肯尼亚基西和卡巴内特污水处理厂中四种抗生素的出现和去除率

Joseph K. Wendott, M. L. Were, Jackson Cherutoi, M. Odero
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摘要

背景:目前,抗生素被认为是一种新出现的污染物,会对环境和人口产生不利影响,例如产生抗菌基因(ARG)和抗菌细菌(ARB)。本研究的目标是确定肯尼亚基西和卡巴内特废水处理厂中四种抗生素的季节性发生率和去除效率。 研究地点和时间:废水样本于 2020 年 6 月和 12 月从肯尼亚基西县 Suneka 废水处理厂和巴林戈县 Kabarnet 五级医院采集:在 6 月和 12 月肯尼亚的旱季和雨季,在基西和卡巴内特废水处理厂采集多个样本。收集的废水样本经离心分离后用玻璃微纤维滤纸过滤,然后通过固相萃取器滤芯。根据国际协调委员会的要求,采用高效液相色谱法对抗生素进行定量分析。结果结果显示,在旱季,基西污水处理厂的磺胺甲噁唑、三甲氧苄啶、氨苄西林和阿莫西林的抗生素浓度较高,分别为 1.29、0.09、2.92 和 1.82 微克/升;在卡巴内特污水处理厂,分别为 0.18、0.05、1.34 和 0.09 微克/升。在雨季,基西污水处理厂测得的磺胺甲噁唑、三甲氧苄啶、氨苄西林和阿莫西林浓度分别为 1.11、0.14、2.04 和 1.34 微克/升,卡巴内特污水处理厂分别为 0.14、0.06、1.01 和 0.09 微克/升。在雨季和旱季,根据抗生素的种类,污水处理厂的去除率从最高的 94% 到最低的 11.11%不等。结论在基西污水处理厂和卡巴内特污水处理厂都发现了阿莫西林、氨苄西林、曲美普林和磺胺甲噁唑,几乎所有抗生素在旱季的浓度都高于雨季。计算得出的最高去除率为 94.03%,最低去除率为 7.14%。结果表明,这两个污水处理厂能有效去除不同类型的抗生素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Occurrence and Removal Efficiencies of Four Antibiotics in Kisii and Kabarnet Waste Water Treatment Plants, Kenya
Background: Antibiotics are presently considered as emerging contaminants with adverse effects in the environment and the population such as the development of antimicrobial resistant genes (ARG) and antimicrobial resistant bacteria (ARB). This study was guided by objective entailing to determine the seasonal occurrences and removal efficiencies of four antibiotics in Kisii and Kabarnet waste water treatment plants in Kenya.  Place and Duration of Study: Waste water samples were picked from Suneka wastewater treatment plant in Kisii county and Kabarnet Level V Hospital in Baringo County Kenya in the months of June and December 2020 Methodology: Multiple samples were picked in Kisii and Kabarnet waste water treatment plants in the months of June and December correspond to the dry and wet seasons in Kenya. Collected waste water samples were centrifuged and filtered with glass microfiber filter papers and subsequently passed through a Solid phase extractor cartridge. High Performance Liquid Chromatography was used for quantification of antibiotics as per international commission for harmonization and subsequently applied for analysis. Results: The results revealed that the dry season had higher antibiotic concentrations at 1.29, 0.09, 2.92 and 1.82 µg/l for sulphamethoxazole, trimethoprim, ampicillin and amoxicillin respectively for the Kisii waste water treatment plant and 0.18, 0.05, 1.34 and 0.09 µg/l respectively for Kabarnet waste water treatment plant. During the wet seasons the measured concentrations were 1.11, 0.14, 2.04 and 1.34 µg/l for sulphamethoxazole, trimethoprim, ampicillin and amoxicillin at the Kisii WWTP, and 0.14, 0.06, 1.01 and 0.09 µg/l for Kabarnet WWTP. The removal efficiencies in the WWTPs, ranged from a high of 94 % to a low of 11.11 % depending on the type of antibiotic in both wet and dry seasons. Conclusion: Amoxicillin, ampicillin, trimethoprim and sulphamethaxazole were found in both Kisii WWTPs and Kabarnet WWTPs with nearly all antibiotics having a higher concentration of in the dry season than in the wet season. The highest calculated percentage removal was 94.03 % while the lowest calculated percentage removal was 7.14 %. The results suggest that the two WWTPs are effective for the removal of different types of antibiotics.
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