2) PAHs-degrading microorganisms
多环芳烃降解菌
1.
The addition of FD or PP seemed to stimulate the population size of PAHs-degrading microorganisms, which most likely resulted in the elevated degradation of PAHs on D30 up to 37% and 35%, respectively.
5%造纸干粉等3个处理,25~28℃摇床培养,分别于10、20、30d采样测定土壤中多环芳烃降解菌的数量和多环芳烃含量。
3) multibenomyl and benomyl
多菌灵和苯菌灵
1.
Some research results of sampling preprocessing field in multibenomyl and benomyl analysis at home and overseas are analyzed,and it provides reference for selection of optimum preprocessing method in practical environmental monitoring.
本文主要是介绍目前国内外多菌灵和苯菌灵分析中在样品预处理领域的一些研究成果,为实际环境监测中选择最合适的预处理分析方法提供参考。
4) Carbendazol
多菌灵
1.
Determination of Carbendazol,Imidacloprid and Thiophanate Methyl in Soil by High Performance Liquid Chromatography;
高效液相色谱法同时测定土壤中多菌灵、吡虫啉和甲基托布津的残留
2.
Simultaneous determination of 5-HMF,patulin,dimethoate and carbendazol in apple juice by RP-HPLC;
RP-HPLC法同时检测苹果汁中5-HMF、展青霉素、乐果及多菌灵
3.
Determination of Residual Carbendazol,Imidacloprid and Thiophanate Methyl in Fruits and Vegetables by HPLC;
高效液相色谱法测定水果和蔬菜中残留的多菌灵、吡虫啉和甲基托布津
5) Carbendazim
多菌灵
1.
Determination of Carbendazim in Fruits Using Novel Activated Carbon Fiber Solid Phase Microextraction Coupled with Gas Chromatography;
水果中多菌灵的衍生炭纤维固相微萃取气相色谱测定法
2.
Analysis of 50% Carbendazim and Thiram WP by HPLC;
50%多菌灵·福美双可湿性粉剂高效液相色谱分析
3.
Rapid Determination of Carbendazim in Lentinulaedodes by Derivative Synchronous Fluorescence Spectrometry;
导数同步荧光法快速检测香菇中的多菌灵
6) carbendazin
多菌灵
1.
Enhanced solubilization of carbendazin by sulfonated β -cyclodextrin;
磺化环糊精对农药多菌灵的增溶的应用研究
2.
Research on Optimum Mixing Proportion of Triadimefon and Carbendazin in Seedcoating;
种衣剂中三唑酮与多菌灵混配最佳配比研究
3.
By the mycelium growth rate methods,the toxicity of six fungicides such as 80% zineb wettable powder,80% mancozeb wettable powder,75% chlorothanil wettable powder,70%thiophanate-methyl,50% carbendazin wettable powder and 50% prochloraz-manganese chloride complex wettable powder were tested against Colletetrichum orbicalare.
采用生长速率法测定80%代森锌可湿性粉剂zineb、80%代森锰锌可湿性粉剂、75%百菌清可湿性粉剂、70%甲基硫菌灵可湿性粉剂、50%多菌灵可湿性粉剂、50%咪鲜胺锰盐可湿性粉剂等6种杀菌剂对西瓜炭疽病菌(Colletetrichum orbicalare)的毒力,咪鲜胺锰盐和多菌灵的毒力最高,其EC50分别为0。
补充资料:多菌灵
多菌灵 carbendazim 苯并咪唑类内吸杀菌剂品种之一。其结构式如左。1973年英国有多菌灵杀菌活性的报道,随后由联邦德国和美国开始生产和推广。纯品是白色结晶粉末,难溶于水,微溶于丙酮、氯仿中,在无机酸溶液中稳定,形成可溶性盐。是广谱性内吸杀菌剂,对植物病害有预防和治疗作用,对人畜毒性低 。 多菌灵对子囊菌纲和半知菌纲的许多植物病原菌有效。常用于稻、麦、棉、果树、蔬菜等多种作物的病害防治。根据各种病害的发生和侵入部位,可分别采用种子处理、叶面喷雾或土壤处理等方法。甲基托布津、苯菌灵等在生物体内、外降解或代谢也可转化为多菌灵而起杀菌作用。 |
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条