Phytoremediation of Contaminated Soil Using Maize (Zea mays) and Mycorrhiza Inoculation

FUOYE Journal of Engineering and Technology Pub Date : 2022-06-30 DOI:10.46792/fuoyejet.v7i2.797

R. O. Yusuf, Mubarak A. Amoloye, J. Adeniran, A. Abba, I. B. Busari

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Abstract

The phytoextracting capacity of maize (Zea mays) on soil contaminated with brewery waste was determined. The method used was based on the responses of the maize plants grown on four different soils (inoculated and uninoculated, with and without brewery waste) tagged M+B+, M-B+, M+B- and M-B-. These were analysed for mid-rib growth, neurosis, and heavy metals uptake in the plant in addition to soil and pH analysis. Results showed that maize (Zea mays) planted on soil of type M+B+ had a rapid increase in mid-rib size (55.3cm) while the plant grown on the control sample had the lowest size (47.0cm). There were initial increases in plant with neurosis in the inoculated samples which either stabilised or increased while the number in the uninoculated samples reduced with time. The plants grown on inoculated soil had greater heavy metal uptakes of 54–83% except for Cd where the uptake was 33–40% while those grown on uninoculated soil had metal uptakes of 19–52% except for Zn where the uptake was 80–81%. The investigation concluded that maize has the capacity of removing heavy metals from brewery waste and suggested revegetation of the soil to reduce wind and water erosions.

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玉米(Zea mays)和菌根接种对污染土壤的植物修复

测定了玉米(Zea mays)对啤酒废弃物污染土壤的植物提取能力。采用的方法是基于四种不同土壤(接种和未接种，有和没有啤酒废物)上生长的玉米植株的反应，标记为M+B+， M-B+， M+B-和M-B-。除了土壤和pH值分析外，还分析了这些植物的中脉生长、神经官能症和重金属吸收。结果表明，在M+B+型土壤上种植的玉米(Zea mays)中筋尺寸增长最快(55.3cm)，而在对照样品上种植的玉米中筋尺寸最小(47.0cm)。在接种的样品中，神经官能症植物的数量开始增加，然后稳定或增加，而在未接种的样品中，随着时间的推移，数量减少。接种土壤植株对重金属的吸收量较大，除Cd吸收量为33-40%外，为54-83%;未接种土壤植株对重金属的吸收量为19-52%，除Zn吸收量为80-81%。调查结果表明，玉米具有去除啤酒废水中重金属的能力，并建议土壤植被恢复以减少水土流失。

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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FUOYE Journal of Engineering and Technology

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