Determining the Effects of Major Cations (K+, Na+, Ca2+, Mg2+) and pH on Scirpus mariqueter to Assess the Heavy Metal Biotoxicity of a Tidal Flat Ecosystem

摘要

The biotic ligand model (BLM) as a mechanistic bioavailability model has been used to assess the risk of metals on various ecosystems. In this study, the effects of major cations (K+, Na+, Ca2+, Mg2+) and pH on root elongation of the salt marsh plant Scirpus mariqueter were investigated by laboratory experiments, and then a tidal flat sediment-BLM was developed successfully to assess heavy metal biotoxicity on a tidal flat ecosystem for the first time. The results showed that the increase of Na+ activities could decrease Cu2+ toxicity to S. mariqueter. A nonlinear relationship was observed between the median effective concentration (EC50) and H+ activity over the pH range (5.55-8.22). The results indicated that H+ did not compete with Cu2+ for the binding sites within the roots of S. mariqueter under pH < 7.0 (5.55-6.62), while Cu2+ and CuCO3(aq), as toxic species, competed for binding sites of the biotic ligands (BL) with Na+ under pH. 7.0 (7.03-8.22). The following conditional binding constants for the binding of Cu2+, CuCO3(aq), and Na+ to biotic ligands were obtained: log K-CuBL = 6.60, log(KCuCO3BL) = 6.20 and log K-NaBL = 1.778. The developed Cu-BLM for S. mariqueter in this study was validated so that it could provide accurate predictions of Cu toxicity. This developed model could provide a scientific and reasonable basis for an environmental quality standard to assess risk in an estuarine tidal flat wetland.