Download This PaperBiological Responses of Alga Euglena Gracilis to Typical Personal Care Products (Pcps) and the Regulation of Humic Acid
33 Pages Posted: 28 May 2022
Abstract
Though the toxicity of triclosan (TCS) and galaxolide (HHCB) in freshwater have been reported, little study was shed light on their molecular toxicity mechanism and the regulation of humic acid (HA). In this work, freshwater algae E. gracilis was selected to explore these processes, and the molecular toxicity mechanism was analyzed by metabolomics. TCS was more toxic to E. gracilis than HHCB at 1 d exposure with the EC 50 value of 0.76 mg L -1 , but HHCB showed a higher toxicity as the exposure time prolonged. HA could alleviate the toxicity of TCS and HHCB, mainly due to the inhibition of TCS uptake and oxidative stress, respectively. The perturbations on a number of antioxidant defense-related metabolites in response to TCS or HHCB also indicated oxidative stress was a main toxicity mechanism. However, the exposure to HHCB resulted in more pronounced perturbations in the purine metabolism than TCS, implying that HHCB may pose a genetic toxicity on algae. It may explain the higher toxicity of HHCB to algae as the exposure time increased. These findings provide a comprehensive understanding on the ecological risks of TCS or HHCB in natural waters.
Keywords: personal care products, Algae, toxicity mechanism, Metabolomics, humic acid
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