Comparative insecticidal efficiency between compounded pyrethroids and its preparations cooperated with several synergists was studied. As main components, Group A contained Permethrine Phthalthrine, Group B contained Permethrine Furameth rine and Group C contained Phthalthrine Dichlorvos. As synergists Piperonyl Butoxide (P.B.O.), N-Octylbicycloheptene dicarboximide (MGK-264), Octachlorodipropylether (S-421) was cooperated in each group. These preparations was treated to either Blattella G. or Musca D. for comparing about insecticidal efficiency[Knock-down rate (KT_(50), KT_(90)) and cumulative mortaility(percent/hrs)]. When the synergists was added to each Group, the insecticidal efficiency was improved. The most potent synergists was P.B.O. and the potency was decreased in the rank order of S-421$gt;MGK-264. The more the concentration of synergists was increased, the more the insecticidal effciency was improved. The rank order was 1:5≥1:4$gt; 1:3 in all three groups. The mortality (percent) according to time was similar to either KT_(50), or KT_(90-). Knock-down rate was appropriate parameter for the indicator about potency.
이 논문은 배추좀나방 방어시 피레스유제의 약효가 없어 피해를 많이 보았다는 농민의 민원에 의해 포장 약효를 확인하고 약제 저항성을 조사하여 대책을 수립코자 실시하였다. 전국 4개 도 7개 포장에서 2년간 실시한 시험 결과 대구에서는 95~98%의 방제가가 있었으나, 평택에서는 방제가가 0으로서 약효가 전혀 없었다. 피레스를 4회 살포하여 재배한 강원도 평창군의 여름배추 재배 농가 포장에서 공시약제 처리구의 유충 증가율은 489~552%로 무처리구에 비하여 방제효과가 전혀 없었다. 약효가 없었던 포장의 배추좀나방을 채집, 약제처리 하지 않고 6세대 사육한 것은 JMC와 거의 비슷한 감수성이 회복되었으며, 다시 6세대 피레스 로이드제를 처리하여 사육한 것은 JMC에 비하여 341~544배의 저항성이 다시 유발되었다. 이상의 결과로 농민의 민원은 같은 약제의 전용에 의하여 나타난 약제 저항성의 결과인 것으로 증명됨으로써, 우리나라에서도 배추좀나방의 피레스로이드제에 대한 저항성이 지역에 따라 많이 발생하고 있었고 피레스로이드제에 대한 약제 저항성은 전용에 의해 저항성이 증가하고 사용을 중단함으로써 감수성이 회복됨이 확인되었다.
Laboratory sorption isotherm batch studies have been attempted to elucidate interaction of synthetic pyrethroids (bifenthrin and permethrin) with sediments and their fractions. As a nonlinear isothermal model, the Freundlich equation was applied to sorption results obtained from sediments to investigate the relationship between synthetic pyrethroids and sediments containing different amounts of organic carbon. Results demonstrated that the sorption capabilities of bifenthrin and cis- and trans-permethrin was in the order of bifenthrin, cis-permethrin and trans-permethrin, respectively, indicating that adsorbed bifenthrin was the most stable followed by cis- and trans-permethrin in all sediments. Their sorption capability was closely related to organic carbon contents in sediments. Higher sorption was observed in sediments containing higher organic carbon contents. Sorption study extended into the fractions, clay and humic acids, extracted from a sediment, indicated that higher sorption capacity in humic acids occurred than in the clay of both examined bifenthrin and permethrin. This study demonstrates the sorption of synthetic pyrethroids with sediments, and will help in the understanding of the transport and fate of synthetic pyrethroids existing in field sediments.