Litcius/Paper detail

<scp>ZnO</scp> nanoparticles produced in the culture supernatant of <scp><i>Bacillus thuringiensis</i> ser. <i>israelensis</i></scp> affect the demographic parameters of <scp><i>Musca domestica</i></scp> using the age‐stage, two‐sex life table

Hafsa Iqbal, Ammara Fatima, Hafiz Azhar Ali Khan

2022Pest Management Science18 citationsDOI

Abstract

BACKGROUND: Indiscriminate use of broad-spectrum insecticides can have deleterious effects on insects and the environment. The use of nanoparticles synthesized from microbes has recently gained importance as a safe alternative to conventional insecticides. Recently, zinc oxide (ZnO) nanoparticles synthesized using Bacillus thuringiensis have shown insecticidal potential; however, in addition to its acute toxicity, it is necessary to determine possible sublethal effects at the organismal level to understand the toxicity of a new insecticide. Bt-derived enzymes such as nitrate reductase and other biomolecules play a vital role in the reduction of metal ions to metal nanoparticles. Here, we assessed the acute toxicity and sublethal effects of ZnO nanoparticles produced in the culture supernatant of B. thuringiensis ser. israelensis (Bti) as a reducing agent on the biological traits of Musca domestica. RESULTS: ) resulted in a lengthened developmental time (egg to adult) and preoviposition period, and reduced fecundity, survival, longevity and oviposition period. Furthermore, population parameters including net reproductive rate, mean generation time, age-specific survival rate, fecundity, life expectancy and reproductive values, analyzed following age-stage and two-sex life table theory, were significantly decreased after exposure to these concentrations of ZnO-Bti-supernatant nanoparticles compared with the control. CONCLUSION: ZnO-Bti-supernatant nanoparticles were shown to be toxic to M. domestica. Exposure of M. domestica to low concentrations of ZnO-Bti-supernatant nanoparticles resulted in negative transgenerational effects on progeny production in this fly. © 2022 Society of Chemical Industry.

Topics & Concepts

Bacillus thuringiensisFecundityBiologyToxicologyBioassayToxicityLongevityAcute toxicityZincPopulationLarvaFood scienceChemistryBacteriaBotanyMedicineEcologyGeneticsOrganic chemistryEnvironmental healthNanoparticles: synthesis and applicationsInsect Resistance and GeneticsInsect Pest Control Strategies