Abstract
With the integration strategy of the Yangtze River Delta rising to the height of the national strategy, it is crucial to ascertain pollution, ecological risks, and possible sources of potentially toxic elements (PTEs) in the sediments of the drinking water source channel Taipu River across the core demonstration zone. In this study, distribution, risk assessment, and source of 12 PTEs were investigated in sediment samples from the Taipu River. The concentrations of Mo, Cu, Cd, Ni, and Zn in the sediments of the Taipu River were generally 1.01–5.84 times higher than the background value of the soil from Jiangsu Province. The spatial distribution of PTEs presented differently upstream, middle, and downstream of the river. The values of Igeo and EF showed moderate pollution at individual points, mainly due to Cd, Cu, and Mo. Except for Cd, the average potential ecological risk of other elements was low. Analysis of contamination source indicated that Cr, Ni, Tl, V, As, and Co were from natural sources while Zn, Mo, Cd, Pb, and Sb were associated with industrial activities. Copper was possibly derived from historic aquaculture activities along the Taipu River. Although the concentration of PTEs is generally low, particular attention should be given to Cd, Mo, and Cu as pollution sources. The results provide guidance for controlling PTEs pollution and protecting drinking water sources in the Taipu River.
Highlights
River plays a pivotal role in the life of humans
Aquatic sediments can act as a sink of potentially toxic elements (PTEs) by deposition [4], and a source of lithogenic or anthropogenic PTE
The results showed that the were reference materirecovery rate is within samples
Summary
River plays a pivotal role in the life of humans. It helps in irrigation, aquaculture, flood control, transportation, drinking water, and balancing the ecosystem. Aquatic sediments can act as a sink of potentially toxic elements (PTEs) by deposition [4], and a source of lithogenic or anthropogenic PTE through resuspension [5] Due to their low solubility, PTEs, which are often derived from atmospheric deposition, surface runoff, wastewater discharge, would accumulate in river sediments. It is located in the Yangtze River Delta Ecology and Greenery Integration Development Demonstration Zone in China. It acts as an important channel for flood discharge and shipping, and a supply for potable water sources, which requires a very high standard of water quality and ecological balance.
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