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Evaluation of antioxidant capacity and digestive enzyme activities in Mytilus galloprovincialis exposed to nanoplastics under different patterns of hypoxia

Marine Environmental Research 2022 16 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.

Xin Wang, Xin Wang, Xin Wang, Xin Wang, Qing Wang, Qing Wang, Qing Wang, Qing Wang, Qing Wang, Jianmin Zhao Qing Wang, Jianmin Zhao, Xin Wang, Xin Wang, Xin Wang, Xin Wang, Jianmin Zhao Jianmin Zhao Jianmin Zhao Qing Wang, Jianmin Zhao Tianyu Zhang, Jianmin Zhao, Jianmin Zhao, Jianmin Zhao, Jianmin Zhao, Xin Wang, Jianmin Zhao, Jianmin Zhao, Jianmin Zhao, Qianqian Zhang, Shengyuan Shao, Qing Wang, Jianmin Zhao Jianmin Zhao Tianyu Zhang, Jianmin Zhao Jianmin Zhao Jianmin Zhao Jianmin Zhao, Qing Wang, Jianmin Zhao Jianmin Zhao Jianmin Zhao Jianmin Zhao Jianmin Zhao Qing Wang, Qing Wang, Qing Wang, Xin Wang, Xin Wang, Xin Wang, Xin Wang, Xin Wang, Tianyu Zhang, Tianyu Zhang, Tianyu Zhang, Qianqian Zhang, Jianmin Zhao, Jianmin Zhao, Jianmin Zhao, Tianyu Zhang, Jianmin Zhao, Xin Wang, Jianmin Zhao, Shengyuan Shao, Qing Wang, Qianqian Zhang, Jianmin Zhao Qing Wang, Jianmin Zhao Qing Wang, Jianmin Zhao, Jianmin Zhao Qing Wang, Qing Wang, Jianmin Zhao, Qing Wang, Jianmin Zhao Jianmin Zhao, Qing Wang, Qing Wang, Jianmin Zhao Jianmin Zhao, Xin Wang, Jianmin Zhao Qing Wang, Xin Wang, Xin Wang, Jianmin Zhao, Jianmin Zhao Xin Wang, Zhijun Dong, Xin Wang, Jianmin Zhao Qing Wang, Jianmin Zhao Jianmin Zhao Xin Wang, Jianmin Zhao, Qing Wang, Qing Wang, Qing Wang, Jianmin Zhao, Tianyu Zhang, Qing Wang, Qing Wang, Jianmin Zhao, Qing Wang, Jianmin Zhao, Qing Wang, Qing Wang, Qing Wang, Qing Wang, Jianmin Zhao Jianmin Zhao Jianmin Zhao Jianmin Zhao Jianmin Zhao Jianmin Zhao Jianmin Zhao Jianmin Zhao Jianmin Zhao Jianmin Zhao Qianqian Zhang, Jianmin Zhao, Zhijun Dong, Jianmin Zhao, Jianmin Zhao, Jianmin Zhao, Jianmin Zhao, Jianmin Zhao, Jianmin Zhao, Jianmin Zhao, Jianmin Zhao, Jianmin Zhao, Qing Wang, Jianmin Zhao, Qing Wang, Jianmin Zhao, Jianmin Zhao Jianmin Zhao Qing Wang, Jianmin Zhao Jianmin Zhao Qing Wang, Jianmin Zhao, Jianmin Zhao Qing Wang, Qing Wang, Qing Wang, Jianmin Zhao, Qing Wang, Qing Wang, Jianmin Zhao Jianmin Zhao Qing Wang, Jianmin Zhao, Jianmin Zhao, Qing Wang, Qing Wang, Jianmin Zhao Jianmin Zhao Jianmin Zhao, Jianmin Zhao Jianmin Zhao, Jianmin Zhao Jianmin Zhao, Jianmin Zhao, Jianmin Zhao, Jianmin Zhao Qing Wang, Qing Wang, Qing Wang, Qing Wang, Qing Wang, Qing Wang, Qing Wang, Jianmin Zhao

Summary

Mytilus galloprovincialis mussels exposed to polystyrene nanoplastics under hypoxic conditions showed compounded antioxidant impairment and digestive enzyme disruption compared to nanoplastic exposure alone. The study highlights that hypoxia, an increasingly common marine stressor, can amplify the toxicity of nanoplastic contamination.

Polymers

Body Systems

Digestive

Models

Invertebrate other

In the marine environment, plastic pollution may occur simultaneously with hypoxia. However, current ecological risk assessments of nanoplastics have rarely considered the impact of additional environmental factors, such as hypoxia. In this study, we investigated the effect of polystyrene nanospheres (PS-NPs) on the digestive performance (antioxidant system and digestive enzymes) of mussels Mytilus galloprovincialis under different patterns of hypoxia (normoxia, constant hypoxia, and fluctuating hypoxia). The result showed that PS-NPs caused oxidative damage in the digestive glands of mussels, while all patterns of hypoxia exacerbated this oxidative damage. Activities of four digestive enzymes (α-amylase, cellulase, trypsin, and lipase) were examined. Among these, the activity of the α-amylase was inhibited by PS-NPs, and the inhibition was aggravated by all the hypoxia patterns. The cellulase activity and trypsin activity was enhanced by PS-NPs, and the increase was further stimulated by hypoxia. Lipase activity was not affected by PS-NPs alone, but significant inhibition was detected after the coexposure to PS-NPs and hypoxia. Conclusively, the combined stress of hypoxia and nanoplastics can significantly affect the digestive performance of mussels and may alter the mussel nutrient uptake strategy. Our work has provided new insight into the ecological risk assessment of plastics under global climate change.

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