1Department of Applied Chemistry, Yeshwantrao Chavan College of Engineering, Nagpur - 440 022, Maharashtra, India
Faculty of Allied Sciences, Krishna Vishwa Vidyapeeth “Deemed to be University”, Taluka-Karad, Satara-415 539, Maharashtra, India
*Corresponding authors' E-mail : jayakarape@gmail.com
Online published on 24 March, 2025.
This study contributes to a comprehensive understanding of the complex relationships between agrochemicals, mosquito populations, and disease transmission, facilitating informed decision-making in agriculture and public health sectors. Agrochemicals modify mosquito habitats by altering water quality, temperature, and vegetation, creating conducive breeding sites. They impose selection pressures, driving the development of pesticide resistance in mosquito populations. This resistance poses challenges for vector control strategies, affecting disease transmission dynamics. Agrochemicals also influence vector dynamics, including feeding behaviors, host preferences, and population abundance, thereby altering disease transmission rates. Agrochemical use induces ecological disruptions, harming natural predators and non-target insects, and perturbing ecosystem dynamics. These unintended effects exacerbate mosquito-borne disease risks. Understanding the intricate interactions between agrochemicals, mosquitoes, and disease transmission is crucial for devising effective vector control measures. Integrated approaches, considering ecological sustainability and public health, are imperative for mitigating the spread of mosquito-borne diseases while minimizing ecological impacts of agrochemicals.
Agrochemicals, Disease transmission, Integrated pest management, Mosquitoes, Population genetics, Vector dynamics