Abstract
Assessment of the environmental behavior of environmental hormones and antibiotics along the processes in typical wastewater treatment plants (WWTPs) based on bioavailable concentrations reflects the negative effects of pollutants from WWTPs on aquatic organisms more directly, as well as the potential for reusing the effluent and receiving waters for aquaculture. This study measured bioavailable concentrations in a typical WWTP and its receiving water body using the XAD-DGT samplers during dry and wet seasons. Firstly, the results confirmed the applicability of XAD-DGT in WWTP and the receiving water. Then, significant season and process-dependent variations were observed. The primary treatment occasionally led to concentration rebound due to desorption during the dry season, secondary treatment exhibited considerable variability depending on the physicochemical properties of the contaminants, and tertiary treatment consistently performed well (>80%). Based on XAD-DGT-measured bioavailable concentrations, the risks posed by environmental hormones and antibiotics in the effluent and receiving water body were determined to assess their potential for aquaculture reuse. The result indicated that the effluent water is applicable for fish aquaculture; however, further removal techniques, like adsorption or advanced oxidation, should be applied to crustacean cultivation, especially for contaminants like environmental hormones. For the water body, it was only feasible for crustacean aquaculture. Pre-treatments based on adsorption, sedimentation, or oxidation processes are necessary to remove environmental hormones and antibiotics if these areas are planned for aquaculture. This study provides an important scientific basis for a more accurate assessment of the environmental behavior of emerging contaminants, reuse directions of WWTP effluent, as well as the corresponding receiving waters.