Abstract

BackgroundThe direct toxicological impact of insecticides on vector mosquitoes has been well emphasized; however, behavioural responses such as excito-repellency and physical avoidance as a result of insecticide exposure have not been much studied. We have demonstrated the excito-repellency and behavioural avoidance in certain vector mosquito species on exposure to a slow-release insecticidal paint (SRIP) formulation in addition to direct toxicity.MethodsA SRIP formulation developed by the Defence Research and Development Establishment, Gwalior, contains chlorpyriphos, deltamethrin and pyriproxyfen as active insecticides. Anopheles stephensi, Culex quinquefasciatus and Aedes aegypti mosquitoes were used to study the excito-repellency response of the formulation. The experiments were performed in a specially designed dual-choice exposure and escape chamber made of transparent polymethyl methacrylate. For the experiments, the SRIP formulation was applied undiluted at a rate of 8 m2 per kg on 15 cm2 metallic surfaces. Mosquitoes were introduced into the exposure chamber, and observations of the movement of mosquitoes into the escape chamber through the exit portal were taken at 1-min intervals for up to 30 min.ResultsThe evaluated formulation displayed strong excito-repellency against all three tested vector mosquito species. Results showed that the ET50 (escape time 50%) for Ae. aegypti, An. stephensi and Cx. quinquefasciatus was 20.9 min, 14.5 min and 17.9 min for contact exposure (CE) respectively. Altogether in CE, the escape rates were stronger in An. stephensi mosquitoes at different time intervals compared to Ae. aegypti and Cx. quinquefasciatus mosquitoes. The probit analysis revealed that the determined ET did not deviate from linearity for both non-contact exposure (NCE) and placebo exposure (PE) (χ2 ≤ 7.9; p = 1.0) for Ae. aegypti mosquitoes and for NCE (χ2 = 8.3; p = 1.0) and PE (χ2 = 1.7; p = 1.0) treatments in Cx. quinquefasciatus. Mortality (24 h) was found to be statistically higher (F = 6.4; p = 0.02) in An. stephensi for CE but did not vary for NCE (p ≥ 0.3) and PE (p = 0.6) treatments among the tested mosquito species. Survival probability response suggested that all the three tested species displayed similar survival responses for similar exposures (χ2 ≤ 2.3; p ≥ 0.1).ConclusionThe study demonstrates the toxicity and strong behavioural avoidance in known vector mosquito species on exposure to an insecticide-based paint formulation. The combination of insecticides in the present formulation will broaden the overall impact spectrum for protecting users from mosquito bites. The efficacy data generated in the study provide crucial information on the effectiveness of the tested formulation and could be useful in reducing the transmission intensity and disease risk in endemic countries.Graphical

Highlights

  • The direct toxicological impact of insecticides on vector mosquitoes has been well emphasized; behavioural responses such as excito-repellency and physical avoidance as a result of insecticide exposure have not been much studied

  • The results showed that ­ET50 for contact exposure (CE), non-contact exposure (NCE) and placebo exposure (PE) was 20.9 min, 95.8 min and

  • The probit analysis revealed that escape time (ET) determined for Ae. aegypti mosquitoes did not deviate from linearity for both NCE and PE (χ2 ≤ 7.9; p = 1.0)

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Summary

Introduction

The direct toxicological impact of insecticides on vector mosquitoes has been well emphasized; behavioural responses such as excito-repellency and physical avoidance as a result of insecticide exposure have not been much studied. We have demonstrated the excito-repellency and behavioural avoidance in certain vector mosquito species on exposure to a slow-release insecticidal paint (SRIP) formulation in addition to direct toxicity. Mosquitoes belonging to Anopheles, Aedes and Culex genera are considered important because of their involvement in transmitting many deadly diseases among humans. Culex mosquitoes are principally vectors of bancroftian filariasis, and capable of spreading flaviviruses [4, 5] as well as alphaviruses [6]. Tropical and sub-tropical countries are at continuous risk of different vector-borne diseases including malaria, dengue, filariasis, etc., and report considerable morbidity and mortality associated with these infections annually. Despite extensive research on mosquito control for decades, the prevention of these vectors primarily relies on using insecticides as residual sprays, space sprays and larvicides

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