Spatial distribution, temporal variations and source of titanium dioxide nanoparticles in Taihu Lake, China

Abstract

The detrimental impacts of titanium dioxide nanoparticles (TiO2NPs) on the ecosystem and organisms have aroused great public concerns. However, the information on their concentration in the real aquatic environment is still limited, hindering the rational evaluation of their potential hazards. In this study, water samples from Taihu Lake were collected in June and November 2023, to investigate the spatial distribution and temporal variations of TiO2NPs. Using phosphorylated Fe3O4 particles based magnetic solid phase extraction and ICP-MS determination, high concentrations of TiO2NPs were detected in the western and northern regions of Taihu Lake. These areas contribute to 83 % of the total runoff into the lake. Total Ti levels were typically higher in November than in June, but no marked seasonal difference was observed for TiO2NPs. Different shapes of TiO2NPs with both smooth and rough surfaces were observed in the surface water. To further distinguish whether these TiO2NPs were sourced from the natural background or anthropogenic sources, the ratios of Ti to other rare elements including Nb were calculated. In November, the Ti/Nb ratios at most sampling sites were significantly higher than those in June, indicating that a large amount of engineered TiO2NPs are discharged into Taihu Lake during the summer and autumn seasons. Our study contributes to the understanding of contamination levels, spatial distribution, and temporal variation of TiO2NPs in lake systems, and provides valuable data for their further risk assessment.