Assessment of mercury bioavailability in garden soils around a former nonferrous metal mining area using DGT, accumulation in vegetables, and implications for health risk

被引:0
作者
Marin Senila
Erika Andrea Levei
Tiberiu Frentiu
Cristina Mihali
Simion Bogdan Angyus
机构
[1] Research Institute for Analytical Instrumentation,INCDO INOE 2000
[2] Babes-Bolyai University,Faculty of Chemistry and Chemical Engineering
[3] Technical University of Cluj Napoca,Faculty of Sciences
[4] Baia Mare,undefined
来源
Environmental Monitoring and Assessment | 2023年 / 195卷
关键词
Mercury; Bioavailability; Diffusive gradients in thin films; Vegetables; Soil contamination; Human health risk;
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摘要
Mercury (Hg) is a toxic, non-essential element for living organisms, frequently present in high concentrations in soils from industrial areas. The total, dissolved, and labile Hg concentrations in garden soils and their accumulation in edible vegetables (onion, garlic, lettuce, and parsley) grown on contaminated soils in localities situated a former mining area were evaluated. The labile Hg fraction was estimated by diffusive gradient in thin films (DGT). The soil-to-vegetable transfer factors, as well as the health risk by exposure to Hg, were calculated based on the labile Hg concentration in soil. The total Hg concentration in soil varied widely (0.11–3.77 mg kg−1), Hg in soil solution ranged between 2.14 and 20.2 μg L−1 and labile Hg between 1.13 and 18.6 μg L−1. About 36–96% (84% on average) of the Hg concentration in soil solution was found in labile form. Multivariate analysis revealed significant correlations between the labile Hg concentration in soil and Hg accumulated in vegetables. The hazard indices showed that, although the study area is affected by legacy pollution, exposure to soil and consumption of locally grown vegetables do not pose health risks.
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