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Investigating the metabolic and oxidative stress induced by biofouled microplastics exposure in Seriola lalandi (yellowtail kingfish)

Marine Pollution Bulletin 2024 10 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 60 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Eleanor R.M. Kelly, Eleanor R.M. Kelly, Eleanor R.M. Kelly, Eleanor R.M. Kelly, Eleanor R.M. Kelly, Eleanor R.M. Kelly, Eleanor R.M. Kelly, Eleanor R.M. Kelly, Eleanor R.M. Kelly, Eleanor R.M. Kelly, Eleanor R.M. Kelly, Eleanor R.M. Kelly, José E. Trujillo, David J. Burritt, David J. Burritt, Bridie J. M. Allan Bridie J. M. Allan Bridie J. M. Allan José E. Trujillo, José E. Trujillo, José E. Trujillo, José E. Trujillo, José E. Trujillo, José E. Trujillo, Alvin N. Setiawan, Alvin N. Setiawan, Bridie J. M. Allan Alvin N. Setiawan, José E. Trujillo, Alvin N. Setiawan, Alvin N. Setiawan, Alvin N. Setiawan, Steve Pether, Steve Pether, Steve Pether, Steve Pether, Steve Pether, Steve Pether, Steve Pether, Steve Pether, Steve Pether, Steve Pether, Steve Pether, Steve Pether, David J. Burritt, David J. Burritt, David J. Burritt, Bridie J. M. Allan David J. Burritt, David J. Burritt, Bridie J. M. Allan Bridie J. M. Allan Bridie J. M. Allan Bridie J. M. Allan Bridie J. M. Allan Bridie J. M. Allan Bridie J. M. Allan Bridie J. M. Allan Bridie J. M. Allan

Summary

This study tested how microplastics covered in natural ocean bacteria (biofouled) affect yellowtail kingfish compared to clean microplastics. The biofouled microplastics caused more oxidative stress and metabolic disruption in the fish than clean ones. Since fish in the wild almost always encounter bacteria-coated microplastics rather than clean ones, previous studies using only clean plastics may have underestimated the real health risks.

Polymers

Study Type Environmental

Microorganisms quickly colonise microplastics entering the ocean, forming a biofilm that, if ingested, is consumed with the microplastics. Past research often neglects to expose fish to biofouled microplastics, opting only for clean microplastics despite the low likelihood that fish will encounter clean microplastics. Here, we investigate the physiological impacts of biofouled polyethylene microplastic (300-335 μm) exposure in juvenile fish. Intermittent flow respirometry, antioxidant enzyme activity, and lipid peroxidation were investigated after fish were exposed to clean, biofouled, or no microplastic beads. Fish exposed to biofouled microplastics had a wider aerobic scope than those exposed to clean microplastics while antioxidant enzyme and lipid peroxidation levels were higher in clean microplastics. Clean microplastic exposure indicated higher fitness costs, potentially due to a nutritional advantage of the biofilm or varying bioavailability. These findings highlight the importance of replicating natural factors in exposure experiments when predicting the impacts of increasing pollutants in marine systems.

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