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Rapid Prediction of Chemical Ecotoxicity Through Genetic Algorithm Optimized Neural Network Models

Ping Hou, Bu Zhao, Olivier Jolliet, Ji Zhu, Peng Wang, Ming Xu

2020ACS Sustainable Chemistry & Engineering31 citationsDOI

Abstract

Evaluating potentially hazardous effects of chemicals on ecosystems has always been an important research topic traditionally studied using laboratory or field experiments. Experiment-based ecotoxicity test results are only available for a limited number of chemicals due to the extensive experimental effort and cost. Given the ever-increasing number of chemicals involved in the modern production process and products, rapidly characterizing chemical ecotoxicity at lower costs has become critical for guiding technology and policy development for chemical risk management. In this study, artificial neural network models are developed to predict chemical ecotoxicity (HC50) based on experimental data to fill data gaps in a widely used database (USEtox). To reduce the manual tuning effort on optimal network architecture, a genetic algorithm is investigated to automatically search and configure the network architecture. The resulting neural network model reached an average test R2 of 0.632 and had a trivial difference with the global optimal regarding validation MSE. The findings of this study can rapidly predict the ecotoxicity of chemicals and further help to understand the potential risk of chemicals and develop strategies for risk management.

Topics & Concepts

EcotoxicityArtificial neural networkProcess (computing)Computer scienceGenetic algorithmBiochemical engineeringMachine learningArtificial intelligenceEngineeringChemistryOperating systemToxicityOrganic chemistryWater Quality Monitoring and AnalysisComputational Drug Discovery MethodsStatistical and Computational Modeling
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