咪鲜胺

结果表明：咪鲜胺的光化学降解速率随着pH的增大而减慢；

Photochemical degradation rate of prochloraz decreased as pH increased .

在选定的HPLC检测条件下，咪鲜胺的保留时间为5.384min，最小检出量为：3.5×10-10g；

Under HPLC conditions , prochloraz retain time was 5.384 min and the minimal limit of assay was 3.5 × 10-10 g.

研究了咪鲜胺（prochloraz）及其制剂施保克（Sportak，25%咪鲜胺乳油）在6种水稻土中的吸附行为和吸附机理。

The adsorption behavior and mechanism of prochloraz and its formulation were studied in six kinds of paddy soil .

结果表明：咪鲜胺和施保克在水稻土中的吸附平衡时间为5~10h，其吸附过程符合Freundlich吸附等温式；

The results showed that the adsorption balance times were from 5 to 10 h , and it was found that adsorption process of prochloraz and its formulation could be fitted to Freundlich ( isotherm ) process .

它们对土壤蔗糖酶活性的影响均于30d明显减轻，即咪鲜胺对供试土壤生态环境影响减弱。

The effect of prochloraz 、 sportak and its metabolites on invertase obviously released in 30 days . It may be suggested that they decrease the influence on ecological environment of soil with the prolonging time .

25%咪鲜胺乳油400倍液和800倍液，浸果1min，分别在30d和20d后，柑桔中咪鲜胺残留量降至安全水平。

Residues of prochloraz in orange dipped in 400 and 800 times diluted 25 % prochloraz EC for 1 minute decreased to safety level respectively 30 and 20 days later .

咪鲜胺及其代谢物在水稻中的残留检测方法及残留动态

Residue Detection and Degradation of Prochloraz and its Metabolites in Rice

咪鲜胺对大鼠甲状腺功能亚慢性损伤的研究

Study on the Subchronic Injury of Rat Thyroid Function Caused by Prochloraz

咪鲜胺在粤浙两地水稻和土壤中残留动态

Residues dynamics of prochloraz in rice and soil in Guangdong and Zhejiang

咪鲜胺与三氯异氰尿酸对水稻恶苗病防治效果比较试验

Comparison test of Prochloraz and Trichloroisocyanuric acid on controlling rice bakanae disease

25%咪鲜胺乳油防治水稻恶苗病的效果

Field Trial Report of 25 % Prochloraz EC for Control Gibberella fujikuroi

咪鲜胺及其代谢产物2,4,6-三氯苯酚在蘑菇及土壤中的残留动态

Residue Dynamics of Prochloraz and its Metabolite 2,4,6-Trichlorophenol in Mushroom and Soil

50%甲硫·咪鲜胺可湿性粉剂的高效液相色谱分析

Analysis of Thiophanate-methyl and Prochloraz 50 % WP by HPLC

10%咪鲜胺微乳剂防治水稻恶苗病试验效果初报

Preliminary Report on Effect of 10 % Prochloraz Micro-emulsion on Rice Bakanae Disease

利用伪三元相图法制备10%咪鲜胺微乳剂

Pseudo-ternary Phase Diagrams of Microemulsion of 10 % Prochloraz

甲基硫菌灵与咪鲜胺混合制剂的液相色谱分析方法研究

Analysis of Thiophanate-Methyl and Prochloraz in Mixture by HPLC

25%咪鲜胺乳油的反相高效液相色谱测定

Determination of Prochloraz 25 % EC by RP-HPLC

咪鲜胺及其主要代谢物在稻田水土中的残留分析方法

Residual Quantity Determination of Prochloraz and Its Major Metabolites in Paddy Water and Soil

咪鲜胺在水中的光化学降解研究

Photo - degradation of Prochloraz in Water

咪鲜胺及其制剂和主要代谢物对土壤过氧化氢酶活性的影响

Effect of Prochloraz , Its Formulation and Major Metabolites on the Activity of Catalase in Soil

基准剂量法在咪鲜胺锰盐亚慢性毒性研究中的应用

The Benchmark Approach Applied to a Subchronic Toxicity Study with the Pesticide Prochloraz - Manganese Chloride Complex

咪鲜胺在供试的3种水体中的光化学降解速率大小为：稻田水河水纯水。

Photochemical degradation rate of prochloraz in the three water types tested was as follows : paddy water river water pure water .

咪鲜胺锰盐和苯醚甲环唑对甜瓜黑斑病菌的联合毒力测定结果表明两药以6∶1和1∶1混配，具有增效作用；

The synergic toxicity tests showed that the mixed preparation had synergistic effect at the ratio of6 ∶ 1 and1 ∶ 1 .

咪鲜胺在各样品中的添加回收率为80.1%~91.8%，变异系数为1.8%~9.6%。

The fortified recovery of prochloraz was 80.1 % ~ 91.8 % , with a CV of 1.8 % ~ ( 9.6 % . )

咪鲜胺作为一种对大多数由半知菌和子囊菌引起的病害具有明显的抑制效果的广谱杀菌剂，其同时也可以与许多杀虫剂、杀菌剂以及除草剂混用，具有广阔的应用前景。

Prochloraz , as a broad spectrum fungicide which is has a obvious inhibitive effect to most of the ascomycetes separately and imperfect fungi .

本研究采用菌丝生长速率法测定了黑龙江省不同地区采集的130个稻瘟病菌菌株对咪鲜胺的敏感性。

With the method of mycelium growth rate , the sensitivity to prochloraz of 130 strains of Pyricularia grisea were measured in different areas of Heilongjiang Province .

残留动态研究表明，咪鲜胺在水稻苗中消解较快，半衰期仅为3.4d；

The results obtained from two years experiments showed that the degradation of prochloraz in rice seedling was fast , and its half-life was only ( 3.4 days . )

盆栽试验结果表明咪鲜胺锰盐-苯醚甲环唑（6∶1）的预防效果和治疗效果最好，分别达到100.00%和90.54%；

The pot tests demonstrated that prochloraz-manganese chloride complex and difenoconazole at the ratio of6 ∶ 1 had the best prevention and cure effect of100.00 % and90.54 % , respectively .

田间试验结果表明，50%咪鲜胺1000倍液防治效果最好，防效为80.7%，70%甲基硫菌灵1000倍液防效为71.6%。

In the field , the results showed that control efficiencies of 50 % prochloraz manganese WP 1000 times was the best ( 80.7 % ), the control efficiency of 70 % thiophanate methyl WP ( 1000 times ) was 71.6 % .

到水稻收获时，在用166.6mg/L浸种处理后的稻米和稻秆中分别检出了0.025和0.056mg/kg的残留量，其他样本中均未检出咪鲜胺的残留。

After a growing season , only in the sample from high dosage of application , the residue in rice grain and rice straw were 0.025 and ( 0.056 mg / kg ) respectively , no detectable residue was found in the other samples .