Efficacy of Urena lobata in Phytoremediation of Spent Engine Oil Polluted Soil

American Journal of Environment Studies Pub Date : 2021-10-02 DOI:10.47672/ajes.807

Onwusiri Chidi, A. Uzoma, Amali Okwoli, Azua Tereze, Olasan Joseph

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Abstract

Purpose: The research study aimed to determine the efficacy of Urena lobata in phytoremediation of spent engine oil polluted soil of Makurdi, Nigeria as to determine the amount of some inorganic pollutants (Cd, Pb, As and Cr) removed from the soil by the annual plant with time. Methodology: Urena lobata was grown in twelve (12) Plastic containers filled with four kilograms (4 kg) of sandy-loam soil contaminated with 0 mL, 20 mL, 40 mL, 60 mL, 80 mL and 100 mL and monitored for twelve weeks (12) after planting. Findings: The tissue analysis of heavy metals shows that Urena lobata has the highest percentage absorbance and remediation capacity of arsenic (0.06 mg/kg) with percentage absorbance of 37.5 % and followed by cadmium 0.04 mg/kg of pollutant with percentage absorbance of 32.56 %. Equally, from the result and analysis obtained on remediation of lead pollutant, Urena lobata has remediation capacity of 0.11 mg/kg with percentage absorbance of 8.53 %. Also, Urena lobata has absorbance and remediation capacity of chromium pollutant with the mean tissue concentration level of 0.26 mg/kg. The absorption rate by the test plant measured were spent engine oil concentration level dependent. Finally, the results showed that the studied plant (Urena lobata) screened for total metal concentration showed value of bio-concentration factor (BCF) < 1 for all heavy metal pollutants, and also high value of translocation factor (TF) > 1 in the following order; Pb (2.000) > As (1.667) > Cr (1.567) > Cd (1.500) mg/kg and as a consequence Urena lobata plant was efficient in translocation of metal pollutants from roots to shoots. Unique contribution to theory, practice and policy: Urena lobata can then be considered as potential candidates for phytoextraction and phytoremediation of soils contaminated with Cd, Pb, As and Cr. Facility owners and industrialists should adopt and invest on the use of phytoremediation technologies in the remediation of polluted sites with spent engine oil as the technology can remediate more than one pollutant at a time and environmentally friendly.

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浮叶藻对废机油污染土壤的植物修复效果

目的:本研究旨在测定白叶叶对尼日利亚马库尔迪废机油污染土壤的植物修复效果，并测定一年生植物对土壤中无机污染物Cd、Pb、as、Cr的去除量随时间的变化。方法:在12个塑料容器中种植大叶百合(Urena lobata)，容器中装满4公斤(4公斤)沙质壤土，分别被0 mL、20 mL、40 mL、60 mL、80 mL和100 mL污染，并在种植后监测12周。结果:对重金属的组织分析表明，对砷(0.06 mg/kg)的吸光度和修复能力最高，吸光度为37.5%;对镉(0.04 mg/kg)的吸光度次之，吸光度为32.56%。同样，从对铅污染物的修复结果和分析来看，白藻的修复能力为0.11 mg/kg，吸光度百分比为8.53%。对铬污染物具有吸收和修复能力，平均组织浓度为0.26 mg/kg。试验装置测定的废发动机油吸收率取决于废发动机油的浓度水平。结果表明:所筛选植物(Urena lobata)对重金属污染物的生物富集因子(BCF)值均< 1，转运因子(TF)值均> 1;Pb (2.000) > As (1.667) > Cr (1.567) > Cd (1.500) mg/kg，表明白叶叶植物对金属污染物的根向茎的转运效率较高。对理论、实践和政策的独特贡献:因此，可以将大叶藻视为植物提取和植物修复受Cd、Pb、as和Cr污染的土壤的潜在候选植物。设施所有者和实业家应采用并投资使用植物修复技术来修复废发动机油污染场地，因为该技术可以一次修复多种污染物，而且对环境友好。

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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American Journal of Environment Studies

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