Ecological Risk Assessment of Cadmium in Karst Lake Sediments Based on Daphnia pulex Ecotoxicology

The background value of cadmium (Cd) in soil and water sediments in the karst area is 0.31 mg kg(-1), with a typical high background of cadmium geochemistry. It is well-known that Cd is classified as a highly toxic metal. Therefore, at the Yelang reservoir in Guizhou province, eco-toxicological tests were carried out using Daphnia pulex. The Geo-Accumulation Index and Potential Ecological Risk Index were used to assess the environmental risk of Cd in sediments. The Cd contents in the sediments of Yelang reservoir ranged from 2.51 to 5.23 mg kg(-1), while the LC50 values of the acute toxicity test of Daphnia pulex and Cd at 24, 48, 72, and 96 h were 1.17, 0.50, 0.24, and 0.12 mg L-1, respectively, giving a Safe Concentration threshold of Cd of 1.20 x 10(-3) mg L-1 in the water body. Based on curve fitting the solid-liquid two-phase distribution model of cadmium in Yelang reservoir was Y = 7.59 x 10(-9) x X-2.58 (R-2 = 0.9995). The safety threshold sediment Cd concentration was 103 mg kg(-1), and was much higher than the Cd content in the sediment of the Yelang reservoir. The Geo-Accumulation Index (I-geo 2.432-3.491) results show that the sediments had reached medium-strong or strong risk levels. The Potential Ecological Risk Index (E-r(i) 242.8-505.9) reached a very high or extremely high-risk level. However, due to high concentrations of Ca2+ and Mg2+, and the pH being in the neutral-alkaline range of water body in karst areas, the Daphnia ecotoxicology evaluation method showed slight ecological risk, quite different from other assessment results, thus this method could be considered to use in such areas.

Automated summary

The concentration of cadmium in the sediments of Yelang reservoir is high, with the results of acute toxicity tests on Daphnia pulex indicating the safe threshold concentration of cadmium in the water body. The solid-liquid two-phase distribution model shows that the cadmium concentration in the reservoir sediments has reached medium-strong or strong risk levels.