A systematic evaluation of alkaliphilic microbial consortia from a soda lake for the biodegradation of cyanide-rich wastewater

Abstract

Alkaliphilic microorganisms are one option for the treatment of cyanide-polluted wastewater. This study reports the degradation of cyanide from simulated gold mine wastewater using alkaliphilic microbial consortia harvested from a soda lake, Lake Chitu, Ethiopia. A novel aerobic-anoxic integrated treatment setup was established for the treatment process. Colorimetry was used to measure residual cyanide concentration, and 16S rRNA amplicon gene sequencing was used to study microbial diversity. This treatment system was able to degrade 97.49 ± 0.12% of 200 mg/L sodium cyanide. However, changes were observed (p < 0.05) when the established consortia were stressed with heavy metals. About 28 % of the initial inoculum persisted until the end of the treatment days. Twenty-eight bacterial phyla were identified, with Firmicutes, Proteobacteria, and Bacteroidota being the most abundant. At the end of the treatment process, Alkalibacterium (74.43%), Exaguobacterium (6.6%), and Halomonas (3.89%) were dominant. These findings indicate that alkaliphilic microbial consortiums from Ethiopian Rift Valley soda lakes are effective for the treatment of cyanide-polluted wastewater.