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Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Marine & Wildlife Sign in to save

Microplastics aggravate the adverse effects of BDE-47 on physiological and defense performance in mussels

Journal of Hazardous Materials 2020 104 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Yueyong Shang, Liang Li, Huaxin Gu, Youji Wang, Yueyong Shang, Wei Huang, Wei Huang, Wei Huang, Liang Li, Huahong Shi Youji Wang, Wei Huang, Liang Li, Liang Li, Xinghuo Wang, Huahong Shi Huahong Shi Menghong Hu, Huaxin Gu, Wei Huang, Menghong Hu, Xinghuo Wang, Wei Huang, Shuaishuai Wei, Shuaishuai Wei, Wei Huang, Yueyong Shang, Yueyong Shang, Yueyong Shang, Menghong Hu, Wei Huang, Wei Huang, Wei Huang, Wei Huang, Huahong Shi Wei Huang, Menghong Hu, Huahong Shi Huahong Shi Wei Huang, Huahong Shi Menghong Hu, Wei Huang, Huahong Shi Youji Wang, Liang Li, Wei Huang, Youji Wang, Menghong Hu, Wei Huang, Menghong Hu, Liang Li, Youji Wang, Shuaishuai Wei, Shuaishuai Wei, Menghong Hu, Huaxin Gu, Huaxin Gu, Xinghuo Wang, Wei Huang, Menghong Hu, Menghong Hu, Menghong Hu, Shuaishuai Wei, Xinghuo Wang, Shuaishuai Wei, Huahong Shi Huahong Shi Huahong Shi Huahong Shi Youji Wang, Youji Wang, Huahong Shi Huahong Shi Huahong Shi Huahong Shi Wei Huang, Wei Huang, Youji Wang, Wei Huang, Wei Huang, Wei Huang, Youji Wang, Menghong Hu, Youji Wang, Wei Huang, Menghong Hu, Wei Huang, Huahong Shi Youji Wang, Youji Wang, Wei Huang, Huahong Shi Huahong Shi Wei Huang, Menghong Hu, Youji Wang, Wei Huang, Xinghuo Wang, Huahong Shi Xinghuo Wang, Wei Huang, Huahong Shi Huahong Shi Wei Huang, Huahong Shi Shuaishuai Wei, Menghong Hu, Wei Huang, Huahong Shi Huahong Shi Yueyong Shang, Huahong Shi Menghong Hu, Huahong Shi Menghong Hu, Huahong Shi Youji Wang, Huahong Shi Huahong Shi Shuaishuai Wei, Wei Huang, Wei Huang, Huahong Shi Huahong Shi Menghong Hu, Youji Wang, Youji Wang, Youji Wang, Youji Wang, Liang Li, Youji Wang, Youji Wang, Youji Wang, Menghong Hu, Menghong Hu, Menghong Hu, Menghong Hu, Menghong Hu, Menghong Hu, Menghong Hu, Menghong Hu, Wei Huang, Wei Huang, Wei Huang, Wei Huang, Wei Huang, Wei Huang, Wei Huang, Wei Huang, Wei Huang, Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Yueyong Shang, Shuaishuai Wei, Xinghuo Wang, Huaxin Gu, Huaxin Gu, Shuaishuai Wei, Huahong Shi Huahong Shi Huahong Shi Shuaishuai Wei, Huahong Shi Huahong Shi Huahong Shi Huahong Shi Wei Huang, Wei Huang, Youji Wang, Wei Huang, Huahong Shi Wei Huang, Huahong Shi Huahong Shi Huahong Shi Huahong Shi Yueyong Shang, Menghong Hu, Menghong Hu, Yueyong Shang, Yueyong Shang, Huahong Shi Huahong Shi Wei Huang, Wei Huang, Huahong Shi Huahong Shi Youji Wang, Youji Wang, Huahong Shi Wei Huang, Youji Wang, Youji Wang, Shuaishuai Wei, Wei Huang, Wei Huang, Wei Huang, Wei Huang, Xinghuo Wang, Youji Wang, Youji Wang, Youji Wang, Huahong Shi Youji Wang, Menghong Hu, Liang Li, Youji Wang, Youji Wang, Menghong Hu, Huahong Shi Huahong Shi Youji Wang, Wei Huang, Menghong Hu, Menghong Hu, Menghong Hu, Wei Huang, Youji Wang, Youji Wang, Youji Wang, Huahong Shi Youji Wang, Youji Wang, Huahong Shi Youji Wang, Huahong Shi Huahong Shi Huahong Shi Youji Wang, Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Youji Wang, Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Wei Huang, Huahong Shi Huahong Shi Yueyong Shang, Youji Wang, Liang Li, Shuaishuai Wei, Youji Wang, Shuaishuai Wei, Liang Li, Menghong Hu, Youji Wang, Wei Huang, Menghong Hu, Huahong Shi Huahong Shi Wei Huang, Wei Huang, Youji Wang, Wei Huang, Menghong Hu, Huahong Shi Huahong Shi Youji Wang, Youji Wang, Menghong Hu, Youji Wang, Menghong Hu, Huahong Shi Huahong Shi Youji Wang, Huahong Shi Youji Wang, Youji Wang, Youji Wang, Yueyong Shang, Youji Wang, Menghong Hu, Huahong Shi Menghong Hu, Huahong Shi Youji Wang, Xinghuo Wang, Huahong Shi Huahong Shi Huahong Shi Huahong Shi Huahong Shi Menghong Hu, Youji Wang, Huahong Shi Huahong Shi Wei Huang, Huahong Shi Menghong Hu, Huahong Shi Huahong Shi Menghong Hu, Wei Huang, Menghong Hu, Menghong Hu, Youji Wang, Menghong Hu, Menghong Hu, Wei Huang, Youji Wang, Wei Huang, Huahong Shi Youji Wang, Youji Wang, Menghong Hu, Xinghuo Wang, Menghong Hu, Yueyong Shang, Wei Huang, Youji Wang, Huahong Shi Huahong Shi Menghong Hu, Youji Wang, Huahong Shi Wei Huang, Huahong Shi Youji Wang, Menghong Hu, Youji Wang, Menghong Hu, Youji Wang, Wei Huang, Menghong Hu, Youji Wang, Youji Wang, Youji Wang, Menghong Hu, Menghong Hu, Huahong Shi Wei Huang, Wei Huang, Youji Wang, Wei Huang, Wei Huang, Youji Wang, Huahong Shi Youji Wang, Youji Wang, Youji Wang, Youji Wang, Menghong Hu, Huahong Shi Youji Wang, Youji Wang, Youji Wang, Huahong Shi Huahong Shi

Summary

Marine mussels (Mytilus coruscus) co-exposed to polystyrene microplastics and the flame retardant BDE-47 for 21 days showed greater immune suppression, oxidative stress, and energy depletion than with either pollutant alone, consistent with microplastics acting as a carrier that amplifies BDE-47 toxicity.

Polymers
PS
Body Systems
Immune
Models
Invertebrate other

The highly hydrophobic surfaces make microplastics a potential carrier of organic pollutants in the marine environment. In order to explore the toxic effects of polybrominated diphenyl ethers (BDE-47) combined with microplastics on marine organisms, we exposed the marine mussel Mytilus coruscus to micro-PS combined with BDE-47 for 21 days to determine the immune defense, oxidative stress and energy metabolism of the mussels. The results showed that the clearance rate (CR) of mussels exposed to single micro-PS, single BDE-47 or both was lower than control group. In general, compared to single BDE-47 exposure, the combination of micro-PS and BDE-47 significantly increased respiration rate (RR), activities of acid phosphatase (ACP) and alkaline phosphatase (ALP), reactive oxygen species (ROS) production and malondialdehyde (MDA) concentrations, but significantly decreased lactate dehydrogenase (LDH) activity and the relative expression of heat shock protein (Hsp70 and 90). Overall, combined stress has more adverse effects on defense performance and energy metabolism in mussels and micro-PS seem to exacerbate the toxicological effects of BDE-47. As microplastics pollution may deteriorate in the future, the health of mussels may be threatened in organically polluted environment, which eventually change the stability of the structure and function of intertidal ecosystem.

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