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Phytoextraction of chromium and iron from contaminated soil using psoralea pinnata

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dc.contributor.advisor Atagana, H. I.
dc.contributor.advisor Okonkwo, O. J.
dc.contributor.advisor Dakore, F. D.
dc.contributor.author Ochonogor, Oluchuku Richie
dc.date.accessioned 2014-05-27T13:22:27Z
dc.date.available 2014-05-27T13:22:27Z
dc.date.issued 2014-05-27
dc.identifier.citation Ochonogor, Oluchuku Richie (2014) Phytoextraction of chromium and iron from contaminated soil using psoralea pinnata, University of South Africa, Pretoria, <http://hdl.handle.net/10500/13508> en
dc.identifier.uri http://hdl.handle.net/10500/13508
dc.description.abstract The overall efficiency of plants to remediate soils contaminated by metals depends on their growth ability especially on soils with low-fertility. For twelve weeks, the ability of Psoralea pinnata to grow well and remove chromium and iron from artificially contaminated soil was tested. The concentrations of chromium and iron in two soils obtained from different sources namely, University of South Africa premises (US) and commercial potting soil (PS) were 80 ppm, 130ppm, 180ppm, 230ppm, 280ppm, 330ppm, 380pp, 430ppm and 480ppm. Psoralea pinnata was transplanted into the contaminated soils and the experiments were watered daily to maintain 70% moisture at field capacity in a greenhouse. Shoot height and root length of Psoralea pinnata before and after planting were measured. Other parameters that were measured were number of leaves, wet shoot and dry weights, and wet root and dry weights. The growth of Psoralea pinnata, after 12 weeks of experimentation was noticeably affected by the concentrations of chromium and iron in the soil. The percentage increases in shoot height of Psoralea pinnata in the PS Soil (C-PS, 48cm from initial shoot height of 12.6cm) treatments were generally higher than the increases in the US Soil (C-US, 45.2cm from initial shoot height of 12.8cm) treatments. Psoralea pinnata in the (US) treatments accumulated Fe (50.02 ppm) from the soil more than Cr (32.38ppm). In the (PS) treatments, Psoralea pinnata also accumulated more Fe (60.57 ppm) than Cr (38.34 ppm). In the experiments containing both Fe and Cr, the US treatments with 40 ppm each of Cr and Fe, chromium was initially mostly accumulated by Psoralea pinnata (68%). At higher concentrations (320 ppm) of the combined metals (Cr and Fe) treatment, more Fe (55%) was accumulated in Psoralea pinnata. This study however showed that Psoralea pinnata may not be an efficient phytoextraction plant for hyperaccumulation. en
dc.format.extent 1 online resource (xxiii, 125 leaves)
dc.language.iso en en
dc.subject Chromium en
dc.subject Co-contamination en
dc.subject Iron en
dc.subject Metal accumulation factor en
dc.subject Phytoextraction en
dc.subject Phytoremediation en
dc.subject Psoralea pinnata en
dc.subject.ddc 628.55
dc.subject.lcsh Soil remediation
dc.subject.lcsh Phytoremediation
dc.subject.lcsh Chromium -- Environmental aspects
dc.subject.lcsh Iron -- Environmental factors
dc.subject.lcsh Legumes
dc.subject.lcsh Epacridaceae
dc.title Phytoextraction of chromium and iron from contaminated soil using psoralea pinnata en
dc.type Dissertation en
dc.description.department Environmental Sciences en
dc.description.degree M. Sc. (Environmental Management)


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