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Environmental Sources
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Decoding the Plastic Patch: Exploring the Global Microplastic Distribution in the Surface Layers of Marine Regions with Interpretable Machine Learning
Environmental Science & Technology2025
5 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 53
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Linjie Zhang,
Huahong Shi
Yinglong Su,
Wenyue Wang,
Huahong Shi
Huahong Shi
Linjie Zhang,
Yinglong Su,
Feng Wang,
Feng Wang,
Feng Wang,
Feng Wang,
Wenyue Wang,
Dong Wu,
Dong Wu,
Dong Wu,
Yinglong Su,
Feng Wang,
Feng Wang,
Feng Wang,
Huahong Shi
Huahong Shi
Huahong Shi
Yinglong Su,
Huahong Shi
Yinglong Su,
Yinglong Su,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Feng Wang,
Huahong Shi
Feng Wang,
Feng Wang,
Feng Wang,
Huahong Shi
Feng Wang,
Yinglong Su,
Yinglong Su,
Yinglong Su,
Yinglong Su,
Dong Wu,
Wenyue Wang,
Bing Xie,
Bing Xie,
Huahong Shi
Huahong Shi
Dong Wu,
Huahong Shi
Dong Wu,
Huahong Shi
Dong Wu,
Dong Wu,
Dong Wu,
Huahong Shi
Feng Wang,
Huahong Shi
Bing Xie,
Bing Xie,
Bing Xie,
Bing Xie,
Bing Xie,
Huahong Shi
Huahong Shi
Huahong Shi
Feng Wang,
Feng Wang,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Yinglong Su,
Huahong Shi
Yinglong Su,
Dong Wu,
Huahong Shi
Huahong Shi
Min Zhan,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Min Zhan,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Bing Xie,
Bing Xie,
Bing Xie,
Bing Xie,
Bing Xie,
Bing Xie,
Dong Wu,
Dong Wu,
Yinglong Su,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Min Zhan,
Yinglong Su,
Bing Xie,
Huahong Shi
Bing Xie,
Yinglong Su,
Huahong Shi
Feng Wang,
Bing Xie,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Bing Xie,
Feng Wang,
Bing Xie,
Bing Xie,
Min Zhan,
Huahong Shi
Huahong Shi
Kaiyi Li,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Bing Xie,
Huahong Shi
Bing Xie,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Bing Xie,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Yinglong Su,
Huahong Shi
Yinglong Su,
Huahong Shi
Huahong Shi
Bing Xie,
Yinglong Su,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Bing Xie,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Dong Wu,
Huahong Shi
Huahong Shi
Huahong Shi
Huahong Shi
Summary
Researchers used interpretable machine learning algorithms to predict global marine microplastic distribution patterns based on calibrated field data. The study found that biogeochemical and human activity factors had the greatest influence on microplastic concentrations, which ranged from about 0.2 to 27 particles per cubic meter across the world's oceans, providing a framework for pollution management and decision-making.
Study Type
Environmental
The marine environment is grappling with microplastic (MP) pollution, necessitating an understanding of its distribution patterns, influencing factors, and potential ecological risks. However, the vast area of the ocean and budgetary constraints make conducting comprehensive surveys to assess MP pollution impractical. Interpretable machine learning (ML) offers an effective solution. Herein, we used four ML algorithms based on MP data calibrated to the size range of 20-5000 μm and considered various factors to construct a robust predictive ML model of marine MP distribution. Interpretation of the ML model indicated that biogeochemical and anthropogenic factors substantially influence global marine MP pollution, while atmospheric and physical factors exert lesser effects. However, the extent of the influence of each factor may vary within specific marine regions and their underlying mechanisms may differ across regions. The predicted results indicated that the global marine MP concentrations ranged from 0.176 to 27.055 particles/m<sup>3</sup> and that MPs in the 20-5000-μm size range did not pose a potential ecological risk. The interpretable ML framework developed in this study covered MP data preprocessing, MP distribution prediction, and interpretation of the influencing factors of MPs, providing an essential reference for marine MP pollution management and decision making.