Clay and Humic acid

  16. 毛细管气相色谱法同时测定异丙甲草胺和莠去津

    Determination of Metolachlor and Atrazine by Capillary Gas Chromatography

  17. 72%异丙甲草胺乳油对禾本科和莎草科杂草防效较好;

    72 % Metolachlor EC 2.25L/ha was effective on controlling grasses and cyperus .

  18. 二苄基二硫代草酰胺酰胺类除草剂甲草胺的微生物降解研究进展

    Research Progress on Microbiological Degradation of Acetanilide Herbicide Alachlor

  19. 异丙甲草胺对菠菜根际土壤细菌数量的影响与对芹菜根际土壤细菌数量的影响有所差异。

    There was some difference between the effect on celery and spinage rhizosphere soils by metolachlor .

  20. 甲草胺的光化学降解研究

    Studies on Photochemical Degradation of Alachlor

  21. Rac-异丙甲草胺及S-异丙甲草胺与镉复合污染对土壤酶活性的影响

    Effects of pollution of Rac-METOLACHLOR or S-metolachlor and its combination with cadmium on soil enzyme activity

  22. 不同浓度处理下,异丙甲草胺对芹菜根际土壤过氧化氢酶活性的影响有所差异。

    The effect of metolachlor on catalase activities was different under different treatment in celery rhizosphere soil .

  23. 研究了饮用水中一种具有内分泌干扰作用的有机污染物甲草胺的臭氧氧化降解机制。

    In this study , the degradation mechanism of an endocrine disruptor , alachlor , by ozonation was investigated .

  24. 利用Fe2+、Mn2+和腐殖酸对水中甲草胺进行了催化臭氧化研究。

    Applying Mn2 + , Fe2 + and humic acid for catalytic ozonation of alachlor in water was studied .

  25. 从鲫鱼头肾中分离纯化得到巨噬细胞,体外培养,用甲草胺和阿特拉津染毒。

    Macrophages separated from the head-kindey of crucian carp were cultured and exposed to alachlor and atrazine in vitro .

  26. 研究了高铁氧化&活性污泥耦合工艺去除水中甲草胺的效能。

    The efficiency of removing alachlor from water by the integrated process of ferrate oxidation and activated sludge has been studied .

  27. 相同浓度异丙甲草胺作用下,芹菜根际土壤真菌数量要高于菠菜根际土壤。

    Fungi numbers in celery rhizosphere soil were higher than those in spinage rhizosphere soil in the same concentration of metolachlor .

  28. 实验结果表明,在实验初期,异丙甲草胺对芹菜根际土壤细菌数量有一定的抑制作用,异丙甲草胺作用7天后土壤细菌数量增加,并高于对照土壤。

    The results showed that bacterial numbers were inhibited by metolachlor in celery rhizosphere soil initially , the numbers increased after 7 days .

  29. 3种有效成分甲草胺、异丙草胺、莠去津在同一条件下测定,方法简便,方法的精密度和准确度良好。

    The three compositions were analysed easyly in the same condition and column , the precision and accuracy of the method were good .

  30. 在室内条件下,研究了精喹禾灵、高效氟比甲禾灵、乙草胺和异丙甲草胺等4种除草剂对花生根瘤菌共生固氮的影响。

    The effect of4 herbicides , quizalofop-P , haloxyfop-P , acetochlor , and metolachlor , on rhizobium-peanut symbiotic nitrogen-fixation was studied in the greenhouse .