Department of Geology, Faculty of Science, University of Malaya, Kuala Lumpur, Malaysia.
Department of Chemistry, Faculty of Science, University of Malaya, Kuala Lumpur, Malaysia.
Environ Sci Pollut Res Int. 2016 Dec;23(24):25039-25055. doi: 10.1007/s11356-016-7641-x. Epub 2016 Sep 27.
A study was carried out to determine the level of rare earth elements (REEs) in water and sediment samples from ex-mining lakes and River in Kinta Valley, Perak, Malaysia. Surface water and sediments from an ex-mining lake and Kinta River water samples were analyzed for REEs by inductively coupled plasma mass spectrometry. The total concentration of REEs in the ex-mining lake water samples and sediments were found to be 3685 mg/l and 14159 mg/kg, respectively, while the total concentration of REEs in Kinta River water sample was found to be 1224 mg/l. REEs in mining lake water were found to be within 2.42 mg/l (Tb) to 46.50 mg/l (Ce), while for the Kinta River, it was 1.33 mg/l (Ho) to 29.95 mg/l (Ce). Sediment samples were also found with REEs from 9.81 mg/kg (Ho) to 765.84 mg/kg (Ce). Ce showed the highest average concentrations for mining lake (3.88 to 49.08 mg/l) and Kinta River (4.44 to 33.15 mg/l) water samples, while the concentration of La was the highest (11.59 to 771.61 mg/kg) in the mining lake sediment. Lu was shown to have the highest enrichment of REEs in ex-mining lake sediments (107.3). Multivariate statistical analyses such as factor analysis and principal component analysis indicated that REEs were associated and controlled by mixed origin, with similar contributions from anthropogenic and geogenic sources. The speciation study of REEs in ex-tin mining sediments using a modified five-stage sequential extraction procedure indicated that yttrium (Y), gadolinium (Gd), and lanthanum (La) were obtained at higher percentages from the adsorbed/exchanged/carbonate fraction. The average potential mobility of the REEs was arranged in a descending order: Yb > Gd > Y = Dy > Pr > Er > Tm > Eu > Nd > Tb > Sc > Lu > Ce > La, implying that under favorable conditions, these REEs could be released and subsequently pollute the environment.
进行了一项研究,以确定马来西亚霹雳州金马仑谷的废弃矿区湖泊和河流中的水和沉积物样本中的稀土元素 (REE) 水平。通过电感耦合等离子体质谱法分析了废弃矿区湖泊和金马仑河水样中的 REE。废弃矿区湖泊水样和沉积物中的 REE 总浓度分别为 3685mg/L 和 14159mg/kg,而金马仑河水样中的 REE 总浓度为 1224mg/L。废弃矿区湖泊水中的 REE 含量在 2.42mg/L(Tb)至 46.50mg/L(Ce)之间,而金马仑河则在 1.33mg/L(Ho)至 29.95mg/L(Ce)之间。沉积物样品中的 REE 含量也在 9.81mg/kg(Ho)至 765.84mg/kg(Ce)之间。Ce 显示出废弃矿区湖泊(3.88 至 49.08mg/L)和金马仑河(4.44 至 33.15mg/L)水样的最高平均浓度,而 La 的浓度最高(11.59 至 771.61mg/kg)废弃矿区湖泊沉积物。结果表明,Lu 对废弃矿区湖泊沉积物中 REE 的富集程度最高(107.3)。因子分析和主成分分析等多元统计分析表明,REE 与混合来源有关,并受人为和地质来源的相似贡献控制。使用改良的五阶段顺序提取程序对废弃锡矿区沉积物中的 REE 形态进行研究表明,钇(Y)、钆(Gd)和镧(La)在吸附/交换/碳酸盐组分中以较高的百分比存在。REE 的平均潜在迁移率按降序排列:Yb>Gd>Y=Dy>Pr>Er>Tm>Eu>Nd>Tb>Sc>Lu>Ce>La,这意味着在有利条件下,这些 REE 可能会释放并随后污染环境。
