Cadmium, lead, and arsenic contamination in paddy soils of a mining area and their exposure effects on human HEPG2 and keratinocyte cell-lines

A mining district in south China shows significant metal(loid) contamination in paddy fields. In the soils, average Pb, Cd and As concentrations were 460.1, 11.7 and 35.1mgkg−1 respectively, which were higher than the environmental quality standard for agricultural soils in China (GB15618-1995) and...

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Bibliographic Details
Published in:Environmental research 2017-07, Vol.156, p.23-30
Main Authors: Xue, Shengguo, Shi, Lizheng, Wu, Chuan, Wu, Hui, Qin, Yanyan, Pan, Weisong, Hartley, William, Cui, Mengqian
Format: Article
Language:English
Subjects:
ARSENIC
Arsenic - analysis
Arsenic - metabolism
Arsenic - toxicity
CADMIUM
Cadmium - analysis
Cadmium - metabolism
Cadmium - toxicity
Cell exposure effects
Cell Line
Cell Survival - drug effects
CHINA
CHRONIC EXPOSURE
CONCENTRATION RATIO
CONTAMINATION
ECOLOGICAL CONCENTRATION
ENVIRONMENTAL QUALITY
ENVIRONMENTAL SCIENCES
Gene Expression Regulation - drug effects
GLOBAL ASPECTS
HEAVY METALS
Hep G2 Cells
Humans
Keratinocytes - cytology
Keratinocytes - drug effects
Lead
Lead - analysis
Lead - metabolism
Lead - toxicity
Metallothionein - genetics
Metallothionein - metabolism
MINING
Oryza - chemistry
Oryza - metabolism
PETROLEUM
PROTEINS
PUBLIC HEALTH
RICE
Soil contamination
Soil Pollutants - analysis
Soil Pollutants - toxicity
SOILS
SPATIAL DISTRIBUTION
UNITED KINGDOM
VIABILITY
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Summary:A mining district in south China shows significant metal(loid) contamination in paddy fields. In the soils, average Pb, Cd and As concentrations were 460.1, 11.7 and 35.1mgkg−1 respectively, which were higher than the environmental quality standard for agricultural soils in China (GB15618-1995) and UK Clea Soil Guideline Value. The average contents of Pb, Cd and As in rice were 5.24, 1.1 and 0.7mgkg−1 respectively, which were about 25, 4.5 or 2.5 times greater than the limit values of the maximum safe contaminant concentration standard in food of China (GB 2762-2012), and about 25, 10 or 1 times greater than the limit values of FAO/WHO standard. The elevated contents of Pb, Cd and As detected in soils around the factories, indicated that their spatial distribution was influenced by anthropogenic activity, while greater concentrations of Cd in rice appeared in the northwest region of the factories, indicating that the spatial distribution of heavy metals was also affected by natural factors. As human exposure around mining districts is mainly through oral intake of food and dermal contact, the effects of these metals on the viability and MT protein of HepG2 and KERTr cells were investigated. The cell viability decreased with increasing metal concentrations. Co-exposure to heavy metals (Pb+Cd) increased the metals (Pb or Cd)-mediated MT protein induction in both human HepG2 and KERTr cells. Increased levels of MT protein will lead to greater risk of carcinogenic manifestations, and it is likely that chronic exposure to metals may increase the risk to human health. Nevertheless, when co-exposure to two or more metals occur (such as As+Pb), they may have an antagonistic effect thus reducing the toxic effects of each other. Metal contaminations in paddy soils and rice were influenced by anthropogenic activity; metal co-exposure induced MT protein in human cells. [Display omitted] •Pb, Cd and As in paddy soils and rice were higher than national and FAO standards.•Pb, Cd and As spatial distribution was mainly influenced by anthropogenic activity.•The HepG2 and KERTr cell viability decreased with increasing metal concentrations.•Co-exposure to heavy metals increased MT protein induction in HepG2 and KERTr cells.•Co-exposure to some metals (As+Pb) may have an antagonistic effect.
ISSN:0013-9351
1096-0953
DOI:10.1016/j.envres.2017.03.014