Introduction
The increasing global use and environmental persistence of pharmaceuticals have raised concerns about their ecotoxicological effects. Albendazole (ABZ), metronidazole (MTZ), and ibuprofen (IBU) are among the most frequently detected compounds in soil and aquatic environments, yet their impacts on non-target organisms, particularly in mixtures, remain poorly understood. This study assessed the ecotoxicological effects of ABZ, MTZ, and IBU, alone and in binary mixtures, on Chlorella vulgaris, Lactuca sativa, and Triticum aestivum, representing ecologically and agriculturally relevant species.
Methods
Ecotoxicity assays were performed using single compounds and binary mixtures. Chlorella was exposed to ABZ (1–500 µg/L), MTZ and IBU (0.5–100 mg/L), and ABZ+IBU and MTZ+IBU mixtures, tested at 25:75, 50:50, and 75:25 ratios. Lactuca and Triticum were exposed to single compounds (5–160 mg/L) and mixtures (160 + 160 mg/L). Algal assays followed OECD guideline 201, with growth rate and EC₅₀ values at 120 h, while plant assays followed OECD208, assessing germination and root and epicotyl growth.
Results
In single-compound tests, C. vulgaris was the most sensitive species (EC₅₀ values of 17.7 µg/L for ABZ, 6.3 mg/L for MTZ, and 78.5 mg/L for IBU). MTZ showed the highest toxicity, inhibiting growth in all organisms. In contrast, ABZ and especially IBU induced hormetic responses, stimulating plant growth at low concentrations and inhibiting it at higher levels. Binary mixtures exhibited complex, non-additive interactions, including reduced toxicity in the ABZ+IBU combination. L. sativa showed both inhibitory and stimulatory responses depending on mixture composition, while T. aestivum was more sensitive to mixtures, particularly at equal proportions.
Conclusions
These findings demonstrate that ABZ, MTZ, and IBU can significantly affect aquatic and terrestrial organisms and that mixture effects are not predictable from single-compound data, highlighting the importance of considering chemical interactions in environmental risk assessment.
