噻嗪酮

噻嗪酮对稻纵卷叶螟F1代生存的影响

Effect of Buprofezin on F_1 Generation Survival of Rice Leaf-folder

40%毒死蜱·噻嗪酮乳油EC防治稻飞虱的效果

The Control Effect of 40 % Chlorpyrifos · Buprofezin EC on Rice Hopper

土壤中添加葡萄糖和有机肥料可以提高菌株YL-1降解噻嗪酮的速率。

Adding glucose and organic fertilizer materials to the soil could increase the degradation rate of buprofezin by strain YL-1 .

以HP-5MS（30m×0.25mmi.d.，0.25μm）石英毛细管柱为分离柱，噻嗪酮的分离效果良好。

A good separation was obtained using HP - 5MS ( 30 m × 0 . 25 mm i. d. , 0 . 25 μ m ) capillary quartz column .

还讨论了褐飞虱对噻嗪酮的抗性治理策略。

The resistance management tactics of N.lugens to buprofezin is also discussed here .

噻嗪酮对稻田蜘蛛群落的影响

Effects of Buprofezin on Spider Community in Rice Fields

农药噻嗪酮在玻碳电极上的电化学行为

Electrochemical Behavior of Buprofezin on Glass - carbon Electrode

噻嗪酮对褐稻虱若虫有很高的生物活性，并具有杀卵作用。

Buprofezin has high activity against nymphs of the brown planthopper ( BPH ) and has effectively ovicidal action .

噻嗪酮在水稻上的内吸输导作用和消解动态3随着作物生育期的延长，氮磷钾养分吸收量增加。

Absorption and Transportation of Buprofezin and Its Degradation Dynamics in Rice Plant 3 The absorption of N P K.

用该方法检测的结果表明：1996年安庆、江浦，1997年南宁种群对噻嗪酮为早期抗性（抗性倍数为30～35）；

The monitored results showed that BPH collected from Anqing and Jiangpu in 1996 and Nanning in 1997 had developed low level resistance to buprofezin ( RR was 3 0 3 5 ) .

在室内以不同生测方法测定了噻嗪酮对褐飞虱若虫的毒力，结果表明：噻嗪酮对褐飞虱若虫的活性主要是触杀作用；

In laboratory experiments , several bioassay methods were used to evaluate the activities of buprofezin against brown planthopper ( BPH , Nilaparvata lugens ) nymphs . Results showed that the contact effect is the major mode of action of buprofezin .

目的：研制针对各种耐药病原微生物的有效新药，合成一类新的含有四氢-2H-1,3,5-噻二嗪-2-硫酮环的化合物（Tetrahydro-2H-1,3,5-thiadiazine-2-thione，THTT），并研究其抗微生物活性。

OBJECTIVE : To synthesize and investigate antimicrobial activities of a new kind of compounds having Tetrahydro 2H 1,3,5 thiadiazine 2 thione ( THTT ) .