Bezerra_2025_Arch.Environ.Contam.Toxicol__

Gadolinium (Gd) and Lanthanum (La) are rare earth elements (REEs) widely employed in contemporary technologies due to their unique physicochemical properties. However, their increasing release into aquatic environments has raised concerns about potential ecotoxicological effects. This study assessed the acute biochemical and molecular response of fourth-instar Chironomus sancticaroli larvae exposed to Gd and La at 0.03, 0.30, 3.00, and 30 microg L(-1). Exposure to La at 0.03 and 3.00 microg L(-1) induced a significant increase in acetylcholinesterase (AChE) activity, suggesting potential neurotoxic effects that may alter synaptic transmission and behavioral responses in larvae, whereas Gd did not affect AChE activity. Furthermore, La inhibited esterase-alpha activity, while Gd inhibited esterase-beta activity in larvae exposed to 0.30, 3.00, and 30 microg L(-1), suggesting specific alterations in detoxification and metabolic processing pathways. Both REEs triggered oxidative stress, as evidenced by the increase in catalase and glutathione S-transferase activities at specific concentrations, which may reflect a compensatory response to increased reactive oxygen species. Lipid peroxidation was detected only at the highest La concentration (30 microg L(-1)), indicating membrane damage and potential impairment of cellular integrity. Gene expression analysis showed downregulation of hemoglobin D across all La concentrations and hemoglobin E across all Gd concentrations, potentially compromising oxygen transport and respiratory efficiency of larvae. These sublethal alterations suggested that C. sancticaroli larvae are sensitive to both elements, with La exerting broader physiological disruption, in addition, these findings rise concern about the ecological risk of REE contamination in freshwater ecosystems.