三环唑

多菌灵与三环唑的HPLC分析

HPLC Analysis of Carbendazim Plus Tricyclazole

在接种稻瘟病菌48h后喷雾处理，10g/mL三环唑的防病效果只有28.58%。

The efficiency of 10i g / mL tricyclazole spraying treatment 48 hours after inoculation was only 28.58 % .

稻瘟病菌对三环唑的敏感性检测与抗药风险分析

Sensitivity Detection and Resistance Risk Analysis of Pyricularia grisea to Tricyclazole

提出了三环唑在水稻上的安全使用标准。

Therefore a criterion for safe use of tricyclazole is recommended .

稻瘟病菌对三环唑抗药性的初步研究

A preliminary study of drug resistance of Pyricularia oryzae to tricyclazole

三环唑对黄瓜生长和生理的影响

Growth and Physiological Response of Cucumber Seedlings to Tricyclazole Tricyclazole

三环唑75%可湿性粉剂含量测定的不确定度评定

Evaluation on Uncertainty of Determining 75 % Tricyclazole WP Content

超氧自由基在三环唑防治稻瘟病中的作用

Possible function of superoxide anion radical in rice blast disease control by tricyclazole

20%三环唑·异稻瘟净可湿性粉剂的气相色谱分析

Quantitative Analysis of Tricyclazole and IBP by Gas Chromatography

2-肼基-4-甲基苯骈噻唑合成三环唑的试验

Synthesis of Tricyclazole from 2-hydrazino-4-methyl Benzothiazole

杀菌剂三环唑的毒理学研究

Toxicological Studies on Tricyclazole

研究了稻瘟病菌对三环唑抗药性的测定方法，确定了保绿培养基的成分，建立了抗药性测定的标准化模型。

The method of monitoring resistance of Pyricularia grisea to tricyclazole was studied and the model was set up .

本文研究了稻瘟病菌对三环唑的敏感性测定及抗药性监测技术。

This paper studied the sensitive measurement of P. grisea to tricyclazole and studied the fungicide resistance monitor technique .

0.10μg/mL的三环唑可完全抑制附着胞中黑色素形成，但不影响核的分裂。

0.10 μ g / mL tricyclazole completely inhibited melanin formation in the appressorium and failed to influence the nuclear division .

本文研究了用气相色谱分析水稻、土壤和水中三环唑的残留量。

A gas chromatographic analytical method for the determination of tricyclazole residues in rice , soil and water samples was described .

用药剂驯化和紫外诱变的方法都获得了稻瘟病菌抗异稻瘟净突变体和抗多菌灵突变体，但未能获得抗三环唑突变体。

Kitazin P-resistant mutants and carbendazim-resistant mutants were recovered by chemical taming and UV irradiation , but none tricyclazole-resistant mutant was got .

粗提物5×浓缩液对稻瘟病的实际防治效果达72.63%，好于对照药剂三环唑。

The control efficacy of 5x condensed active extract solution was 72.63 % in pot trial , and higher than that of tricyclazole .

通过对2肼基4甲基苯骈噻唑的水洗干燥处理后合成三环唑，来提高三环唑含量和合成收率。

The yield and purity of tricyclazole were increased when it was synthesised from water washed and dried 2 hydrazino 4 methyl benzothiazole .

相同浓度下，75%三环唑水分散粒剂对穗瘟的防效优于75%三环唑可湿性粉剂。

With the same concentration , 75 % tricyclazole WG was in advance of 75 % tricyclazole wettable powder in the control of spike blast .

好米得诱导水稻抗稻瘟病的效果与常规药剂三环唑相当，最高可达68.8%，并且不影响水稻生长发育和产量。

Rice blast resistant effect induced by Oryzemate can be as high as68.8 % . It did not make negative effect on the growth and yielding of the rice .

但稻瘟病是一典型的多循环病害，在水稻的整个生育期都可以为害，三环唑在生产上每生长季使用2-3次就对稻瘟病表现出优秀的控制作用。

But , rice blast disease is a typical multi-cycle disease that occurs all the rice growth season and a wonderful efficacy can be achieved by 2-3 treatments per season .

在较低浓度下（5μg/mL），三环唑对菌落生长量和产孢量影响不大，但侵染率和病斑面积大大降低。

In low concentration ( 5ug / mL ), tricyclazole had neither a strong inhibitory effect on hypha growth nor production of conidiophores , but it reduced greatly the infection ratio and lesion area .

研究了三环唑对水稻超氧自由基（O.-2）产生的影响及其在病害防治中的意义，结果表明三环唑能刺激药剂-植物-病菌互作过程中O。

Effect of tricyclazole on production of superoxide anion radical ( O . - 2 ) in rice and the possible function of this effect on blast disease control were studied . Results showed that tricyclazole could significantly induce O .

应用三环唑与春雷霉素的复配制剂灭稻瘟1号或采取三环唑与春雷霉素轮换施用均可有效地防治稻瘟病，防治效果达90%以上，同时减少化学农药施用量50%以上。

1 , a compound chemical of tricyclazole and kasugamycin . It is also effective by applying tricyclazole and kasugamycin alternatively . The prevention and control effect exceeded 90 % and the quantity of chemicals applied decreased more than 50 % .

春雷霉素和灭瘟素在叶瘟病发生初期及破肚期、齐穗期各喷施1次，对叶瘟防效为50.54%～72.67%，穗瘟为76.66%～87.42%，与化学杀菌剂三环唑相当。

Applied kasugamycin and blasticidin at the initial of rice leaf blast and the booting as well as heading stage , the efficacy was 50.54 % ~ 72.67 % for rice leaf blast and 76.66 % ~ 87.42 % for rice head blast , equal to tricyclazole .

六取代三环喹唑啉分子可以作为液晶半导体材料。

Hexa-substituted tricycloquinazoline molecule has been regarded as liquid crystalline semiconductors .