Prospective role of indigenous Exiguobacterium profundum PT2 in arsenic biotransformation and biosorption by planktonic cultures and biofilms

Aims The aim of the present study was to analyze As transformation and biosorption by indigenous As resistant bacteria both in planktonic and biofilm modes of growth. Methods and Results As resistant bacteria were isolated from industrial waste water and strain PT2, identified as Exiguobacterium profundum through 16S rRNA gene sequencing was selected for further study. As transformation and biosorption by E. profundum PT2 was determined by HPLC-ICP-MS analysis. Planktonic cultures reduced 3.73 mM As5+ into As3+ from artificial waste water effluent after 48 h incubation. In case of biosorption, planktonic cultures and biofilms exhibited 25.2 and 29.4 mg g−1 biomass biosorption, respectively. As biosorption kinetics followed Freundlich isotherm and pseudo second order model. Biofilm formation peaked after 3 days incubation and in the presence of As stress, biofilm formation was significantly affected in contrast to control (P<0.05). Homogeneous nature of mature biofilms with an increased demand of nutrients were revealed by minimum roughness and maximum surface to biovolume ratio measured through CLSM analysis. Conclusion Indigenous As resistant E. profundum PT2 was found capable of As transformation and biosorption both in the form of planktonic cultures and biofilms. Significance and Impact of Study Indigenous biofilm forming E. profundum PT2 revealing As biosorption and biotransformation potential is presenting an eco-friendly and cost effective source for As remediation that can be implemented for waste water treatment. This article is protected by copyright. All rights reserved.