Arsenic Removal from Aqueous Solutions by Different Bacillus and Lysinibacillus Species

Removal of toxic and carcinogenic arsenic from underground water is very essential for the safety of water that may be used for drinking or irrigation. In this study, six different bacterial strains were recently isolated from a groundwater sample, routinely used for irrigation at Taif City, Kingdom of Saudi Arabia, containing arsenic, vanadium, and boron. The isolates were molecularly identified and the 16S rDNA sequencing data revealed their belonging to two different genera, Bacillus and Lysinibacillus. B. cereus strains EA4, EA5, and EA6 were able to resist arsenic up to 15 mg/L. B. cereus strain EA5 and a mixed culture of L. sphaericus EA1, B. fusiformis EA2, and Lysinibacillus sp. EA3 were found to be efficient in bioremediation of arsenic oxychloride up to 94.9% and 99.7%, respectively. Due to these near-standard records, these strains are strongly recommended for bioremediation of the highly toxic arsenic from the environment. B. cereus EA5 was also effective to remediate different concentrations of arsenic. High concentrations of arsenic showed dramatic decrease in the bioremediation activity of this strain. Reduction in cell size was distinct in scanning electron micrographs when cells were exposed to arsenic. Besides, protein electrophoresis showed that around 15 different stress proteins were produced when cells of B. cereus EA5 were exposed to arsenic oxychloride.