化学                        
                
                                
                        
                            毒性                        
                
                                
                        
                            斜生栅藻                        
                
                                
                        
                            生物降解                        
                
                                
                        
                            代谢物                        
                
                                
                        
                            EC50型                        
                
                                
                        
                            磺胺甲恶唑                        
                
                                
                        
                            环境化学                        
                
                                
                        
                            食品科学                        
                
                                
                        
                            急性毒性                        
                
                                
                        
                            亚硝化                        
                
                                
                        
                            代谢途径                        
                
                                
                        
                            生物化学                        
                
                                
                        
                            藻类                        
                
                                
                        
                            新陈代谢                        
                
                                
                        
                            生物                        
                
                                
                        
                            有机化学                        
                
                                
                        
                            植物                        
                
                                
                        
                            抗生素                        
                
                                
                        
                            体外                        
                
                        
                    
            作者
            
                Jiu-Qiang Xiong,Sunjoon Kim,Mayur B. Kurade,Sanjay P. Govindwar,Reda A.I. Abou-Shanab,Eun Jung Kim,Hyun Seog Roh,Moonis Ali Khan            
         
                    
        
    
            
            标识
            
                                    DOI:10.1016/j.jhazmat.2018.07.049
                                    
                                
                                 
         
        
                
            摘要
            
            This study investigated the environmental effects of two common emerging contaminants, sulfamethazine (SMZ) and sulfamethoxazole (SMX), and their mixture using a green microalga, Scenedesmus obliquus. The calculated EC50 values of SMZ, SMX, and their mixture (11:1 wt/wt) after 96 h were 1.23, 0.12, and 0.89 mg L-1, respectively. The toxicity of the mixture could be better predicted using a concentration addition model than an independent action model. The risk quotients of SMZ, SMX, and their mixture were >1 during the experiment, indicating their high potential risks on aquatic microorganisms. Despite their toxicity, S. obliquus exhibited 17.3% and 29.3% removal of 0.1 mg L-1 and 0.2 mg L-1 after 11 days of cultivation. The changes of SMZ and SMX removal were observed when combined, which showed a significantly improved removal of SMZ (up to 3.4 folds) with addition of SMX (0.2 mg L-1). The metabolic pathways of SMZ and SMX were proposed according to mass spectroscopic analysis, which showed six metabolites of SMX and seven intermediates of SMZ, formed as a result of ring cleavage, hydroxylation, methylation, nitrosation, and deamination.
         
            
 
                 
                
                    
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