硫菌灵
- 网络Thiophanate;THIOPHANATE-METHYL;thiophanate-ethyl
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多菌灵、苯菌灵和甲基硫菌灵在1.66μg/ml时可以完全抑制Q1和Q2的生长,但在2.68μg/ml时才能完全抑制LR和LTR-2的生长。
It was found that carbendazim , benomyl and thiophanate methyl completely inhibited the growth of Q1 and Q2 at a concentration of 1.66 μ g / ml , and LR and LTR 2 at a concentration of 2.68 μ g / ml.
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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 % .
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苯并咪唑类杀菌剂对绿色木霉LTR-2的毒性最高,多菌灵、苯菌灵和甲基硫菌灵的EC50值依次为0.73951、.6784和0.7370μg/g。
Fungicides with benzimidazolyl had the highest toxicity against Trichoderma viride LTR-2.The EC_ ( 50 ) value of carbendazim , benlate and thiophanate-methyl were 0.7395, 1.6784 and 0.7370 μ g / g , respectively .
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毒物对甲基硫菌灵催化合成反应的影响
The Influence of The Poison to Thiophanate-methyl Catalytic Compose Reaction
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研究了在露地黄瓜栽培中,喷施毒死蜱、甲氰菊酯、氯氰菊酯、吡虫啉、百菌清、甲基硫菌灵和王铜等农药的残留降解动态。
The degradation dynamics of pesticide residues in ridge cucumber were investigated .
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甲基硫菌灵、福美双混合制剂的分析方法研究
Analytical Method for the Mixture of Thiophanate-methyl and Thiram
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再次为三唑酮,毒力仅为甲基硫菌灵的20.6倍;
Triadimefon had lower inhibition , its relative toxicity was20.6 times of thiophanate-methyl .
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黄瓜病害控制中多菌灵和甲基硫菌灵的替代药剂评价
Evaluation of Substituted Pesticides for Carbendazim and Thiophanate-Methyl in Control of Cucumber Disease
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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
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40%甲基硫菌灵悬浮剂配方的研究
Study on formula of 40 % thiophanate-methyl suspension concentrate
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采用混合溶剂合成甲基硫菌灵的研究
The Study of Composing Thiophanate-methyl with Mixed Solvents
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本文介绍了用进口甲基硫菌灵样品,采用溶剂萃取,高速离心,重结晶,高效液相色谱,红外光谱等分析方法进行系统分离与鉴定,得到其标样的方法。
A method for the preparation of standard of thiophanate-methyl by solvent extracting commercial product , high-speed centrifugation , recrystallization and identifying with HPLC , IR are described .
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建立了烟草土壤中丙硫多菌灵的超声波辅助溶剂提取-反相高效液相色谱法的残留分析方法,并利用该方法测定了丙硫多菌灵在土壤和烟草中的消解动态。
This article mainly established the method to analysis the albendazole residues in soil and tobacco with RP - HPLC and Ultrasonic-assisted solvent extraction methods .