키틴합성저해제인 diflubenzuron, triflumuron, chlorfluazuron을 갈색거처리와 유충과 번데기에 처리하여 효력검정법을 개발하였다. 유충에 대한 처리는 국소처리와 독먹이처리를 행하였고, 번데기에 대하요 용체침적처리와 미량주사처리를 행하였다. 유충에 대한 10 국소처리와 번데기에 대한 100ppm 용체 침적처리 결과 세약제 모두 유충 및 번덱의 발육에 아무런 영향을 주지 않았다. 유충에 대한 독먹이 처리에 있어서의 {{{{ { LC}_{ 50} }}}}값은 diflubenzuron 11.3, triflumuron 42.7, chlorfluazuron 6.2ppm이었다. 번데기에 대한 미량주사처리에서는 diflubenzuron 0.053, triflumuron 0.230, chlorfluazuron 0.340 /pupa의 {{{{ { LC}_{ 50} }}}}값을 나타내었다.
This study was conducted to establish a nce insect pest control system, ~ es.ys tematic application of insecticides using carbohran and buproiezin, in Korea. The effects oi various dates of application and rates of buprofezin (25% WP) after carbofuran (3G) soil incorpombon in late May on the pop~~lation densities of the brown planthoppa (BPH) immigrating in July were investigated Appropriate application tune of buprofezin for the BPH that had evaded insecticidal effect of 5011 incorporated carbofuran was late July-early August. Application rate of buprofezln at 7.0g a.i/lOa was enough to suppress the BPH density. Buprofezin treatment after carbofumn soil incorporation could also suppress the whlte backed planthopper population but did not affect the densities oi the paddy rice spiders. Considering the charactenstics of occurring patterns of the nce insect pests in Korea. buprofezin treatment m late July or early August after carbofuran soil incorporation in late May can be a useful application system of ir~sectic~deins controlling early season Insect pests and migmtoly planthoppers on rice.