肯尼亚巴林戈县凯里奥河谷流域地下水中的有机污染物

Festus Kipkemoi Langat, Joshua Kiprotich Kibet, Francis Inyangala Okanga, John Onyango Adongo
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摘要

目前,地下水在很大程度上正在成为大多数发展中国家淡水的主要来源。然而,地表以下人为活动造成的各种有害影响已经严重影响了地下水的质量,这在几个具有矿物和碳氢化合物矿床、农业活动和工业过程的地区得到了证明。可能的病因影响包括癌症和遗传变异,这是由于人类和动物长期摄入有机水传播污染物的毒性作用造成的。这项研究的动机是确定并确定位于Kerio山谷流域的水井中各种有机污染物的浓度分布,这些水井靠近碳氢化合物和采矿活动的探井。因此,这项研究对于揭示采样井水中有机污染物的水平是必要的,然后可以外推到Kerio山谷盆地内的其他井中。这项研究是在2022年12月的旱季进行的。钻孔的水样采用固相萃取法提取,并使用气相色谱仪与质量选择检测器接口进行表征。结果表明,大部分钻孔中存在以二甲苯、1,3,5-三甲苯、1-乙基-3-甲苯、1-甲基-2-丙基苯基苯为主的苯衍生物和萘、菲、氟蒽、azulene、芘等多环芳烃。此外,所有地下水样品中均存在不同浓度的长链烃。苯衍生物的浓度范围为2.84 ~ 20.47 ppm。然而,多环烃在所有有机污染物中表现出最高的浓度,芘的浓度为23.14 ppm,氟蒽(18.54 ppm),菲(14.13 ppm)和蒽(11.06 ppm)。根据本研究报告的结果,凯里奥河谷盆地的大部分井水受到污染,可能不适合饮用。大多数报告的浓度水平比美国环境保护署(U.S. Environmental and Protection Agency)的标准高出数倍。然而,有必要制定一个评估和监测该地区水质的政策框架,并提出紧急措施,以确保为居民提供清洁的供水。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Organic contaminants in the groundwater of the Kerio Valley water basin, Baringo County, Kenya
Currently, groundwater is largely becoming the main source of fresh water in most developing countries. However, various deleterious impacts resulting from anthropogenic activities beneath the earth’s surface have significantly affected groundwater quality, as evidenced in several areas endowed with mineral and hydrocarbon deposits, agricultural activities, and industrial processes. The possible etiological impacts may include cancer and genetic aberrations which result from the toxic effects of organic waterborne contaminants ingested by humans and animals over time. The motivation behind this study was to identify and determine the concentration profiles of various organic pollutants in the wells located along the Kerio Valley water basin near the exploratory wells for hydrocarbons and mining activities. Therefore, this study is necessary in unraveling the level of organic contaminants in the sampled borehole water, which can then be extrapolated to cover other boreholes within the Kerio Valley basin. The study was carried out during the dry season of December 2022. The water samples from the boreholes were extracted using a solid phase extraction procedure and characterized using a gas chromatograph interfaced with a mass selective detector. The findings indicate that benzene derivatives which were mainly xylenes, 1,3,5-trimethylbenzene, 1-ethyl-3-methylbenzene, 1-methyl-2-propylpentylbenzene and polycyclic aromatic hydrocarbons such as naphthalene, phenanthrene, fluoranthene, azulene, and pyrene were found in most of the boreholes sampled. Furthermore, long-chain hydrocarbons were present in all groundwater samples with varying concentrations. The concentration of benzene derivatives ranged from 2.84 to 20.47 ppm. However, polycyclic hydrocarbons exhibited the highest concentrations of all organic pollutants, with pyrene giving a concentration of 23.14 ppm, fluoranthene (18.54 ppm), phenanthrene (14.13 ppm) and anthracene (11.06 ppm). According to the findings reported in this study, most of the borehole water in the Kerio Valley basin is contaminated and may be unsafe for drinking. Most of the reported concentration levels were several times higher than the standards of the U.S. Environmental and Protection Agency. However, it is necessary to develop a policy framework on the assessment and monitoring of water quality in the region and propose urgent measures to ensure a clean water supply for the benefit of residents.
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