Quantitative heterogeneous source apportionment of toxic metals through a hybrid method in spatial random fields

Toxic metals in soils pose hazards to food security and human health. Accurate source apportionment provides foundation for pollution prevention. In this study, a novel hybrid method that combines positive matrix factorization, Bayesian maximum entropy and integrative predictability criterion is pro...

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Bibliographic Details
Published in:Journal of hazardous materials 2024-03, Vol.465, p.133530-133530, Article 133530
Main Authors: Fei, Xufeng, Lou, Zhaohan, Sheng, Meiling, Xiaonan, Lv, Ren, Zhouqiao, Xiao, Rui
Format: Article
Language:English
Subjects:
Bayesian maximum entropy
Integrative predictability criterion
Positive matrix factorization
Source analysis
Toxic metal
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Summary:Toxic metals in soils pose hazards to food security and human health. Accurate source apportionment provides foundation for pollution prevention. In this study, a novel hybrid method that combines positive matrix factorization, Bayesian maximum entropy and integrative predictability criterion is proposed to provide a new perspective for exploring the heterogeneity of pollution sources in spatial random fields. The results suggest that Cd, As and Cu are the predominant pollutants, with exceedance rates of 27%, 12% and 11%, respectively. The new method demonstrates superiority in predicting toxic metals when combined major and all sources as auxiliary information., with the improvements of 44% and 46%, respectively, Although the major sources identified with the hybrid method are the primary contributors to the accumulation of toxic metals (e.g. coal combustion for Hg, traffic emission for Pb and Zn, industrial activities for As, agricultural activities for Cd and Cu and natural sources for Cr and Ni), the impact of nonmajor sources on toxic metal sin specific regions should not be ignored (e.g. industrial activities on Ni, Pb and Zn in the north and natural sources on Cd, Cu, As, Pb and Zn in the south). For better pollution control, specific local sources should be considered. [Display omitted] •A novel hybrid method is proposed for source apportionment in spatial random fields.•Cd, As and Cu are the major pollutants, with exceedance rate of 27%, 12% and 11%.•The new method significantly improves the source analysis, with an RI-RMSE of 44%.•Cd, As and Cu are mainly from agricultural, industrial and composite sources.•The impact of nonmajor source on toxic metal in specific region should not be ignored.
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2024.133530