Journal of Basic and Applied Zoology (May 2023)
From agricultural waste to chicken feed using insect-based technology
Abstract
Abstract Background This study investigates the potential of black soldier fly (BSF) larvae to recycle agricultural waste into larval biomass for chicken feed, and was carried out at the University of Dschang, Cameroon in 2020. Fruit waste consisting of papaya, pineapple and orange peels, and cocoa pods from local sources were used for this study. They were first grinded, and the fruit waste was subjected directly to the larvae from a pre-established BSF colony. Cocoa pods on the other hand were mixed with Tithonia leaves at 0% (C100:T0), 5% (C95:T5), 10% (C90:T10), 15% (C85:T15) and 20% (C80:T20), and larval recycling efficiency was assessed using bioconversion parameters. At the end of the process, the BSF larvae from the fruit waste were harvested, dried, grinded, and used in chicken diet as a source of dietary protein. Their nutritional effect was assessed using chicken growth parameters. Results Within 15 days, BSF larvae were able to reduce fruit waste by 96.05% and generated 125.33 g of fresh larvae, with an average bioconversion rate of 08.35%. The recycling efficiency of cocoa pods has been greatly improved with the incorporation of Tithonia leaves. The highest bioconversion rate was recorded with the C80:T20 treatment (17.2%). The larvae produced were concentrated in proteins, lipids, and minerals. Those harvested from recycling fruit waste consisted of 39.50% protein, 19.84% lipid and 10.37% ash. Their incorporation in chicken diet as a source of animal protein did not reveal any negative effects on the growth parameters. The growth performances recorded were comparable to that of commonly used fishmeal. Conclusions BSF larvae can easily be reared on agricultural waste to replace or supplement fishmeal in chicken diet. Adoption of this technology could help mitigate the adverse effects of poor agricultural waste management on the environment.
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