Abstract

Introduction: Toxic metal ion contamination is one of the most important environmental issues in the world. Wastewater of mines and certain industries are known sources of environmental heavy metal contaminations. Copper (Cu) contamination is a common issue. Using biological tools particularly bacterial-derived compounds could be appropriate for bioremediation. Materials and Methods: In this study, the Cu2+ uptake from Chah Musa mine wastewater by three different Bacillu species was assessed using the batch equilibrium isotherm. The impact of pH, exposure time, temperature, and the bioabsorbent dose on the adsorption of Cu2+ ions was assessed. Also, the kinetics and isotherm models of Cu2+ ions adsorption were studied for three different Bacillus species. Results: The results showed that the maximum removal Cu2+ ions (99) was obtained for Bacillus thuringiensis biomass. The correlation coefficient value (R2) of Freundlich isotherm was higher than Langmuir isotherm indicating better metal uptake based on Freundlich model. he rates of adsorption for all bioadsorbant were attained to be conforming to the pseudo-second-order. Conclusions: According to the current study all three dead Gram-positive Bacillu spp. are favorable and effective candidates for the removal of Cu2+ from aqueous solution and industrial wastewaters. © 2021 The Author(s).