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Crawfish are key players in aquatic ecosystems. Disruptions in crawfish health may trigger cascading effects, altering downstream food webs and ecosystem resilience. This makes crawfish a good 鈥渂iomarker鈥� or early warning signal for environmental microplastics.

Microplastics can be harmful on their own, but their combination with other chemical pollutants can produce multiplicative negative effects on aquatic life. One such pollutant is , a byproduct of manufacturing and food processing.

鈥淐rayfish are a sentinel species鈥攑roviding early warning signs of aquatic ecosystem health and pollutant interactions.鈥�

鈥� Mohamed Hamed, LSU postdoctoral researcher

Mohamed Hamed, a postdoctoral researcher at the LSU School of Veterinary Medicine, recently collaborated with researchers at Assiut University to study how microplastics and pyrogallol impact crawfish health.

The group found that the combined exposure to these two contaminants lowered crawfish鈥檚 ability to fight off infections and disease. Exposure impacted the crawfish鈥檚 immune, brain, and gut functions. Combined exposure to microplastics and pyrogallol caused more severe physiological damage than either pollutant alone.

鈥淭his outcome helps fill a major research gap,鈥� Hamed said. 鈥淲e should be monitoring the interactive effects of mixed contaminants in our environment, not only the effects of single pollutants.鈥�

This study highlights that environmental pollutants rarely act alone. When they coexist, their effects can be far more damaging. By investigating the co-toxicity of microplastics and pyrogallol in red swamp crayfish, this research underscores how such interactions can disrupt the balance of freshwater ecosystems.

Read the study: This is a top paper of 2025 from LSU. It has been cited over 12 times as of December 2025.

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