Exploring the Occurrence, Spatial Distribution, and Ecological Risk of Pharmaceuticals in Surface Water from an Urban Catchment of Beijing Based on DGT In Situ Measurement

Pharmaceuticals have been widely detected in urban surface waters globally. However, few studies have used diffusive gradients in thin-films (DGT) passive sampling techniques to investigate the occurrence of pharmaceuticals in natural waters. In this study, a self-developed DGT sampler was used to determine concentrations of 35 pharmaceuticals in 42 surface water sampling sites from the North Canal Basin, an urban catchment in Beijing, China. A total of 26 pharmaceuticals were detected with total concentrations ranging from 85.2 to 8800 ng/L, and ritonavir was the dominant pharmaceutical with the highest mean concentration of 46.2 ng/L. The spatial distribution indicated that the wastewater treatment plants were the major source of pharmaceuticals in the study area. Besides, pharmaceutical concentrations gradually increased from upstream to downstream along the mainstream, which could be attributed to the transfer of pharmaceuticals with the water flow. The result of the multilevel ecological risk assessment showed that ritonavir and diclofenac posed the most significant ecological risk (medium risk) to aquatic organisms, which means that high concern and priority control are required. This study was the first attempt to apply the DGT to the North Canal Basin in Beijing, enriching the data on pharmaceutical contamination and providing a scientific basis for environmental managers.