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A life cycle risk assessment of nanopesticides in freshwater

Mingyan Ke, Keshuo Zhang, Andrea Hicks, Fan Wu, Jing You

2025Environmental Science and Ecotechnology12 citationsDOIOpen Access PDF

Abstract

Conventional ecological risk assessments prioritize downstream anthropogenic impacts, overlooking risks arising from upstream processes involving highly hazardous substances and indirect emissions. This narrow focus obscures high-risk hotspots and renders traditional methodologies ill-suited for evaluating novel chemical entities. Nanopesticides, designed for targeted delivery of pesticidal active ingredients, are increasingly deployed to enhance efficiency, yet their altered environmental fate and transport dynamics may reshape end-of-life risks while their full lifecycle impacts remain uncharacterized. Here, we address this gap using imidacloprid (IMI) and its nano-encapsulated variant (nano-IMI) as case studies. By applying life cycle assessment and integrating the USEtox ecotoxicity model with the nano-specific SimpleBox4Nano framework, we quantify "cradle-to-gate" environmental impacts and derive substance-specific ecotoxicity metrics, enabling systematic characterization of end-of-life risks associated with these formulations. Production-stage ecological risks of nano-IMI (4.63×10 3 CTUe) are approximately four times greater than those for conventional IMI (1.18×10 3 CTUe). However, end-of-life freshwater ecological risks from nano-IMI emissions (0.012–6.93×10 4 CTUe) are 2–5 orders of magnitude lower compared with IMI (1.59×10 3 –6.13×10 6 CTUe), accounting for rainfall variability, toxicity data selection, fate, and environmental transport scenarios. Under equivalent rainfall conditions, nano-IMI exhibited up to three orders of magnitude lower integrated life-cycle freshwater ecological risks, underscoring its potential as an environmentally preferable alternative to conventional IMI. This research introduces a comprehensive and novel methodology for evaluating engineered nanomaterial alternatives across realistic environmental scenarios, providing essential insights into nanopesticide risk assessment throughout their lifecycle. • Life-cycle freshwater risks of conventional/nano-imidacloprid (IMI/nano-IMI) exhibit stage-specific disparities • Production-stage risk of nano-IMI is four times higher than IMI due to intensive nano-synthesis • End-of-life risks for nano-IMI are 2–5 orders of magnitudes lower than IMI under various scenarios • Nano-IMI reduces cumulative life-cycle freshwater risk by up to three orders of magnitude • The integrated framework provides a quantitative guide for designing greener chemicals

Topics & Concepts

Environmental scienceRisk assessmentComputer scienceComputer securityNanoparticles: synthesis and applicationsElectrochemical Analysis and ApplicationsPharmaceutical and Antibiotic Environmental Impacts
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