There is a growing global recognition of the devastating effects of pollution, which remains one of the most pressing environmental challenges of our time. Among its many sources, tobacco pollution represents an overlooked contributor with serious ecological consequences. While the health impacts of smoking are widely acknowledged, the environmental burden of tobacco production, consumption, and waste is equally alarming. Discarded cigarette butts, which constitute one of the most common forms of litter worldwide, can persist in the environment for up to fifteen years. During this time, they release a complex mixture of toxic chemicals including nicotine, heavy metals, and polycyclic aromatic hydrocarbons into surrounding soils and water bodies. This leaching process contaminates aquatic ecosystems, threatens wildlife, and contributes to the broader issue of chemical pollution. Addressing tobacco pollution, therefore, requires not only public health interventions but also improved waste management and policy measures to mitigate its long-term environmental impact.

Current pollution assessments primarily focus on the detection of chemicals in the environment to estimate water quality; however, these methods are often descriptive and insufficient for understanding ecological impacts. This limitation underscores the need for effect-based methods as more sensitive tools for risk assessment. Daphnids are key species in molecular ecotoxicology and serve as effective indicators of environmental health.

In this study, we employed a combination of phenotypic and holistic approaches to investigate the impact of extracts from tobacco on these aquatic organisms. Integrating assessments of toxicity, growth, survival, feeding behaviour, and key enzymatic activities revealed distinct molecular and physiological responses, which serve as “molecular fingerprints” of exposure to tobacco-derived contaminants. This comprehensive approach highlights the potential of the water flea as a sensitive model organism to assess ecological risks from tobacco pollutants, acting as an equivalent to a “canary in the coal mine” for freshwater ecosystems.