使用当地植物物种从加纳手工金矿开采现场清除选定的重金属和准金属

Q2 Environmental Science
P. Opoku, E. Gikunoo, E. K. Arthur, G. Foli
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引用次数: 14

摘要

摘要本研究利用非法采金活动污染的土壤,评价了四种本土植物的超积累潜力:蝴蝶兰(CO)、金雀花(PV)、紫檀(CZ)和犬齿龙(CD)。本研究使用了九种处理:对照、CO、CZ、PV、CD、CO+PV、CO+CD、CZ+PV和CZ+CD样品。测定了土壤的理化性质以及一些选定的重金属和准金属(As、Cd、Cu、Ni和Pb)的浓度。对金矿开采土壤中的植物生长以及pH、电导率、重金属和类金属的动态进行了为期9周的监测。测定了积累、生物积累和转运潜力。采出的土壤质地为壤土,呈酸性,pH值在5.71至6.24之间。土壤有机碳、总氮和磷含量相对较低(分别为0.21%、0.09%和4.79mg/kg土壤)。该地区Pb、Cu、Ni、As和Cd的浓度(分别为40.22、30.54、23.58、6.18和0.27毫克/公斤)低于世界卫生组织的允许限值。CO+PV组合导致开采土壤中As、Cd、Cu、Ni和Pb的减少率更高(分别为40.1%、53.1%、36.8%、29.3%和41.2%)。所有调查的植物物种对Cd的BR>1,对As、Cu、Ni和Pb的BR<1。因此,所有研究的植物物种都是良好的镉植物提取剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Removal of selected heavy metals and metalloids from an artisanal gold mining site in Ghana using indigenous plant species
Abstract This study evaluated the hyperaccumulation potential of four indigenous plant species: Chromolaena ordorata (CO), Paspalum viginatum (PV), Chrysopogon zizanioides (CZ) and Cynodon dactylon (CD) using soil polluted by the illegal gold mining activities. Nine treatments were used in this study: Control, CO, CZ, PV, CD, CO+PV, CO+CD, CZ+PV and CZ+CD samples. The soils’ physico-chemical properties and the concentration of some selected heavy metals and metalloid (As, Cd, Cu, Ni and Pb) were determined. Plant growth and dynamics of pH, electrical conductivity and heavy metals and metalloid in the gold ore mined soil were monitored for nine weeks. Accumulation, bioaccumulation and translocation potentials were determined. The mined soil was loamy textured and acidic with pH ranging between 5.71 and 6.24. Soil organic carbon, total nitrogen and phosphorous contents were relatively low (0.21 %, 0.09 % and 4.79 mg/kg soil, respectively). Concentrations of Pb, Cu, Ni, As and Cd (40.22, 30.54, 23.58, 6.18 and 0.27 mg/kg, respectively) in the area were below the WHO permissible limits. CO+PV combination resulted in higher reductions in As, Cd, Cu, Ni and Pb (40.1, 53.1, 36.8, 29.3 and 41.2%, respectively) from the mined soil. All the investigated plant species recorded BR > 1 for Cd and BR < 1 for As, Cu, Ni and Pb. Therefore, all studied plant species are good phytoextractors for Cd.
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来源期刊
Cogent Environmental Science
Cogent Environmental Science ENVIRONMENTAL SCIENCES-
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