Microplastic particles (MPs) are widely distributed in the environment. The high surface ratio of MPs make them effective transmission mediums for many toxic pollutants. The combined toxicity of MPs and heavy metals have received increasing attention in recent years. In this study, effects of MPs (100 μg/L) on the toxicity of low (15 μg/L) and high (150 μg/L) concentrations of cadmium (Cd) to zebrafish were evaluated based on a 10-day subacute exposure. The survival rate, growth, antioxidant capacity, reactive oxygen species (ROS) accumulation, histology and Cd biological enrichment in different tissues were investigated with the objective to understand the effect and mechanism of MPs on Cd toxicity to zebrafish. The results showed that the effect of MPs on Cd toxicity mainly depended on the concentration of Cd. MPs significantly enhanced the toxicity of low concentrations of Cd (LCd), including lower antioxidant enzyme activities, higher ROS levels, more severe tissue damage, inhibited growth rate and lower survival rate. However, the effects of MPs on the toxicity of high concentrations of Cd (HCd) were exactly opposite to LCd. Cd enrichment analysis showed that MPs could significantly increase LCd accumulation in intestine, gill, skin and muscle tissues, while decrease the enrichment of HCd in liver, intestine, gill and muscle tissues. Free Cd in the exposure water was significantly decreased by MPs in the HCd and MPs combined exposure group. These results suggest that effect of MPs on Cd toxicity to zebrafish depending on Cd concentration, MPs can increase the enrichment of LCd in zebrafish and enhance its toxicity, but can decrease the enrichment of HCd in zebrafish and attenuate its toxicity. The present study will broaden our understanding of the interaction between MPs and heavy metals.
Keywords: Biological enrichment; Cadmium; Combined toxicity; Microplastic; Zebrafish.
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