Effect of the Rearing Substrate Contamination with λ-Cyhalothrin Pesticide on the Growth Performance and Survival of Black Soldier Fly (Hermetia illucens) Larvae: A Study of Biodegradation Kinetics

Mbokou Foukmeniok, Serge; Ogbon, Azarath; Bougna Tchoumi, Hortense Honorine; Dzepe, Daniel; Santos, Joanne Christelle Carline; Riggi, Laura; Tonle Kenfack, Ignas; Djouaka, Rousseau

doi:10.1007/s42250-024-00942-1

Research article2024Peer reviewed

Effect of the Rearing Substrate Contamination with λ-Cyhalothrin Pesticide on the Growth Performance and Survival of Black Soldier Fly (Hermetia illucens) Larvae: A Study of Biodegradation Kinetics

Mbokou Foukmeniok, Serge; Ogbon, Azarath; Bougna Tchoumi, Hortense Honorine; Dzepe, Daniel; Santos, Joanne Christelle Carline; Riggi, Laura; Tonle Kenfack, Ignas; Djouaka, Rousseau

Abstract

Purpose Pesticide residues may be present in fruits and other organic wastes used as rearing substrates for black soldier fly larvae (BSFL, Hermetia illucens). These contaminants are toxic, and their presence in rearing substrates might affect the growth and survival of BSFL as well as the safety of larvae. The present study assesses the effect of lambda-cyhalothrin pesticide present in rearing substrates (mixture of oranges and pineapples) on the growth performance and survival of BSFL. Moreover, the biodegradation kinetics of lambda-cyhalothrin by BSFL and kinetic parameters were determined. Methods Six-day old larvae were reared on the fruit wastes, spiked with known concentrations of lambda-cyhalothrin. The High-Performance Liquid Chromatography (HPLC) technique was used in the determination of residual concentrations of lambda-cyhalothrin in both larvae and substrates. Results By application of the HPLC method, a linear dynamic range of lambda-cyhalothrin was found within the concentration range of 0.625-20 mgL(-1), with a limit of detection and limit of quantification of 0.124 mgL(-1) and 0.820 mgL(-1), respectively. Overall, the presence of lambda-cyhalothrin (concentration >= 30 x Maximum Residual Limit) in the spiked substrate was observed to slow down the development of larvae, but no bioaccumulation of lambda-cyhalothrin was detected in the survived larvae at all developmental stages. No larvae survived on the substrates with lambda-cyhalothrin concentrations of 5 mgL(-1) (A total mortality was observed 48 h after incubation). The development of BSFLs on substrates containing 3 mgL(-1) of lambda-cyhalothrin was weak, but larvae showed an ability to degrade lambda-cyhalothrin and no by-products were identified. The obtained degradation kinetics were found to be of second order, with half lives of 2.00, 8.85 and 9.52 days for lambda-cyhalothrin at 0.5, 1, and 3 mgL(-1), respectively. Conclusion The present approach showed no contamination risk of BSFLs by pesticide residues present in rearing substrates. However, the presence of pesticide residues affects the development of larvae at certain concentrations and therefore could reduce the production. The proposed approach could be an efficient alternative for a quality control analysis of BSFL produced in West Africa.

Keywords

Contamination; lambda-cyhalothrin; HPLC; Hermetia illucens; Kinetics; Degradation

Published in

Chemistry Africa
2024,
Publisher: SPRINGERNATURE

SLU Authors

Riggi, Laura
- Department of Ecology, Swedish University of Agricultural Sciences

UKÄ Subject classification

Other Chemistry Topics
Environmental Sciences

Publication identifier

DOI: https://doi.org/10.1007/s42250-024-00942-1

Permanent link to this page (URI)

https://res.slu.se/id/publ/129359