Tebufenozide is the pesticide, which has been used widely in China.
米满是一种使用范围非常广泛的农药。
A method was developed to determine tebufenozide in some forest leaves.
本文介绍了一种虫酰肼在红栎和胶枞树叶中的残留量分析方法。
From this point of view, tebufenozide is friendly to microorganisms in the freshwater.
从这一角度来讲,米满对淡水微生物是友好的。
The bioactivity of tebufenozide(RH-5992) and its effects on Spodoptera exigua were investigated.
测定了虫酰肼(RH-5992)对甜菜夜蛾的生物活性。
The 20% tebufenozide SC meet the criteria and requirements of the Chinese pesticide suspension concentrate.
虫酰肼SC符合中国悬浮剂农药标准和需要。
In this paper, the pathway of synthesis, pesticidal mechanism, bioactivity of tebufenozide were introduced.
本文主要介绍了米满的杀虫机制及在国内的应用情况。
Results indicated that surfactant and NO3 - ions increased tebufenozide hydrolysis, while humic acid caused a degree of inhibition.
结果表明:表面活性剂和硝酸根离子可以促进虫酰肼的水解,而腐殖酸则对其水解有一定抑制作用。
Synergism of tebufenozide combined with Autographa californica nuclear polyhedrosis virus against Spodoptera exigua was studied by bioassay in laboratory.
研究了以甜菜夜蛾为靶标害虫时,昆虫生长调节剂虫酰肼对苜蓿银纹夜蛾核型多角体病毒的增效作用。
The resistance selection revealed that the resistance to tebufenozide increased slowly at first and then speeded up, and reached 15.7 times at the 7th generation.
本文以小菜蛾敏感品系为材料进行了对米满抗性品系的选育,发现小菜蛾对米满在筛选7代后产生了15.7倍的抗性,且呈现先缓慢后迅速上升的特点。
The effect of tebufenozide on microorganisms' respiration was studied in this paper, which can offer necessary data for a whole environmental assessment on tebufenozide.
本论文研究了米满对环境微生物呼吸作用的影响,以期为米满的全面环境安全评价提供必要的数据。
The application of tebufenozide in agriculture in China synthesization technics pesticidal mechanism as well as the impact on environment and non-target organism was summarized in this paper.
本文综述了米满的合成工艺和杀虫机理以及在我国农业生产方面的使用情况和对环境及非靶生物的影响。
The application of tebufenozide in agriculture in China synthesization technics pesticidal mechanism as well as the impact on environment and non-target organism was summarized in this paper.
本文综述了米满的合成工艺和杀虫机理以及在我国农业生产方面的使用情况和对环境及非靶生物的影响。
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