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Machine learning: Next promising trend for microplastics study

Journal of Environmental Management 2023 61 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 65 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Hongru Jiang, Jiming Su, Hongru Jiang, Hongru Jiang, Hongru Jiang, Hongru Jiang, Hongru Jiang, Jianchao Wang, Chongqing Wang Hongru Jiang, Jianchao Wang, Chongqing Wang Chongqing Wang Jianchao Wang, Hongru Jiang, Yingshuang Zhang, Yingshuang Zhang, Yingshuang Zhang, Yingshuang Zhang, Yingshuang Zhang, Yingshuang Zhang, Hui Wang, Hui Wang, Yingshuang Zhang, Chongqing Wang Chongqing Wang Jianchao Wang, Jianchao Wang, Hui Wang, Hongru Jiang, Hongru Jiang, Hongru Jiang, Yingshuang Zhang, Yingshuang Zhang, Yingshuang Zhang, Hui Wang, Hui Wang, Yingshuang Zhang, Fupeng Zhang, Hui Wang, Yingshuang Zhang, Hui Wang, Yingshuang Zhang, Yingshuang Zhang, Hongru Jiang, Hongru Jiang, Hongru Jiang, Jiming Su, Chongqing Wang Chuanxiu Yu, Chongqing Wang Hongru Jiang, Chongqing Wang Hongru Jiang, Jiming Su, Chongqing Wang Yingshuang Zhang, Yingshuang Zhang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hui Wang, Yingshuang Zhang, Yingshuang Zhang, Chuanxiu Yu, Hui Wang, Chongqing Wang Yingshuang Zhang, Hui Wang, Hui Wang, Yingshuang Zhang, Hui Wang, Yingshuang Zhang, Hui Wang, Hui Wang, Chongqing Wang Hui Wang, Hui Wang, Chongqing Wang Yingshuang Zhang, Hui Wang, Chongqing Wang Hui Wang, Hui Wang, Hongru Jiang, Jiming Su, Hui Wang, Hui Wang, Chongqing Wang Hui Wang, Hui Wang, Hui Wang, Hui Wang, Chongqing Wang Jiming Su, Hui Wang, Hui Wang, Chongqing Wang Chongqing Wang Chongqing Wang Hongru Jiang, Chongqing Wang Jianchao Wang, Hui Wang, Chongqing Wang Hui Wang, Hui Wang, Hui Wang, Hui Wang, Hongru Jiang, Chongqing Wang Hui Wang, Hui Wang, Hui Wang, Hui Wang, Chongqing Wang Chongqing Wang Chongqing Wang Chongqing Wang Hongru Jiang, Chongqing Wang Chongqing Wang Jianchao Wang, Hui Wang, Chongqing Wang Hui Wang, Hongru Jiang, Jianchao Wang, Hui Wang, Yingshuang Zhang, Hongru Jiang, Chongqing Wang Chongqing Wang Chongqing Wang Hui Wang, Chongqing Wang Hongru Jiang, Chongqing Wang Jianchao Wang, Jianchao Wang, Chongqing Wang

Summary

This review explains how machine learning -- a type of artificial intelligence -- is being applied to microplastics research to speed up identification, predict pollution patterns, and analyze environmental risks. Traditional methods of identifying microplastics are slow and labor-intensive, but machine learning can process large datasets much faster and more accurately. Better detection tools are important because they help scientists understand the true scale of human microplastic exposure.

Microplastics (MPs), as an emerging pollutant, pose a significant threat to humans and ecosystems. However, traditional MPs characterization methods are limited by sample requirements and characterization time. Machine Learning (ML) has emerged as a vital technology for analyzing MPs pollution due to its accuracy, broad application, and powerful feature extraction. Nevertheless, environmental scientists require threshold knowledge before using ML, restricting the ML application in MPs research. Furthermore, imbalanced development of ML in MPs research is a pressing concern. In order to achieve a wide ML application in MPs research, in this review, we comprehensively discussed the size and sources of MPs datasets in relevant literature to help environmental scientists deepen their understanding of the construction of MPs datasets. Commonly used ML algorithms are analyzed from the perspective of interpretability and the need for computer facilities. Additionally, methods for improving and evaluating ML model performance, such as dataset pre-processing, model optimization, and model assessment metrics, are discussed. According to datasets and characterization techniques, MPs identification using ML was divided into three categories in this work: spectral identification, image identification, and spectral imaging identification. Finally, other applications of ML in MPs studies, including toxicity analysis, pollutants adsorption, and microbial colonization, are comprehensively discussed, which reveals the great application potential of ML. Based on the discussion above, this review suggests an algorithm selection strategy to assist researchers in selecting the most suitable ML algorithm in different situations, improving efficiency and decreasing the costs of trial and error. We believe that this work sheds light on the application of ML in MPs study.

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