ABSTRACT
With aging population increasing globally, the use of pharmaceutically active compounds is rising. The cardiovascular drug telmisartan has been widely detected in various environmental compartments, including biota, surface waters, and sewage treatment plant effluents at concentrations ranging from ng/L to µg/L levels. This study evaluated the effects of telmisartan on the microcrustacean Daphnia magna at a wide range of concentrations (0.35, 0.70, 1.40, 500, and 1000 µg/L) and revealed significant ecotoxicological implications of this drug, even at environmentally relevant concentration. Acute exposure to telmisartan (1.40, 500, and 1000 µg/L) resulted in a notable decrease in heart rate, while chronic exposure accelerated the time to the first brood by 3 days and reduced neonate body size. Molecular investigations revealed marked downregulation of vitellogenin genes (Vtg1 and Vtg2). Non-monotonic dose responses were observed for gene expression, early-stage body length, and the total number of offspring produced, while the heart rate and time to the first brood showed clear concentration-dependent responses. These findings highlight the potential risks, notably to reproductive capacity, associated with exposure to telmisartan in environmentally relevant concentration, suggesting the need for further studies on the potential long-term ecological consequences.
ABSTRACT
Cresols are frequently detected in freshwater systems due to their wide use as disinfectants. However, there is limited knowledge regarding their adverse long-term toxicity effects on reproduction and gene expression patterns of aquatic species. Therefore, this study aimed to investigate the chronic toxic effects on reproduction and gene expression using D. magna. In addition, the bioconcentration behaviour of cresol isomers was also investigated. Based on the 48 h EC50 value, p-cresol's toxicity unit (TU) (13.77 TU, very toxic) was higher than o-cresol (8.05 TU, toxic) and m-cresol (5.52 TU, toxic). Regarding population-level effects, cresols resulted in a decrease in offspring and a delay in reproduction. However, cresols did not significantly affect daphnia's body weight throughout the course of the exposure period of 21 day, while third brood neonates' average body length (m-cresol and p-cresol) was significantly affected in sub-lethal concentrations. In addition, the gene transcription did not vary significantly across treatments. For bioconcentration exposure experiments, D. magna quickly eliminated all cresols from their body, suggesting that cresol isomers are unlikely to bioaccumulate in aquatic species.
