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Microplastic ingestion induces energy loss on the copepod Tigriopus koreanus

Jae Gon Park, Hye-Min Kang, Yeun Park, Ji-Won Hwang, Seung Ho Baek, Young Kyun Lim, Kyun‐Woo Lee

2024Ecotoxicology and Environmental Safety15 citationsDOIOpen Access PDF

Abstract

In marine environments, exposure to microplastics threaten various organisms. A large portion of MPs may be bioavailable to copepods, and ingesting MPs has been reported to induce various adverse effects, including increased mortality, developmental retardation, and decreased reproduction. Adverse effects of MPs on these important processes of copepods may be induced by the obstructive effects of the ingested MPs on energy acquisition. However, few studies have explored the biological effects of MPs on copepods in terms of energy budgets. Therefore, we analyzed ATP (adenosine triphosphate) levels, enzyme activities, swimming distances, and excretion rates in marine copepods ( Tigriopus koreanus ) that have ingested polystyrene microplastics. Our results indicate that the ingestion of MPs may prevent adequate acquisition of nourishment and lead the copepods into a vicious circle in the respect to energetic burden. Our study provides biochemical evidence for a reduction in the energy budget of copepods due to MPs ingestion. Further, this study increases our understanding of the risks of microplastics, by providing advanced evidences of their effects on marine primary consumer. • Ingested MPs induced the reduced energy budget in the marine copepod Tigriopus koreanus . • ATP levels in T. koreanus was decreased following MPs ingestion. • Exposure to MPs may evoke the additional energy consumption in the copepods. • Ingestion of MPs altered the activities of digestive enzymes in the T. koreanus .

Topics & Concepts

IngestionCopepodMicroplasticsBiologyEnvironmental scienceZoologyChemistryEcologyCrustaceanBiochemistryMicroplastics and Plastic PollutionMarine Biology and Environmental Chemistrybiodegradable polymer synthesis and properties