Heavy Metal Phytoremediation by Crop Species at Hebbal Industrial Area, Mysuru, India

Current World Environment Pub Date : 2024-05-10 DOI:10.12944/cwe.19.1.36

Santhosh M. Sosale, R. N S

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Abstract

Heavy metals are frequently added to the soil in the area of study as a result of industrialization. Removing this heavy metal from the soil is a difficult procedure, and phytoremediation is an essential and effective method for remediation. Heavy metals present in the study area include Fe, Cu, Cd, Pb, and Zn. Two plants namely Brassica juncea L. and Rapanus sativus L. were successfully grown on the polluted areas soil samples for phytoremediation. Brassica juncea L remediates the heavy metals Cu, Zn, Pb, and Cd, while Rapanus sativus L remediates Cd, Cu, Pb, and Fe. These two plants can uptake metal from roots to shoots, which means metal concentration is transferred from roots to shoots of the plant, indirectly decreasing concentration in the soil. Brassica juncea L was remediated for heavy metals Cd, Cu, Pb, and Zn at a rate of 25.47%, 38.74%, 31.60%, and 26.75%, respectively. The remediation percentages for Rapanus sativus L of Cd, Cu, Pb, and Fe were 21.01%, 37.08%, 23.77%, and 47.19%, respectively. Brassica juncea L remediate in the order of Cu>Pb>Zn>Cd, and Rapanus sativus L Fe>Cu>Pb>Cd were in decreasing order. Shoots of Brassica juncea L had a higher bioconcentration than the roots of Rapanus sativus L, which clearly explains the metal uptake capacity of the plant. This paper investigated the uptake of heavy metals from roots to shoots, as well as their bioconcentration.

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印度迈苏鲁希伯尔工业区作物物种的重金属植物修复作用

由于工业化，研究区域的土壤中经常添加重金属。清除土壤中的重金属是一项艰巨的工作，而植物修复是一种重要而有效的修复方法。研究区域存在的重金属包括铁、铜、镉、铅和锌。在受污染地区的土壤样本上成功种植了两种植物，即 Brassica juncea L. 和 Rapanus sativus L.，用于植物修复。Brassica juncea L 能修复重金属 Cu、Zn、Pb 和 Cd，而 Rapanus sativus L 能修复 Cd、Cu、Pb 和 Fe。这两种植物能从根部吸收金属，这意味着金属浓度会从植物的根部转移到芽部，间接降低土壤中的浓度。Brassica juncea L 对重金属镉、铜、铅和锌的修复率分别为 25.47%、38.74%、31.60% 和 26.75%。Rapanus sativus L 对镉、铜、铅和铁的修复率分别为 21.01%、37.08%、23.77% 和 47.19%。芸苔素对镉和铜的吸收率依次为 Cu>Pb>Zn>Cd，芸苔素对铁、铜、铅和铁的吸收率依次为 Cu>Pb>Cd，芸苔素对镉和铜的吸收率依次为 Cu>Pb>Zn>Cd。芸苔属植物芽的生物浓缩能力高于芸苔属植物根的生物浓缩能力，这充分说明了芸苔属植物对金属的吸收能力。本文研究了重金属从根到芽的吸收及其生物浓缩。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Current World Environment

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