Abstract
Perfluoroalkyl and polyfluoroalkyl substances (PFAS) are refractory organic pollutants, which are characterized by ubiquity, bioaccumulation, and biological toxicity. To explore the biotoxic effects of PFAS on fish, this study reviewed 64 publications. The toxicity of PFAS on functional traits of fish exposed to PFAS was analyzed based on Meta-analysis combined with effect sizes, which provided reference for the toxicity assessment of PFAS and was conducive to the priority control and management of PFAS pollution. The results showed that:① of the 12 functional traits studied, seven were found to be vulnerable in fish; the order of toxicity response was malformation (lnRR=-2.5599), development (lnRR=-0.4103), cell damage (lnRR=-0.3962), reproduction (lnRR=-0.3724), thyroid response (lnRR=-0.2492), growth (lnRR=-0.2194), and survival (lnRR=-0.2192). ② The aquatic toxicity of PFAS was significantly affected by the sex and developmental stage of fish. PFAS tended to have adverse effects on female fish (lnRR=-0.1628), and the physiological function of embryos was most significantly affected by PFAS (lnRR=-0.3553). ③ A total of 13 PFAS were involved in the study, among which PFAS with sulfonate groups and long-chains were more likely to have significant toxicity to the functional traits of fish (P<0.05).④ Existing data revealed that PFAS tended to produce acute toxicity to fish at medium and low concentrations (0.01-10 mg·L-1, P<0.05).
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