Trace metal Contamination in Water from abandoned mining and non-mining areas in the Northern Parts of the Ashanti Gold Belt, Ghana

Q4 Environmental Science
C. Tay, Fátima Momade
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引用次数: 9

Abstract

A survey was conducted on the levels of trace metals (Ni, Cu, Hg, Pb, Mn, Fe, Zn, Cr, Cd, Mg and Ca) in ground and surface water sources from the northern parts of the Ashanti gold belt. Water samples were collected from 67 boreholes, 24 wells, and 10 streams during dry and wet seasons for trace metal analyses using Philips PU 9200 atomic absorption spectrophotometer. The main objective was to determine whether trace metal contamination in the study area was as a result of mining or geochemical and biochemical processes within the aquifer. The results showed that ground water (pH range 4.09–7.29 and mean 5.87 pH units) was slightly acidic (low pH) than surface water (pH range 5.81–7.74 and mean 7.12 pH units). The ground waters (with conductivity range 96–1553 mS/cm and mean 407.7 mS/cm) in the study area were also more mineralized than surface waters (with conductivity range 113–540 mS/cm and mean 323.30 mS/cm). Correlations between the trace metals revealed expected process-based relationship between Mg2+ and Ca2+ (r = 0.76), derived mainly from the geochemical and biochemical processes within the aquifer. However, there were also other strong linear relationships between trace metals, such as Fe2+ and Ca2+ (r = 0.61); Mg2+ and Mn2+ (r = 0.72), Hg2+ and Mn2+ (r = 0.61), that are not normally expected to be linked in terms of processes. All the well and stream water sources had one or more trace metal level outside acceptable limits set by the World Health Organization for drinking water, and only three borehole water samples at Konongo (Abronikrom), Ntronang (Ahenbronoso) and Bomfa (Nkubem) were safe for human consumption
加纳阿散蒂黄金带北部废弃矿区和非矿区水中的微量金属污染
对阿散蒂金矿带北部地区地下水和地表水中微量金属(Ni、Cu、Hg、Pb、Mn、Fe、Zn、Cr、Cd、Mg、Ca)含量进行了调查。采用Philips PU 9200原子吸收分光光度计,在干湿季节采集67个钻孔、24口井和10条溪流的水样进行微量金属分析。主要目的是确定研究地区的微量金属污染是由于采矿还是由于含水层内的地球化学和生化过程造成的。结果表明:地下水(pH值为4.09 ~ 7.29,平均为5.87)比地表水(pH值为5.81 ~ 7.74,平均为7.12)呈微酸性(低pH值);研究区地下水(电导率96 ~ 1553 mS/cm,平均407.7 mS/cm)矿化程度也高于地表水(电导率113 ~ 540 mS/cm,平均323.30 mS/cm)。微量金属元素的相关性揭示了Mg2+和Ca2+之间的过程关系(r = 0.76),主要来源于含水层内的地球化学和生化过程。然而,痕量金属之间也存在其他强线性关系,如Fe2+和Ca2+ (r = 0.61);Mg2+和Mn2+ (r = 0.72), Hg2+和Mn2+ (r = 0.61),这些通常不被认为是在过程中联系在一起的。所有水井和溪流的水源都有一种或多种微量金属含量超出世界卫生组织为饮用水设定的可接受限度,只有科农戈(阿布罗尼科姆)、恩特罗尼昂(阿亨布罗诺索)和邦法(恩库贝姆)的三个钻孔水样可供人类安全饮用
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来源期刊
West African Journal of Applied Ecology
West African Journal of Applied Ecology Environmental Science-Ecology
CiteScore
0.80
自引率
0.00%
发文量
0
期刊介绍: This research journal has been established by the Ecological Laboratory Unit of the University of Ghana, Accra to publish original papers, invited articles and book reviews in English on general ecology. Papers are peer reviewed by consulting editors. The journal is targeted at scientists, policy makers and the general public. The subject areas to be covered include the following: -Theoretical and Applied Ecology- Environmental Studies- Environmental Management- Population Studies- Sustainable use of Natural Resources- Atmospheric Science- Aquatic Sciences and Oceanography- Terrestrial Ecology- Soil Sciences- Human Settlements- Disaster Preparedness and Disaster Reduction- Sustainable Development- Traditional Knowledge on Biodiversity and its sustainable use- Application in Agriculture and Land Use- Health and Environmental Protection
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