Journal ArticleDOI
Bioremediation of toxic chromium from electroplating effluent by chromate-reducing Pseudomonas aeruginosa A2Chr in two bioreactors.
TLDR
The chromate-reducing ability of Pseudomonas aeruginosa A2Chr was compared in batch culture, with cells entrapped in a dialysis sac, and with cells immobilized in an agarose-alginate film in conjunction with a rotating biological contactor to achieve maximum Cr(VI) reduction.Abstract:
The chromate-reducing ability of Pseudomonas aeruginosa A2Chr was compared in batch culture, with cells entrapped in a dialysis sac, and with cells immobilized in an agarose-alginate film in conjunction with a rotating biological contactor. In all three systems, the maximum Cr(VI) reduction occurred at 10 mg Cr(VI)/l. Whereas at 50 mg Cr(VI)/l concentration, only 16% of the total Cr(VI) was reduced, five spikings with 10 mg chromate/l at 2-h intervals led to 96% reduction of the total input of 50 mg Cr(VI)/l. Thus maximum Cr(VI) reduction was achieved by avoiding Cr(VI) toxicity to the cells by respiking with lower Cr(VI) concentrations. At 10 mg Cr(VI)/l, the pattern of chromate reduction in dialysis-entrapped cells was almost similar to that of batch culture and 86% of the bacterially reduced chromium was retained inside the dialysis sac. In electroplating effluent containing 100 mg Cr(VI)/l, however, the amount of Cr(VI) reduced by the cells immobilized in agarose-alginate biofilm was twice and thrice the amount reduced by batch culture and cells entrapped in a dialysis sac, respectively.read more
Citations
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Journal ArticleDOI
Chemical and microbial remediation of hexavalent chromium from contaminated soil and mining/metallurgical solid waste: a review.
TL;DR: The chemical/biological remediation processes for Cr(VI) and their efficiency have been summarised in some detail and the interaction of chromium with various microbial/bacterial strains isolated and their reduction capacity towards Cr( VI) are also discussed.
Journal ArticleDOI
Mechanism of hexavalent chromium detoxification by microorganisms and bioremediation application potential: A review
K.H. Cheung,Ji-Dong Gu +1 more
TL;DR: With the advancement in technology for enzyme immobilization, it is speculated that the direct application of Cr6+ reductases may be a promising approach for bioremediation ofCr6+ in a wide range of environments.
Journal ArticleDOI
New Approaches for Bioaugmentation as a Remediation Technology
TL;DR: Several new approaches that may increase the persistence and activity of exogenous microorganisms and/or genes following introduction into the environment are detailed.
Journal ArticleDOI
Metal immobilisation by biofilms: Mechanisms and analytical tools
TL;DR: In this paper, a review shows the advantage of using a combination of different techniques to evaluate the fate of metals within microbial biofilms, i.e., mass transfer of metals, mechanisms involved in bio-sorption and precipitation, and the influence of physicochemical micro-environments within the biofilm matrix.
Journal ArticleDOI
Chromate Reduction by Chromium-Resistant Bacteria Isolated from Soils Contaminated with Dichromate
Flávio Anastácio de Oliveira Camargo,Fatima Menezes Bento,Benedict C. Okeke,William T. Frankenberger +3 more
TL;DR: The effects of some environmental factors such as pH, temperature, and time on Cr(VI) reduction and resistance are described and it is found that chromium-resistant bacteria can tolerate 2500 mg L(-1)Cr(VI), but most of the isolates tolerated and reduced Cr( VI) at concentrations lower than 1500 mg L (-1).
References
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Book ChapterDOI
Environmental biochemistry of chromium.
TL;DR: Starting with hexavalent Cr that is released into the environment as industrial waste, there are a number of possible fates, including pollution of soil and surface water and leaching into groundwater, where it may remain stable and, in turn, be taken up by plants or animals, and adsorption/precipitation, involving soil colloids and/or organic matter.
Journal ArticleDOI
Hexavalent chromium reduction by a dichromate-resistant gram-positive bacterium isolated from effluents of tanneries.
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Journal ArticleDOI
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Journal ArticleDOI
Transport limitation of chlorine disinfection of Pseudomonas aeruginosa entrapped in alginate beads.
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