Carbon dioxide capture, storage and production of biofuel and biomaterials by bacteria: A review

Abstract

Due to industrialization and urbanization, as humans continue to rely on fossil fuels, carbon dioxide (CO₂) will inevitably be generated and result in an increase of Global Warming Gases (GWGs). However, their prospect is misted up because of the environmental and economic intimidation posed by probable climate shift, generally called it as the "green house effect". Among all GWGs, the major contributor in greenhouse effect is CO₂. Mitigation strategies that include capture and storage of CO₂ by biological means may reduce the impact of CO₂ emissions on environment. The biological CO₂ sequestration has significant advantage, since increasing atmospheric CO₂ level supports productivity and overall storage capacity of the natural system. This paper reviews CO₂ sequestration mechanism in bacteria and their pathways for production of value added products such as, biodiesel, bioplastics, extracellular polymeric substance (EPS), biosurfactants and other related biomaterials.

Keywords: Bacteria; Biodiesel; Biomaterial; Carbon dioxide sequestration; Microorganisms.