Isolation and identification of iron ore-solubilising fungus
Potential mineral-solubilising fungi were successfully isolated from the surfaces of iron ore minerals. Four isolates were obtained and identified by molecular and phylogenetic methods as close relatives of three different genera, namely Penicillium (for isolate FO), Alternaria (for isolates SFC2...
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doaj-4e56590366a94e1ba0f99a6a5775eb3e2021-04-04T20:05:44ZengAcademy of Science of South AfricaSouth African Journal of Science1996-74892010-09-011069/10Isolation and identification of iron ore-solubilising fungusRasheed Adeleke0Eugene Cloete1Damase Khasa2University of PretoriaStellenbosch UniversityUniversite LavalPotential mineral-solubilising fungi were successfully isolated from the surfaces of iron ore minerals. Four isolates were obtained and identified by molecular and phylogenetic methods as close relatives of three different genera, namely Penicillium (for isolate FO), Alternaria (for isolates SFC2 and KFC1) and Epicoccum (for isolate SFC2B). The use of tricalcium phosphate (Ca3(PO4)2)in phosphate-solubilising experiments confirmed isolate FO as the only phosphate solubiliser among the isolated fungi. The bioleaching capabilities of both the fungus and its spent liquid medium were tested and compared using two types of iron ore materials, conglomerate and shale, from the Sishen Iron Ore Mine as sources of potassium (K) and phosphorus (P). The spent liquid medium removed more K (a maximum of 32.94% removal, from conglomerate), than the fungus (a maximum of 21.36% removal, from shale). However, the fungus removed more P (a maximum of 58.33% removal, from conglomerate) than the spent liquid medium (a maximum of 29.25% removal, from conglomerate). The results also indicated a potential relationship between the removal of K or P and the production of organic acids by the fungus. A high production of gluconic acid could be related to the ability of the fungus to reduce K and P. Acetic, citric and maleic acids were also produced by the fungus, but in lower quantities. In addition, particle size and iron ore type were also shown to have significant effects on the removal of potassium and phosphorus from the iron ore minerals. We therefore conclude that the spent liquid medium from the fungal isolate FO can potentially be used for biobeneficiation of iron ore minerals.http://192.168.0.118/index.php/sajs/article/view/9923biohydrometallurgyfungiiron oreorganic acidsparticle size |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Rasheed Adeleke Eugene Cloete Damase Khasa |
spellingShingle |
Rasheed Adeleke Eugene Cloete Damase Khasa Isolation and identification of iron ore-solubilising fungus South African Journal of Science biohydrometallurgy fungi iron ore organic acids particle size |
author_facet |
Rasheed Adeleke Eugene Cloete Damase Khasa |
author_sort |
Rasheed Adeleke |
title |
Isolation and identification of iron ore-solubilising fungus |
title_short |
Isolation and identification of iron ore-solubilising fungus |
title_full |
Isolation and identification of iron ore-solubilising fungus |
title_fullStr |
Isolation and identification of iron ore-solubilising fungus |
title_full_unstemmed |
Isolation and identification of iron ore-solubilising fungus |
title_sort |
isolation and identification of iron ore-solubilising fungus |
publisher |
Academy of Science of South Africa |
series |
South African Journal of Science |
issn |
1996-7489 |
publishDate |
2010-09-01 |
description |
Potential mineral-solubilising fungi were successfully isolated from the surfaces of iron ore minerals. Four isolates were obtained and identified by molecular and phylogenetic methods as close relatives of three different genera, namely Penicillium (for isolate FO), Alternaria (for isolates SFC2 and KFC1) and Epicoccum (for isolate SFC2B). The use of tricalcium phosphate (Ca3(PO4)2)in phosphate-solubilising experiments confirmed isolate FO as the only phosphate solubiliser among the isolated fungi. The bioleaching capabilities of both the fungus and its spent liquid medium were tested and compared using two types of iron ore materials, conglomerate and shale, from the Sishen Iron Ore Mine as sources of potassium (K) and phosphorus (P). The spent liquid medium removed more K (a maximum of 32.94% removal, from conglomerate), than the fungus (a maximum of 21.36% removal, from shale). However, the fungus removed more P (a maximum of 58.33% removal, from conglomerate) than the spent liquid medium (a maximum of 29.25% removal, from conglomerate). The results also indicated a potential relationship between the removal of K or P and the production of organic acids by the fungus. A high production of gluconic acid could be related to the ability of the fungus to reduce K and P. Acetic, citric and maleic acids were also produced by the fungus, but in lower quantities. In addition, particle size and iron ore type were also shown to have significant effects on the removal of potassium and phosphorus from the iron ore minerals. We therefore conclude that the spent liquid medium from the fungal isolate FO can potentially be used for biobeneficiation of iron ore minerals. |
topic |
biohydrometallurgy fungi iron ore organic acids particle size |
url |
http://192.168.0.118/index.php/sajs/article/view/9923 |
work_keys_str_mv |
AT rasheedadeleke isolationandidentificationofironoresolubilisingfungus AT eugenecloete isolationandidentificationofironoresolubilisingfungus AT damasekhasa isolationandidentificationofironoresolubilisingfungus |
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