Bioremediation potential of Ganoderma lucidum (Curt:Fr) P. Karsten to remove toxic metals from abandoned battery slag dumpsite soil and immobilisation of metal absorbed fungi in bricks

Q2 Environmental Science
A. Ipeaiyeda, C. Adenipekun, O. Oluwole
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引用次数: 5

Abstract

Abstract Open disposal of battery slag is a major cause of heavy metals (HMs) pollution in soil. The current decontamination option is soil washing with chemicals whose efficiency is limited owing to high cost of reagents. This prompted the need for an environmentally friendly approach to remediate the contaminated soil. Therefore, the potential of Ganoderma lucidum to remediate heavy metals from an abandoned battery slag was investigated in this study. The heavy metals absorbed fungi were immobilised in bricks. The battery slag contaminated and control soil samples were analysed for HM concentrations before and after incubation with G. lucidium for 1–3 months. The harvested rice straw and mycelia were processed and analysed for HMs concentrations. For immobilizing heavy metals absorbed in mycelia, 5 to 30 g of pulverized mycelia were homogenized with a virgin soil, extruded into moulds and fired in a tunnel kiln for making bricks. The leachability of HMs from the bricks was carried out using TLCP. The concentrations (mg/kg) of Pb(4490 ± 14), Zn(147 ± 11), Ni(27.7 ± 0.2), Cu(19.4 ± 0.1) and Cd(2.18 ± 0.06) in dumpsite soil were significantly higher than the corresponding concentrations in the control soil samples. The G. lucidum inoculated on contaminated soil accumulated 138, 29.8, 3.48, 3069 and 1.01 mg/kg of Pb, Zn, Ni, Cu and Cd, respectively. This reveals the strong affinity of G. lucidum for toxic metals. The Pb, Zn, Ni, Cu and Cd immobilised after leaching procedure ranged from 45.3 to 98.10%. Immobilisation of toxic metals hosted by G. lucidum in red bricks can reduce environmental contamination by metals.
灵芝(Curt:Fr) P. Karsten)对废电池渣场土壤中有毒金属的生物修复潜力及对砖中金属吸收真菌的固定化作用
电池渣露天处置是造成土壤重金属污染的主要原因之一。目前的去污选择是用化学物质洗涤土壤,但由于试剂成本高,其效率有限。这促使需要一种环境友好的方法来修复受污染的土壤。因此,本研究探讨了灵芝对废旧电池渣中重金属的修复潜力。吸收重金属的真菌被固定在砖里。对电池渣污染土壤和对照土壤样品进行了1 ~ 3个月的HM浓度分析。对收获的稻秆和菌丝体进行处理,并进行HMs浓度分析。为了固定被菌丝吸收的重金属,将5 ~ 30g的菌丝粉碎后用原生土均质,挤出模具,在隧道窑中烧制砖。采用薄层色谱法测定了砖中HMs的浸出率。垃圾场土壤中Pb(4490±14)、Zn(147±11)、Ni(27.7±0.2)、Cu(19.4±0.1)和Cd(2.18±0.06)的浓度(mg/kg)均显著高于对照土壤样品。接种在污染土壤上的灵芝累积Pb、Zn、Ni、Cu和Cd分别为138、29.8、3.48、3069和1.01 mg/kg。这说明灵芝对有毒金属具有很强的亲和力。浸出后固定的Pb、Zn、Ni、Cu和Cd含量为45.3% ~ 98.10%。在红砖中固定含毒金属可以减少金属对环境的污染。
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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来源期刊
Cogent Environmental Science
Cogent Environmental Science ENVIRONMENTAL SCIENCES-
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