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Charge-dependent negative effects of polystyrene nanoplastics on Oryzias melastigma under ocean acidification conditions

The Science of The Total Environment 2022 14 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 45 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Xuemei Sun, Xuemei Sun, Qi Sui, Lin Zhu, Xuemei Sun, Qi Sui, Xuemei Sun, Xuemei Sun, Qi Sui, Lin Zhu, Bin Xia, Qi Sui, Qi Sui, Qi Sui, Lin Zhu, Qi Sui, Bin Xia, Bin Xia, Yufei Chen, Qi Sui, Xuemei Sun, Qi Sui, Lin Zhu, Qi Sui, Qi Sui, Xuemei Sun, Bijuan Chen, Bijuan Chen, Bijuan Chen, Xia Wang, Qi Sui, Xuemei Sun, Qi Sui, Lin Zhu, Qi Sui, Xuemei Sun, Lin Zhu, Qi Sui, Bijuan Chen, Bin Xia, Bin Xia, Qi Sui, Bin Xia, Xuemei Sun, Bijuan Chen, Qi Sui, Qi Sui, Bijuan Chen, Lin Zhu, Lin Zhu, Lin Zhu, Lin Zhu, Lin Zhu, Lin Zhu, Lin Zhu, Xuemei Sun, Bijuan Chen, Xuemei Sun, Guozhu Chang, Bijuan Chen, Guozhu Chang, Qi Sui, Xuemei Sun, Xuemei Sun, Qi Sui, Lin Zhu, Xuemei Sun, Keming Qu Keming Qu Lin Zhu, Qi Sui, Lin Zhu, Qi Sui, Lin Zhu, Xuemei Sun, Xuemei Sun, Qi Sui, Xuemei Sun, Lin Zhu, Bin Xia, Bin Xia, Qi Sui, Qi Sui, Qi Sui, Keming Qu Yufei Chen, Bin Xia, Bin Xia, Bin Xia, Lin Zhu, Bin Xia, Lin Zhu, Lin Zhu, Lin Zhu, Lin Zhu, Lin Zhu, Lin Zhu, Bijuan Chen, Bijuan Chen, Xuemei Sun, Bijuan Chen, Bin Xia, Bin Xia, Bijuan Chen, Qi Sui, Lin Zhu, Lin Zhu, Lin Zhu, Bin Xia, Bin Xia, Bin Xia, Xia Wang, Xia Wang, Keming Qu Keming Qu Keming Qu Bijuan Chen, Bijuan Chen, Qi Sui, Xuemei Sun, Bin Xia, Xuemei Sun, Bin Xia, Bin Xia, Bin Xia, Keming Qu Keming Qu Keming Qu Xuemei Sun, Bin Xia, Keming Qu Keming Qu Keming Qu Bin Xia, Bin Xia, Keming Qu Bin Xia, Lin Zhu, Keming Qu Bin Xia, Bin Xia, Bijuan Chen, Bijuan Chen, Bijuan Chen, Bin Xia, Bin Xia, Keming Qu Keming Qu Keming Qu Keming Qu

Summary

This study tested the combined effects of differentially charged polystyrene nanoplastics and ocean acidification on the marine fish Oryzias melastigma, finding that surface charge significantly influenced both independent and interactive toxicity. Negatively charged particles were generally more harmful, with effects exacerbated under acidified conditions.

Polymers

Body Systems

Reproductive

Models

Fish other

Study Type Environmental

Marine nanoplastics (NPs) have attracted increasing global attentions because of their detrimental effects on marine environments. A co-existing major environmental concern is ocean acidification (OA). However, the effects of differentially charged NPs on marine organisms under OA conditions are poorly understood. We therefore investigated the effects of OA on the embryotoxicity of both positively and negatively charged polystyrene (PS) NPs to marine medaka (Oryzias melastigma). Positively charged PS-NH exhibited slighter aggregation under normal conditions and more aggregation under OA conditions than negatively charged PS-COOH. According to the integrated biomarker approach, OA reversed the toxicity of positively and negatively charged NPs towards embryos. Importantly, at environmental relevant concentrations, both types of PS-NPs could enter the embryos through chorionic pores and then transfer to the larvae. OA reversed the internalization of PS-NH and PS-COOH in O. melastigma. Overall, the reversed toxicity of PS-NH and PS-COOH associated with OA could be caused by the reversed bioavailability of NPs to O. melastigma, which was attributed to altered aggregation of the NPs in acidified seawater. This finding demonstrates the charge-dependent toxicity of NPs to marine fish and provides new insights into the potential hazard of NPs to marine environments under OA conditions that could be encountered in the near future.

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