Reducing Cr6+ in electroplating wastewater with Bacillus cereus strain B1

In this study Bacillus cereus was used to evaluate the Cr6+reducing capacity in electroplating effluents. The Cr6+bioreduction assays were carried out using real wastewater (RWW) from an electroplating plant and artificial wastewater (AWW), with and without added glucose. The AWW was prepared us...

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Autor principal: Jennifer Andrea Moreno-Benavides, Enrique Javier Peña-Salamanca, Neyla Benítez-Campo
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Publicado: Pontificia Universidad Javeriana 2019
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spelling oai:doaj.org-article:32bc7ade996f486693ad0b449ce904472021-11-16T14:40:46ZReducing Cr6+ in electroplating wastewater with Bacillus cereus strain B110.11144/Javeriana.SC24-1.rcie0122-74832027-1352https://doaj.org/article/32bc7ade996f486693ad0b449ce904472019-03-01T00:00:00Zhttps://revistas.javeriana.edu.co/index.php/scientarium/article/view/23516https://doaj.org/toc/0122-7483https://doaj.org/toc/2027-1352In this study Bacillus cereus was used to evaluate the Cr6+reducing capacity in electroplating effluents. The Cr6+bioreduction assays were carried out using real wastewater (RWW) from an electroplating plant and artificial wastewater (AWW), with and without added glucose. The AWW was prepared using Ni, Zn, Cu, Pb, and Cr salts, simulating RWW concentrations. The Cr6+concentration and bacterial growth were monitored three times a day for the duration of five days. Also, were evaluated the effects of wastewater on B. cereus B1 morphology using scanning electron microscopy. Cr6+reduction percentage of 100 % was reached for AWW containing glucose, of 71 % for AWW without glucose, of 75.6 % for RWW with glucose, and of 31.7 % for RWW without glucose. Despite the low reduction percentage obtained for RWW without glucose, concentrations of ± 0.14 mg/L of Cr6+were reached, which were within allowed limits (0.5 mg/L of Cr6+). Electron Microscopy showed alterations in the bacterial cell wall and a decrease in size, mainly in the bacteria exposed to RWW. The results allow us to propose B. cereus B1 as a promising microorganism for use in the bioremediation of effluents containing Cr6+.Jennifer Andrea Moreno-Benavides, Enrique Javier Peña-Salamanca, Neyla Benítez-CampoPontificia Universidad Javerianaarticlebioremediation; industrial effluents; glucose; heavy metals; metal plating.Science (General)Q1-390ENESUniversitas Scientiarum, Vol 24, Iss 1, Pp 73-89 (2019)
institution DOAJ
collection DOAJ
language EN
ES
topic bioremediation; industrial effluents; glucose; heavy metals; metal plating.
Science (General)
Q1-390
spellingShingle bioremediation; industrial effluents; glucose; heavy metals; metal plating.
Science (General)
Q1-390
Jennifer Andrea Moreno-Benavides, Enrique Javier Peña-Salamanca, Neyla Benítez-Campo
Reducing Cr6+ in electroplating wastewater with Bacillus cereus strain B1
description In this study Bacillus cereus was used to evaluate the Cr6+reducing capacity in electroplating effluents. The Cr6+bioreduction assays were carried out using real wastewater (RWW) from an electroplating plant and artificial wastewater (AWW), with and without added glucose. The AWW was prepared using Ni, Zn, Cu, Pb, and Cr salts, simulating RWW concentrations. The Cr6+concentration and bacterial growth were monitored three times a day for the duration of five days. Also, were evaluated the effects of wastewater on B. cereus B1 morphology using scanning electron microscopy. Cr6+reduction percentage of 100 % was reached for AWW containing glucose, of 71 % for AWW without glucose, of 75.6 % for RWW with glucose, and of 31.7 % for RWW without glucose. Despite the low reduction percentage obtained for RWW without glucose, concentrations of ± 0.14 mg/L of Cr6+were reached, which were within allowed limits (0.5 mg/L of Cr6+). Electron Microscopy showed alterations in the bacterial cell wall and a decrease in size, mainly in the bacteria exposed to RWW. The results allow us to propose B. cereus B1 as a promising microorganism for use in the bioremediation of effluents containing Cr6+.
format article
author Jennifer Andrea Moreno-Benavides, Enrique Javier Peña-Salamanca, Neyla Benítez-Campo
author_facet Jennifer Andrea Moreno-Benavides, Enrique Javier Peña-Salamanca, Neyla Benítez-Campo
author_sort Jennifer Andrea Moreno-Benavides, Enrique Javier Peña-Salamanca, Neyla Benítez-Campo
title Reducing Cr6+ in electroplating wastewater with Bacillus cereus strain B1
title_short Reducing Cr6+ in electroplating wastewater with Bacillus cereus strain B1
title_full Reducing Cr6+ in electroplating wastewater with Bacillus cereus strain B1
title_fullStr Reducing Cr6+ in electroplating wastewater with Bacillus cereus strain B1
title_full_unstemmed Reducing Cr6+ in electroplating wastewater with Bacillus cereus strain B1
title_sort reducing cr6+ in electroplating wastewater with bacillus cereus strain b1
publisher Pontificia Universidad Javeriana
publishDate 2019
url https://doaj.org/article/32bc7ade996f486693ad0b449ce90447
work_keys_str_mv AT jenniferandreamorenobenavidesenriquejavierpenasalamancaneylabenitezcampo reducingcr6inelectroplatingwastewaterwithbacilluscereusstrainb1
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