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2015 | 17 | 3 | 29-32
Tytuł artykułu

Biological removal of nickel (II) byBacillussp. KL1 in different conditions: optimization by Taguchi statistical approach

Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Bioremediation is the removal of heavy-metals such as nickel (Ni) using microorganisms and has been considered as an important field in the biotechnology. Isolation and characterization of microorganisms exhibiting bioremediation activities and their optimization to treat polluted wastewaters is a vital and difficult task in remediation technologies. In this study, investigation was carried out to isolate Ni (II) remediating microbial strains from soils contaminated with municipal solid waste leachate. Furthermore, Taguchi design of experiments were used to evaluate the influence of concentration, pH, temperature, and time on bioremediation of Ni (II) using isolated bacteria. This study concluded that Bacillus sp. KL1 is a Ni (II)-resistant strain and had Ni (II) bioremediation activity. The highest bioremediation of Ni (II) was observed as 55.06% after 24 h at 30ºC, pH 7, and 100 ppm concentration. Moreover, it was also observed that concentration is the most effective factor in the bioremediation process. In conclusion, we have demonstrated that bacteria isolated from soils contaminated with garbage leachate have the Bacillus sp. KL1 bacteria which can efficiently uptake and eliminate Ni (II) from contaminated sites and thus makes it possible to treat heavy-metal containing wastewaters in industry by using this microorganism at optimized conditions.
Wydawca

Rocznik
Tom
17
Numer
3
Strony
29-32
Opis fizyczny
Daty
wydano
2015-09-01
online
2015-09-19
Twórcy
  • Razi University, Department of Biology, Faculty of Science, Kermanshah, Iran
  • Islamic Azad University, Department of Biotechnology and Chemical Engineering, Kermanshah Branch, Kermanshah, Iran
autor
  • Razi University, Department of Biology, Faculty of Science, Kermanshah, Iran
Bibliografia
  • 1. Desguin, B., Goffin, P., Viaene, E., Kleerebezem, M., Martin-Diaconescu, V., Maroney, M.J., Declercq, J. P., Soumillion, P. & Hols, P. (2014). Lactate racemase is a nickel-dependent enzyme activated by a widespread maturation system. Nat. Commun. 5, 3615. DOI: 10.1038/ncomms4615.[Crossref][WoS]
  • 2. Polacco, J.C., Mazzafera, P. & Tezotto, T. (2013). Opinion: nickel and urease in plants: still many knowledge gaps. Plant Sci. 199–200, 79–90. DOI: 10.1016/j.plantsci.2012.10.010.[WoS][Crossref]
  • 3. Ding, J., He, G., Gong, W., Wen, W., Sun, W., Ning, B., Huang, S., Wu, K., Huang, C., Wu, M., Xie, W. & Wang, H. (2009). Effects of nickel on cyclin expression, cell cycle progression and cell proliferation in human pulmonary cells. Canc. Epidem. Biomark. Prev. 18, 1720–9. DOI: 10.1158/1055-9965.EPI-09-0115.[WoS][Crossref]
  • 4. Ahemad, M. (2012). Implications of bacterial of resistance against heavy metals in bioremediation: a review. IIOABJ. 3, 39–46.
  • 5. Magaye, R., Zhou, Q., Bowman, L., Zou, B., Mao, G., Xu, J., Castranova, V., Zhao, J. & Ding, M. (2014). Metallic Nickel Nanoparticles May Exhibit Higher Carcinogenic Potential than Fine Particles in JB6 Cells. PloS One. 9, e92418. DOI: 10.1371/journal.pone.0092418.[Crossref]
  • 6. Eccles, H. (1999). Treatment of metal-contaminated wastes: why select a biological process? Trends Biotechnol. 17, 462–5. DOI: .[Crossref]
  • 7. Hunsom, M., Pruksathorn, K., Damronglerd, S., Vergnes, H. & Duverneuil, P. (2005). Electrochemical treatment of heavy metals (Cu2+, Cr6+, Ni2+) from industrial effluent and modeling of copper reduction. Water Res. 39, 610–6. DOI: .[Crossref]
  • 8. Barakat, M.A. (2011). New trends in removing heavy metals from industrial wastewater. Arab. J. Chem. 4, 361–377. DOI: .[Crossref]
  • 9. Bhatnagar, S. & Kumari, R. (2013). Bioremediation: a sustainable tool for environmental management – a review. Ann. Rev. Res. Biol. 3, 974–993.
  • 10. Bestawy, E.E., Helmy, S., Hussien, H., Fahmy, M. & Amer, R. (2013). Bioremediation of heavy metal-contaminated effluent using optimized activated sludge bacteria. Appl. Water Sci. 3, 181–192. DOI: 10.1007/s13201-012-0071-0.[Crossref]
  • 11. Guo, H., Luo, S., Chen, L., Xiao, X., Xi, Q., Wei, W., Zeng, G., Liu, C., Wana, Y., Chen, J. & He, Y. (2010). Bioremediation of heavy metals by growing hyperaccumulaor endophytic bacterium Bacillus sp. L14. Bioresour. Technol. 10, 8599–8605. DOI: 10.1016/j.biortech.2010.06.085.[Crossref][WoS]
  • 12. Taran, M., Safari, M., Monaza, A., Reza, J.Z. & Bakhtiyari, S. (2013). Optimal conditions for the biological removal of arsenic by a novel halophilic archaea in different conditions and its process optimization. Pol. J. Chem. Technol. 15, 7–9. DOI: 10.2478/pjct-2013-0017.[WoS][Crossref]
  • 13. Sari, A., Mendil, D., Tuzen, M. & Soylak, M. (2008). Biosorption of Cd(II) and Cr(III) from aqueous solution by moss (Hylocomium splendens) biomass: Equilibrium, kinetic and thermodynamic studies. Chem. Engin. J. 144, 1–9. DOI: 10.1016/j.jhazmat.2008.05.112.[Crossref]
  • 14. Congeevaram, S., Dhanarani, S., Park, J., Dexilin, M. & Thamaraiselvi, K. (2007). Biosorption of chromium and nickel by heavy metal resistant fungal and bacterial isolates. J. Haz. Mat. 146, 270–7. DOI: .[Crossref]
  • 15. Yilmaz, E.I. & Ensari, N.Y. (2005). Cadmium biosorption by Bacillus circulans strain EB1. World J. Microb. Biotech. 21, 777–779. DOI: 10.1007/s11274-004-7258-y.[Crossref]
  • 16. Ozturk, A. (2007). Removal of nickel from aqueous solution by the bacterium Bacillus thuringiensis. J. Haz. Mater. 147, 518–23. DOI: .[Crossref][WoS]
  • 17. Tunali, S., Cabukb, A. & Akar, T. (2006). Removal of lead and copper ions from aqueous solutions by bacterial strain isolated from soil. Chem. Engin. J. 115, 203–211. DOI: .[Crossref]
  • 18. Kumar, R., Verma, D., Singh, B.L., Kumar, U. & Shweta (2010). Composting of sugar-cane waste by-products through treatment with microorganisms and subsequent vermicomposting, Bioresour. Technol. 101, 6707–11. DOI: 10.1016/j.biortech.2010.03.111.[WoS][Crossref]
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.-psjd-doi-10_1515_pjct-2015-0046
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