Ten-year regional monitoring of soil-rice grain contamination by heavy metals with implications for target remediation and food safety

Ten-year regional monitoring of soil-rice grain contamination by heavy metals with implications for target remediation and food safety

Farmland soil heavy metal contamination could pose potential risks to ecosystems, food safety and human health ultimately. Regional researches on the long-term monitoring of heavy metals in a soil-rice grain system, changed with environmental policy adjustment, have been hindered by limited detailed...

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Bibliographic Details
Published in:Environmental pollution (1987) Vol. 244; pp. 431 - 439
Main Authors: He, Mingjiang, Shen, Haoran, Li, Zhangtao, Wang, Lu, Wang, Fan, Zhao, Keli, Liu, Xingmei, Wendroth, Ole, Xu, Jianming
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-01-2019
Subjects:
Cadmium - analysis
China
Copper - analysis
Edible Grain - chemistry
Electronic waste
Electronic Waste - analysis
Environmental Monitoring
Environmental Pollution - analysis
Food Quality
Food Safety
Humans
Lead - analysis
Metal-contaminated soil
Metals, Heavy - analysis
Nickel - analysis
Oryza - chemistry
Risk Assessment
Soil - chemistry
Soil Pollutants - analysis
Target remediation
Temporal trend
Zinc - analysis
China
Electronic waste
Food safety
Target remediation
Metal-contaminated soil
Temporal trend
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Summary:Farmland soil heavy metal contamination could pose potential risks to ecosystems, food safety and human health ultimately. Regional researches on the long-term monitoring of heavy metals in a soil-rice grain system, changed with environmental policy adjustment, have been hindered by limited detailed data. In this study, we collected 169 paired paddy rice grain and corresponding soil samples from a former intensive electronic-waste dismantling region to survey the current status of heavy metal contamination, and to reveal the temporal trends over the past decade based on the previous data obtained in 2006 and 2011. Moderate contaminations of Cd, Cu, Zn and Ni were observed in soil currently. Furthermore, 20.7% of rice grain samples exceeded the Cd threshold value. Cd, Cu, Zn and Pb shared the similar spatial distribution pattern with higher concentrations in northwest, which were contrary to Cr, Ni and As. Risk assessment indicated that much attention is required for the carcinogenic risk of Cr, Cd and As and non-carcinogen risk of Cr. Combining the spatial distribution of heavy metals in soil and rice grains, and the potential ecological risks, with the human health risks, the middle-west rice paddies were identified and proposed as priority areas. Percentage of soil Pb, Cd and Zn decreased in most area and slightly increased in northwest and east. Cu decreased in southwest and increased in central part, while Ni slightly increased in the whole region between 2006 and 2016. With the scrutiny of strict environmental policy, Cd still remained relatively constant levels in soil and rice grains during the last decade, which confirmed that the heavy metals were persisted over the long duration. Target sustainable and ongoing green remediation methods should be adopted urgently in specific area to guarantee food safety and human health for local residents. [Display omitted] •Long-term site-specific monitoring of heavy metals in soil-rice grain system.•Heavy metal concentrations were mapped against specific element thresholds.•Priority area was proposed based on maps of metal concentration and risks.•Zonal governance and target sustainable remediation are emphasized. Cadmium in a soil-rice grain system kept a constant level during the last decade and the middle-west was identified as a priority area based on the prediction of metal concentration, ecological risk and human health risk.
ISSN:0269-7491
1873-6424
DOI:10.1016/j.envpol.2018.10.070