Worldwide cadmium accumulation in soybean grains and feasibility of food production on contaminated calcareous soils

Worldwide cadmium accumulation in soybean grains and feasibility of food production on contaminated calcareous soils

Elevated toxins in soybeans extensively threaten Asian residents and over one billion vegetarians worldwide. An integrated dataset of toxic trace metal(loid)s especially cadmium (Cd) analysis in soybean grain samples (n = 5217) from 12 countries/regions of origin was compiled for risk analysis. Worl...

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Bibliographic Details
Published in:Environmental pollution (1987) Vol. 269; p. 116153
Main Authors: Zhang, Sha, Song, Jing, Wu, Longhua, Chen, Zheng
Format: Journal Article
Language:English
Published: England Elsevier Ltd 15-01-2021
Subjects:
Argentina
Cadmium - analysis
China
Feasibility Studies
Glycine max
Guizhou plateau
Japan
Karst area
Land policy
Liming effect
Meta-analysis
Oryza
Soil
Soil Pollutants - analysis
Surficial contamination
Argentina
China
Japan
Guizhou plateau
Land policy
Surficial contamination
Liming effect
Karst area
Meta-analysis
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Summary:Elevated toxins in soybeans extensively threaten Asian residents and over one billion vegetarians worldwide. An integrated dataset of toxic trace metal(loid)s especially cadmium (Cd) analysis in soybean grain samples (n = 5217) from 12 countries/regions of origin was compiled for risk analysis. Worldwide grain Cd averaged 0.093 mg kg−1, but mean values varied 16-fold between regions, with South China (0.32 mg kg−1) > Argentina (0.15 mg kg−1) = German (0.13 mg kg−1) > Japan (0.11 mg kg−1) > the United States (0.064 mg kg−1) > Central-North China (0.020–0.60 mg kg−1) ≥ Iran (0.042 mg kg−1) = Brazil (0.023 mg kg−1) = South Korea (0.020 mg kg−1). Regression analysis suggested widespread contamination and acidic soil features significantly contributed the elevated food Cd contamination worldwide. Arsenic (As) and lead (Pb) are also of concern because excessive levels were often observed in grains. Given that soil Cd bioavailability is generally low in alkaline pH ranges, the feasibility of producing safe food from contaminated land was investigated by greenhouse experiments with one low-Cd soybean cultivar grown on 20 contaminated calcareous soils. Equilibrium-based approaches i.e., 0.01 M CaCl2 and in-situ porewater extractions, and diffusion-based diffusive gradients in thin-films technique were used to determine the plant-available fractions of soil metal(loid)s to explain the bioaccumulation variation. The results suggested that soybean grains bioaccumulated mean 0.76 mg Cd kg−1, ranging from 0.16 to 2.1 mg kg−1, whereas As and Pb bioaccumulation was low. Cadmium accumulation was closely correlated with plant-available Cd fractions especially the 0.01 M CaCl2-extractable Cd, but negatively correlated with soil pH. Even in the alkaline pH range, a slight decrease of soil pH would increase grain Cd significantly. Study region and those arable lands that have similar soil conditions are not recommended for growing soybean unless novel remediation strategies are developed. [Display omitted] •Extensive Asian residents and vegetarians are threatened by soybean contamination.•Soybean contamination in South China is more serious than in North.•The bioavailability of Cd is related to labile fractions and controlled by pH.•0.01 M calcium chloride extracted Cd is most related to grain Cd.•Higher soil pH allows a safer soybean production.
ISSN:0269-7491
1873-6424
DOI:10.1016/j.envpol.2020.116153