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Abstract
Agricultural soil contaminated with potentially toxic metals poses great health risk to humans and it requires long-term remediation. Here, we investigate the remediation of metal-polluted agricultural soil by combining chemical washing with repeated phytoextraction. The polluted field was initially washed with 40 mmol L−1 FeCl3 (F) or 20 mmol L−1 FeCl3 + 40 mmol L−1 citric acid (F + C). After the application of organic fertilizer (O), lime (L), and sepiolite (S), Sedum plumbizincicola was cultivated for three successive crops from 2017 to 2019. Results showed that the soil washed with FeCl3 had high removal efficiencies of Cd (35.2%), Pb (24.3%), and Zn (26.6%). Although the shoot biomass and metal concentrations of S. plumbizincicola decreased significantly in the first crop, there were no significant differences in the subsequent two crops. Throughout the remediation process, the higher total removal efficiencies of Cd, Pb, and Zn were conducted in F + OLS treatment which observed in 71.0, 34.0, and 47.7%, respectively. The results, therefore, conclusively indicated that combining chemical washing with repeated phytoextraction showed considerable potential for the remediation of agricultural soils polluted with multiple metals. However, further studies are required to focus on the amelioration of the degraded soil quality and safe agricultural production.
Disclosure statement
No potential conflict of interest was reported by the author(s).
Novelty statement
This work investigated the feasibility of combining soil washing and repeated phytoextraction for the remediation of Cd-, Pb-, and Zn-contaminated agricultural soil. It also recommended that the application of soil amendment was needed after chemical washing to satisfy the growth requirements of Sedum plumbizincicola growth requirement. Finally, this combined remediation technique acquired high removal efficiencies compared with single washing or phytoextraction alone and it showed considerable potential in remediating soils with multiple metal contamination.