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High-efficiency effect-directed analysis (EDA) advancing toxicant identification in aquatic environments: Latest progress and application status

Wenrui Luo, Liben Chou, Qinglan Cui, Si Wei, Xiaowei Zhang, Jing Guo

2024Environment International16 citationsDOIOpen Access PDF

Abstract

Facing the great threats to ecosystems and human health posed by the continuous release of chemicals into aquatic environments, effect-directed analysis (EDA) has emerged as a powerful tool for identifying causative toxicants. However, traditional EDA shows problems of low-coverage, labor-intensive and low-efficiency. Currently, a number of high-efficiency techniques have been integrated into EDA to improve toxicant identification. In this review, the latest progress and current limitations of high-efficiency EDA, comprising high-coverage effect evaluation, high-resolution fractionation, high-coverage chemical analysis, high-automation causative peak extraction and high-efficiency structure elucidation, are summarized. Specifically, high-resolution fractionation, high-automation data processing algorithms and in silico structure elucidation techniques have been well developed to enhance EDA. While high-coverage effect evaluation and chemical analysis should be further emphasized, especially omics tools and data-independent mass acquisition. For the application status in aquatic environments, high-efficiency EDA is widely applied in surface water and wastewater. Estrogenic, androgenic and aryl hydrocarbon receptor-mediated activities are the most concerning, with causative toxicants showing the typical structural features of steroids and benzenoids. A better understanding of the latest progress and application status of EDA would be beneficial to further advance in the field and greatly support aquatic environment monitoring.

Topics & Concepts

ToxicantIdentification (biology)Biochemical engineeringComputer scienceAutomationIn silicoComputational biologyBiologyEngineeringChemistryEcologyBiochemistryGeneOrganic chemistryMechanical engineeringToxicityMetabolomics and Mass Spectrometry StudiesAnalytical Chemistry and ChromatographyWater Quality Monitoring and Analysis