CONICET | Buscador de Institutos y Recursos Humanos

Sewage effluents are the most important source of emergent pollutants in the aquatic environment. In thepresent study the toxicological impact of an untreated sewage effluent on the Prochilodus lineatus fish was assessedunder field conditions using a caging experiment. The biomarkers which were measured here involvedoxidative stress markers, hepatic function parameters, neurotoxicity indicators, energy reserves, histologicalalterations and brain cell proliferation. In addition, water quality parameters including the occurrence of somehuman pharmaceuticals were measured. Juveniles of P. lineatus were caged for 15 days at three sites: the effluentsite, and 2 km upstream and downstream from the effluent discharge. Caffeine, atenolol, carbamazepine, enalapriland sildenafil were detected in water river samples. The increased activation of caspase-3 and the decreasedcell proliferation in the diencephalon showed that the brain of fish caged at the effluent was affected.These fish also displayed a rise in hepatic transaminase activity, and oxidative stress in liver and gills which wasevidenced by an increased lipid peroxidation and activation of antioxidant enzymes. At tissue level, increasedglycogen and decreased lipid contents in liver as well as the highest indexes of hepatic lesions were also observedin the fish caged at the effluent. Both biochemical and histopathological findings demonstrated that effects weremore severe on the liver of such fish than on their gills. The in situ exposure method carried out in our studymakes it possible to observe the real effects of the sewage effluent on fish. Furthermore, our results also provide abetter understanding of the harmful effects of wastewater effluents on the aquatic wildlife.