Heuristic Topological Graph Convolutional Network for Risk Prediction of Potentially Toxic Elements in Cultivated Soils.

Journal: Environmental science & technology
Published Date: Jul 29, 2025

Abstract

Contamination of cultivated soils with potentially toxic elements (PTEs) poses a growing threat to global food security. Although existing risk assessments have examined the accumulation and toxicity of PTEs, their dynamic interplay with multidimensional drivers has remained inadequately characterized. Here, an innovative heuristic graph convolutional network (GCN) model is introduced by integrating adaptive graph topology with quantified directional feedback optimization to improve ecological risk prediction. Leveraging 466 spatially resolved soil samples and 28 environmental drivers of a typical rice production area Yangtze River Basin in China, the heuristic GCN model outperformed traditional approaches by 23.1% in predictive accuracy. A three-phase heuristic algorithm pruned 85.5% of spurious edges in the topological graph, and GCN adaptively quantified the directional feedback between environmental drivers and ecological risk. Topological networks and feature importance analysis jointly identified pH, base saturation, calcium carbonate, exchangeable bases, and soil organic carbon as pivotal regulators acting alongside geological factors. By linking mechanistic soil chemistry with machine-learning-based causal inference, our model supports streamlinedly simplified, directionally quantified, and dynamically adapted ecological risk prediction. This enables the screening of the most efficient pathway of risk management and provides more precise and integrated strategies for ecological risk control in agroecosystems.

Authors

  • Huijuan Hao
    Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing 100085, PR China. Electronic address: hjhao@rcees.ac.cn.
  • Yongping Shan
    Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing 100085, PR China. Electronic address: ypshan@rcees.ac.cn.
  • Panpan Li
    College of Healthy Management, Shangluo University, Shangluo, Shaanxi 726000, China.
  • Mingxiu Zhan
    College of Metrology and Measurement Engineering, China Jiliang University, Hangzhou 310018 Zhejiang, China.
  • Hongkun Fan
    School of Forestry, Northeast Forestry University, Harbin 150006, China.
  • Feng Liu
    Department of Vascular and Endovascular Surgery, The First Medical Center of Chinese PLA General Hospital, 100853 Beijing, China.
  • Bo Zhang
    Department of Clinical Pharmacology, Key Laboratory of Clinical Cancer Pharmacology and Toxicology Research of Zhejiang Province, Affiliated Hangzhou First People's Hospital, Zhejiang University School of Medicine, Hangzhou, Zhejiang 310006, PR China.
  • Wanming Chen
    Department of Ultrasound, Guangzhou Red Cross Hospital (Guangzhou Red Cross Hospital of Jinan University), GuangZhou, China.
  • Wentao Jiao
    Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, 18 Shuangqing Road, Haidian District, Beijing 100085, PR China. Electronic address: wtjiao@rcees.ac.cn.
  • Yongguang Yin
    State Key Laboratory of Environmental Chemistry and Ecotoxicology, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing 100085, China.
  • Hyeong-Moo Shin
    Department of Environmental Science, Baylor University, Waco, Texas 76798, United States.
  • John P Giesy
    Department of Veterinary Biomedical Sciences and Toxicology Centre, Western College of Veterinary Medicine, University of Saskatchewan, Saskatoon, SK, Canada.

Keywords

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