Phytoremediation Potential of Indigenous Plants Growing at Nchanga Mine in Chingola, Zambia

Open Journal of Ecology Pub Date : 2020-02-17 DOI:10.4236/oje.2020.102004

Lupupa Kachenga, H. Chabwela, K. Mwauluka

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引用次数: 4

Abstract

Mining and smelting processes are among the key sources of soil contamination by heavy metals resulting in dramatic disturbances and loss of biodiversity. Native plants growing naturally in hostile mining environments can be used for management, decontamination and possible rehabilitation of polluted soils. These plants are either excluders or accumulators based on their Bioaccumulation Factors (BAF). This, therefore requires identification of native plants that are able to accumulate heavy metals in their plant tissues at concentrations higher than that in the soil in which they are growing. This study investigated the phytoremediation potential of indigenous plants growing at the tailings dams of Nchanga Mine in Chingola, Zambia. TD4 and a site 50 m away from TD4 were sampled as Sampling Areas One (1) and Two (2), respectively. TD4 was divided into four quadrants and three plots from each quadrant were randomly sampled. Three plots from each of the two quadrants from Sampling Area Two were also sampled. Composite soil samples were collected from the plots and a total of 175 individuals of 16 grass and herbaceous plant species were collected and analysed. Atomic Absorption Spectrophotometry was used to determine the concentrations of Copper (Cu) and Zinc (Zn) in the soils and plant specimens. The findings of the study showed that the concentrations of Cu and Zn in the soil ranged from 891.41 mg/kg to 15,617.47 mg/kg and 20.73 mg/kg to 96.85 mg/kg, respectively. Arthraxonquartinianus had the highest concentration of Cu (1016.8 mg/kg) while Cyperusrotundus had the lowest (29.35 mg/kg). Arthraxonquartinianus had the highest concentration of Zn (192.8 mg/kg) and Crinum had the lowest (28.24 mg/kg). BAF values for Cu were less than 1 in all the plants and BAF values for Zn were highest in Arthraxonquartinianus (10.77) with Crinum having the lowest BAF of 0.01. The Bioaccumulation Factors indicated that all the plant species studied are Cu excluders; and with the exception of Crinum, all were Zn accumulators and Arthraxonquartinianus, a hyperaccumulator of Zn.

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赞比亚钦戈拉Nchanga矿区原生植物修复潜力

采矿和冶炼过程是重金属污染土壤的主要来源之一，造成严重干扰和生物多样性丧失。在恶劣的采矿环境中自然生长的本地植物可用于污染土壤的管理、净化和可能的恢复。根据它们的生物积累因子(BAF)，这些植物要么是排斥者，要么是积累者。因此，这需要鉴定能够在其植物组织中积累重金属的本地植物，其浓度高于其生长的土壤中的浓度。本研究调查了生长在赞比亚钦戈拉Nchanga矿尾矿坝上的本土植物的修复潜力。TD4和距离TD4 50 m的一个站点分别作为采样区1(1)和2(2)。TD4分为4个象限，每象限随机抽取3个样点。采样区2的两个象限中的每个象限中的三个地块也被采样。在样地采集复合土壤样品，共收集和分析了16种禾本科和草本植物175株。采用原子吸收分光光度法测定土壤和植物标本中铜(Cu)和锌(Zn)的浓度。研究结果表明，土壤中Cu和Zn的浓度分别为891.41 ~ 15617.47 mg/kg和20.73 ~ 96.85 mg/kg。铜含量最高的是环蒿(1016.8 mg/kg)，最低的是环蒿(29.35 mg/kg)。锌含量最高的是黄芪(192.8 mg/kg)，最低的是黄芪(28.24 mg/kg)。铜的BAF值在所有植物中均小于1，锌的BAF值在四分之一蒿中最高(10.77)，在四分之一蒿中最低(0.01)。生物积累因子表明，所研究的所有植物都是铜排斥者;除criinum外，其余均为锌积累动物和高锌积累动物arthroxonquartinanus。

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Open Journal of Ecology

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