Chromate reduction in Serratia marcescens isolated from tannery effluent and potential application for bioremediation of chromate pollution.

Mondaca M.A.; Campos V.; Moraga, R; Zaror C.A.

Keywords: oxidation, chemistry, acid, electron, pollution, water, development, reduction, metal, aging, cell, ultrastructure, biofilm, metabolism, microscopy, time, carbon, bioremediation, article, fresh, microbiology, environmental, biofilms, heavy, serratia, factors, Reaction, Cells,, and, Microscopy,, Oxidation-Reduction, growth,, Biodegradation,, Metals,, Chromates, chromic, marcescens, immobilized

Abstract

Pollution of aquatic systems by heavy metals has resulted in increasing environmental concern because they cannot be biodegraded. One metal that gives reason for concern due to its toxicity is chromium. Cr(VI) and Cr(III) are the principal forms of chromium found in natural waters. A chromate-resistant strain of the bacterium S. marcescens was isolated from tannery effluent. The strain was able to reduce Cr(VI) to Cr(III), and about 80% of chromate was removed from the medium. The reduction seems to occur on the cell surface. Transmission electron microscopic examination of cells revealed that particles were deposited on the outside of bacterial cells. A stable biofilm was formed in less than 10 h, reaching around 1010 cfu attached per milligram of activated carbon. These findings demonstrate that immobilized S. marcescens might be used in industrial waste treatment processes.

Más información

Título de la Revista: The Scientific World Journal
Volumen: 2
Editorial: Hindawi
Fecha de publicación: 2002
Página de inicio: 972
Página final: 977
URL: http://www.scopus.com/inward/record.url?eid=2-s2.0-1542439680&partnerID=q2rCbXpz