Phosphorus Degradation Capability of Aspergillus terreus on Nigeria’s Agbaja Iron Ore

Abstract

A microbial fungus - Aspergillus terreus was used to degrade phosphorus in Nigeria’s Agbaja iron ore in the laboratory. The ore was first crushed to very tiny particles, screened using Shital test kits and 1.00/0.50mm, 0.50/0.25mm and 0.25/0.125mm particle size fractions were selected for the experiment. The microbes, obtained from the nascent remains on the ore environment, were cultured, used to inoculate 1g of sterile ore samples in 250ml conical flasks containing 100ml of equally sterile malt extract broth media and left to stand. At weekly interval, the samples were removed, treated through series of chemical reactions and ammonium phospho-molybdate precipitate was obtained. This was back-titrated with 0.1 NHCl to determine the amount of phosphorus left in samples and consequently, the amount removed. Findings reveal that A. terreus is capable of degrading the ore samples. pH monitoring reveals that the P degradation process proceeded in a culture media of increasing acidity. It is recommended to further study the chemistry of the mixture of culture media, ore samples and microbes to find parameters that favour the degradation process. Key words: Ore, microbes, screening, broth, degradation, accumulation, inoculati

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C. Anyakwo and O. Obot, "Phosphorus Degradation Capability of Aspergillus terreus on Nigeria’s Agbaja Iron Ore," Journal of Minerals and Materials Characterization and Engineering, Vol. 10 No. 12, 2011, pp. 1189-1196. doi: 10.4236/jmmce.2011.1012091.

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1] Amadi, N. J., Odunaike, A. A and Marthur, G. P; Preliminary Bench Scale Beneficiation Studies with Three Lumps of Iron Ore Sample from Agbaja, Central Metallurgical Research and Development Institute, Jos, Nigeria, 1982.
[2] Uwadiale, G. G. O. O, 1991, ‘Electrolytic Coagulation and selective Flocculation of Agbaja Iron Ore’’, Journal of Mining and Geology, Vol.27, No.1, 1991.
[3] Uwadiale, G. G. O. O. and Nwoke, M. A. U.; Beneficiation of Agbaja Iron Ore by Reduction Roasting- Magnetic Separation: Semi Pilot Plant Scale-up and Establishment of Residence Point of Phosphorus, National Steel Council, Metallurgical Research and Tests Division, Jos, Nigeria, June 1983.
[4] Uwadiale, G. G. O. O and Whewell, R. J; Effect of Temperature on Magnetizing Reduction of Agbaja Iron Ore, Metallurgical Transaction B, Vol. 19B, October 1988, pp 731-735.
[5] Uwadiale, G. G. O. O ‘Beneficiation Studies of Agbaja Iron Ore’, Ph.D thesis, University of Strathclyde, June 1984, 341pp.
[6] Kudrin, V., Steel Making, MIR Publishers, Moscow, 1985, pp 82-83.
[7] Uwadiale, G. G O.O. and Nwoke, M. A. U. 1983. Gravity Concentration of Agbaja Oolitic Iron Ore using A Laboratory Size Wilfley Shaking Table. National Steel Council, Metallurgical Research and Tests Division, Jos, Nigeria
[8] Uwadiale, G. G. O. O. and Emeka, Okafor; Petrology of Agbaja Ironstone, National Steel Council, Metallurgical Research and Tests Division, Jos, Nigeria, October 1983.
[9] Delvasto, P. et al, (November 7-10, 2005). Exploring the possibilities of biological beneficiation of iron-ores: The phosphorus problem. In: Proceedings of the 15th Steelmaking Conference, 5th Ironmaking Conference & 1st Environment and Recycling Symposium IAS (CD-ROM). Argentinean Steelmaking Institute (IAS). San Nicolás, Buenos Aires, Argentina, pp 71-82.
[10] Delvasto, P., Ballester, A., Mu?oz, J.A., González, F., Blázquez, M. L., & García-Balboa, C. (Nov 20-24, 2005). Dephosphorisation of an Iron Ore by a Filamentous Fungus. Proceedings of Meeting of the Southern Hemisphere on Mineral Technology. Minas Gerais, Brasil.
[11] Pradhan, N. et al., 2006, ‘‘Beneficiation of Iron Ore Slime using Aspergillus niger and Bacillus circulans’’, Bioresource Technology 97: 15, P. 1876-1879
[12] Anyakwo, C. N., Obot, O. W., 2008, ‘‘Phosphorus Removal from Nigeria’s Agbaja Iron Ore by Aspergillus niger’’, International Research Journal in Engineering, Science & Technology, Vol. 5 No. 1, pp 54-58.
[13] Barnett, H. L., and Hunter, Barry B., 1987, “Illustrated Genera of Imperfect Fungi,’’ 4th Edition, Macmillan Publishing coy, New York, Collier Macmillan Publishers, London.
[14] Jain S. K., (1982). An Introduction to Metallurgical Analysis: Chemical and Instrumental, India, New Delhi, Vikas Publishing House.
[15] Mohapatra, P. K. (2008). Textbook Of Environmental Microbiology. I.K. International Publishing House Pvt Ltd, New Delhi.

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