Abstract
Contamination of paddy soils with heavy metals and metalloids poses a risk to human health through the food chain. For safe agricultural production in contaminated paddy soils, “in situ” remediation through the unavailability of heavy metals from contaminated soils was investigated in order to develop cost-effective and eco-friendly approaches for soils contaminated with complexed heavy metals (HMs) and metalloids. In the present study, the effectiveness of different soil amendments, including sulfur-containing materials (hair or cysteine), manganese compounds as an antagonist and an oxidant, zeolite and iron oxide as adsorbents, and their combinations through coating or modification, was investigated by a pot experiment with rice plants and chemical analysis. Two levels of each treatment were made, termed X1 and X2, which were a single and double dose of each treatment respectively, while CaCO3 was used as a basal and pH enhancement amendment in all treatments to identify the best combination of the above treatments in the in situ remediation of heavy metals and metalloids. The rice plants were kept under the flooded condition. Results indicated that the bioavailability of As, Cd, Cr, and Pb in soil was significantly decreased with level two (X2) of iron oxide coated with modified hairs (T7X2) followed by level two (X2) of zeolite coated with KMnO4. The iron oxide coated with modified hairs (X2) decreased the concentrations of heavy metals and metalloids in rice plants in the order Pb ˃ As ˃ Cr ˃ Cd by 81%, 80%, 79% and 46%, respectively, followed by zeolite coated with KMnO4 (X2) in the order Pb ˃ As ˃ Cr ˃ Cd by 78%, 76%, 71%, and 31%, respectively, to control. The available content of these elements in soil was decreased in the order As > Cr> Pb > Cd by 67%, 66%, 64% and 60%, respectively, through iron oxide coated with modified hairs, followed by zeolite coated with KMnO4 in the order Pb ˃ Cr ˃ Cd ˃ As by 57%, 53%, 50%, and 46%, respectively, to control, which can explain the decreased bioavailability by these amendments. In addition, the maximum shoot dry and leaf area were noticed in the pots treated with iron oxide coated with modified hairs and zeolite coated with KMnO4. There is potential to use modified hairs (MHs) with iron oxide and KMnO4-coated zeolite as soil amendments to develop a cost-effective and efficient “in situ” remediation technology for As, Cd, Pb, and Cr-contaminated rice paddy soils, especially for the soils with complex contamination by Cd and As.
Highlights
Worldwide, soil and food crops are contaminated by uncontrolled industrialization, unsustainable urbanization, and intensive agricultural practices
Agronomy 2020, 10, 359 metals and metalloids are known as toxic elements (TEs) that are a threat to human health and soil quality
Statistical analysis of the data revealed that the application of iron oxide, modified hair, zeolite, and manganese base complexation agents to the soil significantly reduced (p < 0.05) the extractable content of heavy metals (HMs) in the soil and their concentration in the plant tissues
Summary
Soil and food crops are contaminated by uncontrolled industrialization, unsustainable urbanization, and intensive agricultural practices. These problems have resulted in a global environmental problem of contamination with heavy metals and metalloids. Agronomy 2020, 10, 359 metals and metalloids are known as toxic elements (TEs) that are a threat to human health and soil quality. The TEs released through different natural and anthropogenic processes reach the soil, as soil is the ultimate source of waste disposal. The TEs present in the discarded waste material enter our water resources, and end up in our food chain. The use of environmentally friendly and cost-effective amendments are more necessary for the remediation of moderate to high
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