卢旺达西部省 Nyamyumba 和 Bugarama 温泉的地球化学调查

Anzelim Eliwa Sunguti, T. Muhizi, J. Kibet, T. K. Kinyanjui
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摘要

本研究的重点是调查卢旺达西部省 Nyamyumba 和 Bugarama 温泉中某些痕量金属(铅、镉、锰、镍和铜)的含量,并确定主要阳离子和阴离子的含量。痕量金属采用微等离子体原子发射光谱法进行测定。发现 Nyamyumba 和 Bugarama 的平均铜浓度为 0.1 毫克/升,在世界卫生组织(WHO)规定的饮用水允许范围内。同样,Nyamyumba 和 Bugarama 的锰浓度也在世界卫生组织允许的范围内,平均浓度分别为 0.04±0.02 和 0.11±0.03 毫克/升。Nyamyumba 和 Bugarama 的铅浓度高于世界卫生组织的限值,平均值分别为 0.01±0.001 和 0.013±0.01 毫克/升。两个采样点的镉平均浓度均为 0.01 毫克/升,高于世卫组织允许的限值。而镍则低于检测限。使用 SPADNS 紫外光谱法(UV-VIS)测定了氟化物浓度,发现 Nyamyumba 和 Bugarama 的氟化物平均含量分别为 1.07±0.05 和 0.85±0.07 毫克/升,在世界卫生组织允许的范围内。鉴于本研究中发现的潜在污染趋势,建议在饮用水和治疗用水中采用生物吸附修复技术,以降低铅和镉的含量,因为微量金属的生物累积可能会对动植物造成严重的致病风险。
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Geochemical survey of the Nyamyumba and Bugarama hot springs in the western province of Rwanda
The focus of the current study was to investigate the presence of selected trace metals (Pb, Cd, Mn, Ni, and Cu) and to determine the major cation and anion levels in Nyamyumba and Bugarama hot springs in the Western Province of Rwanda. The trace metals were determined using micro plasma atomic emission spectroscopy. The mean Cu concentrations in Nyamyumba and Bugarama were found to be 0.1 mg/L and were within the permissible limits of the World Health Organization (WHO) for potable water. Similarly, Mn concentrations were within acceptable WHO limits with mean concentrations being 0.04±0.02 and 0.11±0.03 mg/L in Nyamyumba and Bugarama, respectively. The lead concentration was found to be above the WHO limits with mean results of 0.01±0.001 and 0.013±0.01 mg/L in Nyamyumba and Bugarama, respectively. The mean concentration of cadmium was 0.01 mg/L in both sampling sites, which is observed to be above the allowed WHO limit. Nickel, on the other hand, was found to be below the detection limit. The fluoride concentration was determined using the SPADNS Ultra Violet Spectroscopic (UV-VIS) method and its mean levels were found to be 1.07±0.05 and 0.85±0.07 mg/L in Nyamyumba and Bugarama, correspondingly, which is within the acceptable limit of the WHO. Due to the potential pollution trends identified in this study, it is recommended that biosorption remediation techniques be applied for potable and therapeutic water usage to reduce the levels of Pb and Cd, which can have serious etiological risks to both flora and fauna due to possible trace metal bioaccumulation.
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