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Comprehensive exploration on transfer and human health risk of potential toxic element in soil-rice system from the Pearl River Delta
Land Degradation & Development ( IF 4.7 ) Pub Date : 2024-03-27 , DOI: 10.1002/ldr.5112 Changchen Huang 1 , Qingye Hou 1 , Zhongfang Yang 1 , Tao Yu 2 , Yuanhang You 1 , Zhiliang Wu 1
Land Degradation & Development ( IF 4.7 ) Pub Date : 2024-03-27 , DOI: 10.1002/ldr.5112 Changchen Huang 1 , Qingye Hou 1 , Zhongfang Yang 1 , Tao Yu 2 , Yuanhang You 1 , Zhiliang Wu 1
Affiliation
The transfers of potential toxic elements (PTEs) from root soil to rice grains and its driving factors are of major worldwide concern. And it is still not clear whether the parent material has influence on the transfers of PTEs in soil. Thus, the aim of this study is to investigate the transfers of PTEs in soil-rice system from different parent materials area, identify its driving factors and evaluate human health risk. 157 sets of root soil and rice grains samples collected from the areas with quaternary sediments, acidic magmatic rocks and terrigenous clastic rocks in the Pearl River Delta, China. Pearson correlation analysis, discriminant analysis, redundancy analysis, path analysis and human health risk model were utilized for data processing and analysis. The results reveal that parent materials play a primary role affecting the transfers of PTEs in soil-rice system, and its influence on transfers of PTEs is achieved by governing physicochemical properties of soil. And physicochemical parameters like MgO, SiO2, Al2O3, TFe2O3, and organic matter (OM) exerted significant influence on transfers of PTEs. The influences of some physicochemical parameters on the transfers of PTEs are most significantly in the area of quaternary sediments. The values of the total non-carcinogenic and the total carcinogenic risks for children and adults caused by rice consumption are much higher than the corresponding risk limits, and the main contributing elements are Pb, As, and As, Cd, respectively. The human health risks caused by rice consumption are greatest in the area with quaternary sediments.
更新日期:2024-03-27
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