Gevao Bondi, Uddin Saif, Krishnan Divya, Rajagopalan Smitha, Habibi Nazima
Environmental Protection Authority, Freetown 47235, Sierra Leone.
Environment and Life Sciences Research Center, Kuwait Institute for Scientific Research, Safat 13109, Kuwait.
Toxics. 2022 Apr 1;10(4):174. doi: 10.3390/toxics10040174.
This study provides baseline information on the concentrations of antibiotics in influent and effluent from two wastewater treatment plants in regular operation in the State of Kuwait. Wastewater samples were collected from the influent and effluent streams of two WWTPs, over four sampling campaigns and analyzed for a broad range of antibiotics. The mean influent concentrations of sulfamethoxazole, ciprofloxacin, clarithromycin, and cefalexin were 852 ng/L, 672 ng/L, 592 ng/L), and 491 ng/L, respectively, at Umm Al Hayman WWTP. At the Kabd WWTP, the influent concentration of clarithromycin was highest with a mean of 949 ng/L, followed by ciprofloxacin (mean, 865 ng/L), cefalexin (mean, 598 ng/L), and sulfamethoxazole (mean, 520 ng/L). The dominant compounds in the effluent from Umm Al Hayman were sulfamethoxazole (mean, 212 ng/L), ciprofloxacin (mean, 153 ng/L), ofloxacin (mean, 120 ng/L), dimetridazole (mean, 96 ng/L), and metronidazole (mean, 93 ng/L). Whereas, at the Kabd WWTP, the dominant compounds were sulfamethoxazole (mean, 338 ng/L), dimetridazole (mean, 274 ng/L), cefalexin (mean, 213 ng/L), ciprofloxacin (mean, 192 ng/L), and clarithromycin (189 ng/L). The mean influent concentrations of all compounds were higher than those measured in the effluents. The concentrations of antibiotic compounds were not significantly different between the two WWTPs (p > 0.05). The removal efficiencies of the various antibiotics over the four sampling campaigns for the Kabd and Umm Hayman WWTPs ranged between 10.87 and 99.75% and also showed that they were variable and were compound dependent. The data clearly show that the concentrations of antibiotics measured in the influents of both WWTPs were highest in samples collected during the winter-summer (September samples) transition followed by the concentrations measured during the winter-summer (March samples) transition period. This is possibly linked to the increased prescription of these medications to treat infectious diseases and flu prevalent in Kuwait during these periods. This study provides the first reported concentrations of antibiotics in the dissolved aqueous influents and effluents of WWTPs in Kuwait. Additional studies are required to evaluate the environmental impact that antibiotic residues may cause since treated wastewater is used in irrigation, and often there are instances when untreated wastewater is discharged directly into the marine environment.
本研究提供了科威特国两家正常运行的污水处理厂进水和出水中抗生素浓度的基线信息。在四个采样周期内,从两家污水处理厂的进水和出水流中采集了废水样本,并对多种抗生素进行了分析。在乌姆·海曼污水处理厂,磺胺甲恶唑、环丙沙星、克拉霉素和头孢氨苄的平均进水浓度分别为852纳克/升、672纳克/升、592纳克/升和491纳克/升。在卡卜德污水处理厂,克拉霉素的进水浓度最高,平均为949纳克/升,其次是环丙沙星(平均865纳克/升)、头孢氨苄(平均598纳克/升)和磺胺甲恶唑(平均520纳克/升)。乌姆·海曼污水处理厂出水中的主要化合物为磺胺甲恶唑(平均212纳克/升)、环丙沙星(平均153纳克/升)、氧氟沙星(平均120纳克/升)、二甲硝唑(平均96纳克/升)和甲硝唑(平均93纳克/升)。而在卡卜德污水处理厂,主要化合物为磺胺甲恶唑(平均338纳克/升)、二甲硝唑(平均274纳克/升)、头孢氨苄(平均213纳克/升)、环丙沙星(平均192纳克/升)和克拉霉素(189纳克/升)。所有化合物的平均进水浓度均高于出水中测得的浓度。两家污水处理厂之间抗生素化合物浓度无显著差异(p>0.05)。在四个采样周期内,卡卜德和乌姆·海曼污水处理厂对各种抗生素的去除效率在10.87%至99.75%之间,也表明它们是可变的且取决于化合物。数据清楚地表明,两家污水处理厂进水中测得的抗生素浓度在冬夏(9月样本)过渡期采集的样本中最高,其次是冬夏(3月样本)过渡期测得的浓度。这可能与这些时期科威特治疗传染病和流感的这些药物处方增加有关。本研究首次报告了科威特污水处理厂溶解水进水和出水中的抗生素浓度。由于处理后的废水用于灌溉,且经常有未经处理的废水直接排入海洋环境的情况,因此需要进行更多研究来评估抗生素残留可能造成的环境影响。
