The fumigation toxicity of carbonyl sulfide to T. castaneum as a storage grain pest was evaluated. Carbonyl sulfide (COS) is registered in Australia for microorganism present in soil, root and fertilizer. the fumigation activity of carbonyl sulfide was investigated in 12 L desiccator for 24 h exposure to eggs, larvae, pupae, adults of T. castaneum. Eggs and pupae were showed 87.3% and 95.6% mortality for 25 mg/L of COS, respectively. Larvae and adults were investigated with 80.0% and 100.0% mortality at 15 mg/L treatment, respectively. Therefore, the eggs of T. castaneum showed the highest tolerance to COS.

The fumigation activity of phosphine (PH3) to T. castaneum as a storage grain pest was evaluated. The lethal concentration time (LCT) value of each developmental stage (egg, early larva, late larva, pupa and adult) of T. castaneum was analyzed in 12 L desiccator. At the T. castaneum larva stages, exposure for 4 h showed low LCT value, especially in early stage larvae (LCT99 = 0.32 mg·h/L) which is very high susceptibility to PH3. However, T. castaneum eggs were observed very high tolerance to PH3 at LCT99 77.47 mg·h/L. Therefore, the fumigant activity of PH3 against T. castaneum can be found to be significantly different depending on developmental stage.

Mediterranean fruit fly, Ceratitis capitata, is one of the most important quarantine pest worldwide. Fruit flies cause serious damage on orchard, and also can cause quarantine problem to fruit exportation. Recently, because of global warming, there is threats of fruit fly invasion to Korea, especially to Jeju island. So there should be a anticipative research about fruit fly control. Many physical quarantine treatment methods, like heat treatment and low-temperature treatment, are developed to control quarantine pests. Recent researches indicate that low-temperature treatment shows good efficacy on several quarantine pests without phytotoxicity. In this trial, we’ve applied the low-temperature treatment on citrus at laboratory and pilot scale containers to validate efficacy and phytotoxicity. Egg and larvae stage of C. capitata was completely controlled after 5 days and 8 days low-temperature treatment at 0℃ respectively, and there was no phytotoxicity on citrus. These results indicate that the low-temperature treatment can be applied to control fruit fly on citrus fruit.