| Title : Concentration-dependent effects of lithium on Daphnia magna: Life-history profiles and integrated biomarker response implementation - Chen_2024_Sci.Total.Environ__169866 |
| Author(s) : Chen W , Zhang P , Ye L , Yao J , Wang Z , Liu J , Qin X |
| Ref : Sci Total Environ , :169866 , 2024 |
| Abstract : The growing use of lithium (Li) in industrial and energy applications and increasing demand worldwide has inevitably resulted in its wide dispersal, representing a significant threat to aquatic systems. Unfortunately, as a ubiquitous emerging contaminant, the comprehensive toxicological information regarding Li at multifarious levels is limited. To diminish this gap, this work was focused to explore Li-induced cascading effects on Daphnia magna as a key species in freshwater ecosystems. Specifically, the organisms were chronically exposed to gradient Li concentrations with emphasis on characterizing life-history traits from individual to population scale, primarily as observed by a markedly concentration-dependent decrease along exposure gradients. In parallel, a robust set of biomarkers relating to energy reserves, antioxidant and biotransformation enzymes, cellular damage, ionoregulation and neurotoxicity were assayed for further understanding potential underlying mechanisms. As a result, biomarker alterations were characterized by significant decreases in energy storage and enzymatic profiles of antioxidant and biotransformation systems, not only triggering an imbalance between reactive oxygen species (ROS) generation and elimination under Li exposure, but compromising the fecundity fitness of phenotypical costs. In contrast, malondialdehyde (MDA) levels were remarkably enhanced as a consequence of inefficient antioxidant and biotransformation capacity leading to lipid peroxidation (LPO). Additionally, Li exerted a dose-dependent biphasic effect on the activities of superoxide dismutase (SOD), Na(+),K(+)-ATPase and acetylcholinesterase (AChE) by interfering with inherent balance. In terms of responsive patterns and dose-effect trends, the integrated biomarker response indices (IBRv2) and star plots were consistent with the differences in biomarker profiles, not only presenting comprehensively biological effects in a visualized form, but signaling the importance of progressive induced changes in an integrative way. Overall, these findings highlighted the need for elucidating Li-produced impacts from a comprehensive perspective, providing valuable insights into better understanding the toxicity of Li in relation to aquatic ecosystem functioning and ecological relevance. |
| ESTHER : Chen_2024_Sci.Total.Environ__169866 |
| PubMedSearch : Chen_2024_Sci.Total.Environ__169866 |
| PubMedID: 38190914 |
Chen W, Zhang P, Ye L, Yao J, Wang Z, Liu J, Qin X (2024)
Concentration-dependent effects of lithium on Daphnia magna: Life-history profiles and integrated biomarker response implementation
Sci Total Environ
:169866
Chen W, Zhang P, Ye L, Yao J, Wang Z, Liu J, Qin X (2024)
Sci Total Environ
:169866