Department of Applied Geology, School of Applied Natural Science, Adama Science and Technology University, P.O. Box 1888, Adama, Ethiopia.
Key Laboratory of Shale Gas and Geoengineering, Institute of Geology and Geophysics, Chinese Academy of Sciences, Beijing, 100029, China.
Arch Environ Contam Toxicol. 2021 Jan;80(1):277-293. doi: 10.1007/s00244-020-00802-2. Epub 2021 Jan 3.
The main focus of the present research was to examine the appropriateness of groundwater resources for drinking purposes in the Bilate River Basin of Southern Main Ethiopian Rift, Ethiopia. The groundwater quality index (GWQI), fluoride pollution index (FPI), and human health risk were used to examine the human health risk factors associated with the intake of high fluoride groundwater. For this purpose, 29 groundwater samples were collected from the existing wells and were analyzed for various physicochemical parameters. The dominant cation was Na, followed by Ca, Mg, and K. The dominant anion was HCO, followed by Cl, SO, and F. The Gibbs plot shows that rock-water interactions are the dominant factor controlling the groundwater chemistry. By using the GWQI, the quality of groundwater samples was 31% excellent, 21% good, 31% poor, and 17% very poor. The fluoride concentration in groundwater ranges from 0.2 to 5.60 mg/L (mean, 2.10 mg/L). 59% (i.e., 17 wells) of the groundwater samples were not suitable for drinking, because they surpassed the drinking water quality limit of 1.5 mg/L. The remaining 41% (i.e., 12 wells) of the samples were suitable for drinking. The FPI indicates that 51.72% of the wells were highly polluted by fluoride. The noncarcinogenic health risk varies from 0.75 to 8.44 for children (83%), 0.34-3.84 for women (62%), and 0.27-3.01 for men (52%), which indicates that children are at higher health risk than women and men due to the physiological condition and the rates of ingestion.
本研究的主要重点是检查埃塞俄比亚南部主要东非大裂谷 Bilate 河流域地下水作为饮用水资源的适宜性。地下水质量指数(GWQI)、氟污染指数(FPI)和人类健康风险用于检查与摄入高氟地下水相关的人类健康风险因素。为此,从现有水井中采集了 29 个地下水样本,并对各种物理化学参数进行了分析。优势阳离子为 Na,其次为 Ca、Mg 和 K。优势阴离子为 HCO,其次为 Cl、SO 和 F。Gibbs 图表明,岩石-水相互作用是控制地下水化学的主要因素。根据 GWQI,地下水样本的质量有 31%为优秀,21%为良好,31%为较差,17%为极差。地下水中的氟浓度范围为 0.2 至 5.60mg/L(平均值为 2.10mg/L)。59%(即 17 口井)的地下水样本不适合饮用,因为它们超过了 1.5mg/L 的饮用水质量限值。其余 41%(即 12 口井)的样本适合饮用。FPI 表明,51.72%的水井受到氟的高度污染。非致癌健康风险在儿童(83%)为 0.75-8.44,在女性(62%)为 0.34-3.84,在男性(52%)为 0.27-3.01,这表明由于生理状况和摄入率,儿童的健康风险高于女性和男性。