Title of article
Biodegradation of cyanide by a new isolated strain under alkaline conditions and optimization by response surface methodology (RSM)
Author/Authors
Mirizadeh، Shabnam نويسنده Department of Chemical and Petroleum Engineering, Biotechnology Research Center, Sharif University of Technology, Tehran, Iran , , Yaghmaei، Soheila نويسنده , , Ghobadi Nejad، Zahra نويسنده Department of Chemical and Petroleum Engineering, Biotechnology Research Center, Sharif University of Technology, Tehran, Iran ,
Issue Information
ماهنامه با شماره پیاپی 0 سال 2014
Pages
9
From page
1
To page
9
Abstract
Background: Biodegradation of free cyanide from industrial wastewaters has been proven as a viable and robust
method for treatment of wastewaters containing cyanide.
Results: Cyanide degrading bacteria were isolated from a wastewater treatment plant for coke-oven-gas condensate
by enrichment culture technique. Five strains were able to use cyanide as the sole nitrogen source under alkaline
conditions and among them; one strain (C2) was selected for further studies on the basis of the higher efficiency
of cyanide degradation. The bacterium was able to tolerate free cyanide at concentrations of up to 500 ppm which
makes it a good potentially candidate for the biological treatment of cyanide contaminated residues. Cyanide
degradation corresponded with growth and reached a maximum level 96% during the exponential phase. The
highest growth rate (1.23 × 108) was obtained on day 4 of the incubation time. Both glucose and fructose were
suitable carbon sources for cyanotrophic growth. No growth was detected in media with cyanide as the sole carbon
source. Four control factors including, pH, temperature, agitation speed and glucose concentration were optimized
according to central composite design in response surface method. Cyanide degradation was optimum at 34.2°C,
pH 10.3 and glucose concentration 0.44 (g/l).
Conclusions: Bacterial species degrade cyanide into less toxic products as they are able to use the cyanide as a
nitrogen source, forming ammonia and carbon dioxide as end products. Alkaliphilic bacterial strains screened in this
study evidentially showed the potential to possess degradative activities that can be harnessed to remediate cyanide
wastes.
Journal title
Iranian Journal of Environmental Health Science and Engineering (IJEHSE)
Serial Year
2014
Journal title
Iranian Journal of Environmental Health Science and Engineering (IJEHSE)
Record number
2065045
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