Zero valent iron nanoparticles and organic fertilizer assisted phytoremediation in a mining soil: Arsenic and mercury accumulation and effects on the antioxidative system of Medicago sativa L.

植物修复 生物累积 肥料 环境修复 化学 环境化学 零价铁 土壤水分 Mercury(编程语言) 农学 环境科学 污染 土壤科学 生物 生态学 重金属 有机化学 计算机科学 程序设计语言 吸附
作者
Diego Baragaño,Rubén Forján,Noemí de los Santos Álvarez,J.R. Gallego,Aída González
出处
期刊:Journal of Hazardous Materials [Elsevier BV]
卷期号:433: 128748-128748 被引量:52
标识
DOI:10.1016/j.jhazmat.2022.128748
摘要

Zero valent iron nanoparticles (nZVI) attract interest given their effectiveness in soil remediation. However, little attention has been given to their impacts on plants. Likewise, although fertilizers are commonly used to enhance phytoremediation, their effects on As mobilization, resulting in potential toxic effects, require further study. In this context, we examined the impact of As and Hg accumulation on the antioxidative system of Medicago sativa grown in a soil amended with organic fertilizer and/or nZVI. The experiment consisted of 60 pots. Plants were pre-grown and transferred to pots, which were withdrawn along time for monitoring purposes. As and Hg were monitored in the soil-plant system, and parameters related to oxidative stress, photosynthetic pigments, and non-protein thiol compounds (NPTs) were measured. In general, the application of nZVI immobilized As in soil and increased Hg accumulation in the plant, although it surprisingly decreased oxidative stress. Plants in nZVI-treated soil also showed an increase in NPT content in roots. In contrast, the application of the fertilizer mobilized As, thereby improving bioaccumulation factors. However, when combining fertilizer with nZVI, the As accumulation is mitigated. This observation reveals that simultaneous amendments are a promising approach for soil stabilization and the phytomanagement of As/Hg-polluted soils.
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