There are tens of millions of animal deaths annually due to infectious diseases such as AI (Avian Influenza) and footand- mouth disease. Currently, eco-friendly and economical methods of disposal of the resulting animal carcasses are being studied. Among them, the black soldier fly (Hermetia Illucens, BSF) is attracting attention as an alternative to disposal methods that cause environmental pollution, such as incineration or landfills, because of its strong organic decomposition ability. In this study, the efficiency of BSF larvae for decomposition of broiler, pig, or duck was determined. Disposal ability relative to BSF larva level was measured for each. Our results confirmed that all three animals could be decomposed after 48 hours when BSF larva were injected at greater than 300% of the weight of the carcass.

Much research on Black Soldier Fly (Hermetia illucens) is underway in the disposal of food waste. In addition to food waste treatment, it has received much attention in the industrial using of by-products such as feed, compost, and antibiotics. In this study, the treatment efficiency of organic wastes and larval growth were investigated according to the amount of input. The organic wastes used in this study were chicken carcasses and food waste. In case of carcass treatment, to the exclusion of bones and feathers, it was treated about 83 percent. Food waste was completely treated in 48 hours when 50 percent of the weight of the food was put into the larvae. The maximum larval growth was observed with 10 percent injected, from 0.076 g to 0.254 g. However, there was no difference in the growth of larvae when 30 percent or more was added.

Since 2013, due to the London Convention prohibiting marine dumping of waste, many problems have occurred because food waste generated every day must be handled on the ground. Owing to recent institutional efforts and various technical studies for eco-friendly food waste treatment, various methods of treating food waste using insects have been studied. However, efficiency of Korean food waste treatment is in fact known to be low due to the high salinity of Korean food waste. In this study, we evaluated the treatment efficiency of food waste with various salt and moisture contents by the black soldier fly (Hermetia illucens). The results showed that the moisture content does not affect food waste treatment efficiency by the black soldier fly and the decomposition ability of food waste is good even at salt contents as high as 3%.