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ISSN: 2155-6199

Journal of Bioremediation & Biodegradation
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Biosorption of Hexavalent Chromium By Paenibacillus Pabuli and Bacillus Cereus Isolated from Alkaline Industrial Contaminated Soil

Anandbabu R, Vignesh T and Subashchandra Bose G
Department of Community Medicine, Aarupadai Veedu Medical College & Hospital, Kirumampakkam, Pondicherry, India
*Corresponding Author:

Received Date: Jan 30, 2020 / Accepted Date: Feb 18, 2020 / Published Date: Feb 25, 2020

Citation: Anandbabu R, Vignesh T, Subashchandrabose G (2020) Biosorption of hexavalent chromium by paenibacillus pabuli and bacillus cereus isolated from alkaline industrial contaminated soil. J Bioremediat Biodegrad 11: 476.DOI: 10.4172/2155-6199.1000476

Copyright: © 2020 Anandbabu R, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

 

Abstract

In the present study we intended to remediate Cr(VI) with alkaliphilic bacterium Paenibacillus pabuli (JX561107) and Bacillus cereus (JX561108) isolated from alkaline industrial contaminated soil, Pondicherry. The bacterium was tested for its chromium removal efficiency at different concentration (50 mg/l, 200 mg/l, 400 mg/l). At 50 mg/l of hexavalent chromium concentration, Paenibacillus pabuli and Bacillus cereus are found to be highly efficient in removing Cr(VI) in 72 hrs at the inoculum rate of 1% of overnight grown bacterial cultures. The bacterium could remove 98% and 74% within 72 hrs at 9.5 pH. Whereas when the Cr(VI) concentration is increased to 400 mg/l, there was no removal. SEM images were done from the pellets of treated bacterium to examine the bacterial cell surface for morphological changes and EDX was also obtained to verify whether the adhered particles are chromium. The Cr(VI) removal efficiency of isolated bacterium from alkaline industrial contaminated soil are compared with efficiency of other bacterial species tested previously. The mechanism behind such adhesion and variation among bacterial population in chromium removal are discussed.

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