Combined effect of temperature and a reference toxicant (KCl) on Daphnia middendorffiana (Crustacea, Daphniidae) in a high-mountain lake

Climate change has direct effects on aquatic systems where increased water temperature leads to range shifts and changes in the distribution of aquatic organisms. The effects of climate change on aquatic ecosystems are ex-pected in all biomes, and in Alpine environments in particular. Anthropogenic pressure (e.g., chemical pollution) besides climate change impact on the state and quality of aquatic systems in which climate change and envi-ronmental contaminants can interact. To better understand the effect of increases in temperature and environ-mental pollution on high-mountain lakes, we performed an ecotoxicological assay on Daphnia middendorffiana collected during summer 2021 in a high-mountain lake (Upper Balma Lake, Cottian Alps, 2212 m a.s.L.). Samples were exposed to two temperature values (15 degrees C and 20 degrees C), potassium chloride (KCl) as the reference toxicant, and D. magna as the model organism for comparison. Findings showed immobilization after exposure to KCl in both species, but exposure to non-optimal water temperature (20 degrees C and 15 degrees C for D. middendorffiana and D. magna, respectively) enhanced this effect. The mean half-maximal effective concentration (EC50; 24 h) for D. middendorffiana was significantly lower than that recorded for D. magna exposed to 20 degrees C (KCl) (46.9 mg/L vs 255 mg/L). A significantly higher EC50 (273.4 mg/L; 24 h) was recorded for D. middendorffiana exposed to 15 degrees C (KCl) compared to D. magna (EC50 50.6 mg/L; 24 h). Our findings suggest that the combined effects of tem-perature and chemical pollution may severely affect the occurrence of D. middendorffiana, which occupies a central position in the food webs of high-mountain lakes in the Alps.

Automated summary

Climate change has direct effects on aquatic systems, particularly in alpine environments. In addition to climate change, anthropogenic pressure and environmental contaminants also interact and impact the state and quality of aquatic systems. This study found that increases in temperature and chemical pollution severely affect the occurrence of Daphnia middendorffiana in high-mountain lakes.