Black Soldier Flies Detoxify Apples
One of the great benefits of using black soldier flies for waste management is their ability to reduce the amounts of both biotic and abiotic contaminants in the substrates that they inhabit. Patulin is one such contaminant that is produced by fungi in rotting fruits and vegetables.
Xiao, Z., Mats, L. and Shao, S., 2024. Effect of patulin on the growth and nutrient composition of black soldier fly larvae. Journal of Insects as Food and Feed, https://doi.org/10.1163/23524588-00001306
Black solider fly (BSF, Hermetia illucens) is a common insect in most part of North America, Europe, and Asia, and it is one of the most promising alternative protein sources for animal consumption. BSF can be fed on food waste and agricultural byproducts, which are usually contaminated with mycotoxins. Therefore, it is important to study the fate of mycotoxins in BSF and how mycotoxins will affect the growth and nutrient composition of BSF. Patulin is one of the major mycotoxins found in rotten fruits and consumption of patulin contaminated food can cause both long term and short-term health problems in both human and livestock. In this study clean and patulin spiked apple puree were provided to 50 three days old black soldier fly larvae (BSFL) for 3, 6, 9 and 17 days. Patulin bioaccumulation and degradation by BSFL, survival rate, weight gain and nutrient composition of BSFL were evaluated. During the treatment period, no patulin bioaccumulation was found in BSFL. BSFL was able to degrade patulin and convert patulin into (E)-ascladiol. By day 17, BSFL degraded 89.7% of patulin, 5.7% of patulin was converted into (E)-ascladiol, and 10.3% of patulin remained in its original form. While patulin treatment led to lower biomass and growth rate in BSFL, greater protein content and lower lipid content was observed in patulin treated BSFL. Thus, we conclude that BSFL do not accumulate patulin, and it is able to degrade patulin and converts patulin into its derivatives. The applied patulin negatively affects the development of BSLF resulting in lower biomass, growth rate and lipid content, but it induces higher protein content in BSFL.