A novel graph convolutional neural network model for predicting soil Cd and As pollution: Identification of influencing factors and interpretability
文献类型: 外文期刊
第一作者: Zhang, Ren-Jie
作者: Zhang, Ren-Jie;Ji, Xiong-Hui;Pan, Shu-Fang;Zhang, Ren-Jie;Ji, Xiong-Hui;Xie, Yun-He;Xue, Tao;Liu, Sai-Hua;Tian, Fa-Xiang;Pan, Shu-Fang;Zhang, Ren-Jie;Ji, Xiong-Hui;Xie, Yun-He;Xue, Tao;Liu, Sai-Hua;Tian, Fa-Xiang;Pan, Shu-Fang
作者机构:
关键词: Soil Cd/As pollution; Graph neural networks; Model interpretability; Spatial relationships; Deep learning
期刊名称:ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY ( 影响因子:6.1; 五年影响因子:6.4 )
ISSN: 0147-6513
年卷期: 2025 年 292 卷
页码:
收录情况: SCI
摘要: Soil pollution caused by toxic metals poses serious threats to the ecological environment and human well-being. Accurately predicting toxic metal concentrations is critical for safeguarding soil environmental security. However, the distribution of soil toxic metal concentrations often exhibits significant spatial heterogeneity and intricate correlations with other environmental influencing factors, posing substantial challenges to accurate prediction. This study delves into the prospective application of a novel graph convolutional neural network model, namely DistNet-GCN. By capitalizing on the spatial relationships among sampling points, this model endeavors to predict cadmium (Cd) and arsenic (As) concentrations in soil. The distinctive feature of this model resides in its capacity to mimic the transmission process of relationships between soil Cd/As concentrations and the environmental influencing factors within a local spatial scope by integrating the powerful ability of GCN to extract the inter-node dependencies in complex networks. Subsequently, it extracts the critical features of the dataset from a spatial relationship graph structure by taking the spatial positions of sampling points as network nodes, the concentrations of toxic metals as node labels, and environmental factors as node attributes. In comparison with traditional models, the DistNet-GCN model achieves the highest prediction accuracy for soil Cd and As concentrations. Specifically, the R2 values reach 0.91 and 0.94 respectively, which signify improvements of 21.33 % and 9.30 % over those of Multiple Linear Regression (MLR). The outcome of the interpretability analysis shows that the urban human activities, mining operation, pH, and soil organic matter (SOM) are the most important environmental factors affecting the spatial distribution of soil Cd/As concentrations in the study area. Additionally, the local spatial autocorrelation findings reveal that the Moran's I values for Cd and As are 0.796 and 0.897, respectively, which validate the structural soundness and rationality of the DistNet-GCN model. This study enlightens a novel approach of soil Cd/As concentrations prediction by integrating spatial graph structures into the deep learning models and is significant for uncovering the complex correlations between toxic metal concentrations in soil and various environmental factors.
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