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第一作者：赵璐璐

通讯作者：杨京亚,张洲,张新,肖书虎,曾萍,刘薇

发表时间：2022-10-09

发表刊物：安全与环境学报

期号：1

页面范围：382-385

ISSN号：1009-6094

摘要：The present study aims to evaluate the potential hazardous effects that may be caused by the discharge of the pharmaceutical sewage.For this purpose,we have made evaluation activities and compared the toxic effects of such sewage on different aquatic organisms,such as bacteria,like Photobacterium phosphoreum,phytoplankton,such as Scenedesmus obliquus,zooplankton,such as Paramecium caudatums and Daphnia magna),as well as fish,e.g.Denio rerio in hoping to reduce the toxic effects throughout the treating process.The results of our experiments have shown that the toxicity unit (TU) of the pharmaceutical sewage has still been ranging in an ascending order of 1.2-2.9 to Denio rerio and Daphnia magna.On the other hand,no significant adverse effects have been found on Scenedesmus obliquus and Photobacterium phosphoreum.We have also found that the influents and the effluents from the hydrolysis and aerobic process may both result in lethality effect on the fish Paramecium caudatums,with TU values being at a level between 1.2-1.5.As to the sensitivity of the organisms under study proves to follow a descending order:Denio rerio ＞ Daphnia magna ＞ Paramecium caudatums ＞ Photobacterium phosphoreum and Scenedesmus obliquus.After being treated through the hydrolytic acidificationaerobic process,it can be found that the physicochemical indexes of the effluents can be made to come up to the discharge standard given in the "Chemical Synthetic Pharmaceutical Industrial Water Pollutants".The removal rate of the physiochemical indexes can be made to reach over 80％.Nevertheless,the effluents after being treated still remain acutely toxic on Daphnia magna and Denio rerio,with the said testing unit above 1.0,though the physiochemical indexes,including those of COD,BOD5 and NH3-N,may not indicate obvious correlation with the toxicity indexes.Besides,the toxicity removing rate proves to range between 44％ and 50％,much lower than the reduced rate in the physicochemical indexes,which tends to show that the toxicity of the pharmaceutical sewage has been enhanced with the increasing trophic levels of the tested organisms,thus reminding us of the potential adverse effect of the pharmaceutical sewage on the organisms at higher trophic levels.The results of the present study imply that further treatment of the pharmaceutical sewage remains necessary to reduce the toxicity of the pharmaceutical sewage more thoroughly.Along with it,it is also recommended to use more comprehensive toxic indictors to demonstrate more effectively the physicochemical indicating parameters so as to produce a more comprehensive safety evaluation for such sewage.

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