Properties of the mine waste represented the toxic nature to human health and may pose numerous risks to the local environment. Although the recorded radioactivity level in these tailings is very low, but to avoid any long term effect of these tailings on the atmosphere as well as native living things, the tailings need to cover with soil. This reduces gamma radiation and radon emission levels. However, to consolidate the radioactivity and remediate the contaminants in the tailings on a sustainable basis, the area needs to be revegetated by candidate plants. Remediation of heavy metal-contaminated sites using plants presents a promising alternative to current methodologies. Therefore, the study was to evaluate the ex-situ phyto-remediation of uranium mine tailing ponds by amending with land soil followed by invading to grow predominant native plant species. Three volumes of the pot culture experiment were carried out i.e. additions of land soil to mine tailing at 0, 50, and 100 percent by volume with four abundance plant species of S. spontaneous (terrestrial), P. vittata (fern) and T. latifolia and C. compressus (aquatic species) were selected in the study. After appropriate preparation U, Mn, Fe, V, Ni, Cu and Zn which were the major contaminants and the pH and EC in soil fractions and also growth parameters in plant materials were analyzed at five stage intervals in the duration of four months. The addition of soil was found significant change in pH to alleviate the toxic effects that heavy metals have on plant health, hence the enhanced growth and survivability was reached. Even while redistributing metals to a less available form, during the remediation the plant species have the capabilities to accumulate substantial amount of toxic metals. The metal concentrations in the plants were found in the order Fe50.92 > Mn7.22 > Zn0.94 > Cu0.92 > Ni0.65 > V0.18 > U0.07 and accumulated in the order Zn0.021 > Cu0.019 > Mn0.014 > Ni0.013 > U0.002 > V0.001 > Fe0.001. The results of the study indicate that C. compressus and S. spontanium were found to be the candidate species for Phyto-remediation (i.e. either accumulation and non-accumulation or consolidation respectively) of contaminants in soil amended Uranium mine tailings. For maximum accumulation, C. compressus harvesting need to be done at after the fourth month of plantation and for consolidation, S. spontanium plantation was greatly recommended. It also confirms that the land soil could be the best amendment for remediation of abandoned mine waste.
Radionuclide and metal pollution is a global environmental problem and the number of contaminants entering the environment has increased greatly in recent times due to increased mining activities. Uranium mill tailings are the powdered rock residues obtained after uranium extraction by hydrometallurgical process from Uranium ores. The tailing effluents and solids from the mill are discharged as a slurry to a waste retention pond, the tailing pond. A study was undertaken for a period of three years to evaluate the potential of native plant species for phytoremediation of tailing ponds of the Uranium mines at Jaduguda in Jharkhand state. Electrical conductivity (EC),pH of the tailings and metals like Al, V, Cr, Mn, Fe, Ni, Cu, Zn, As, Se, Cd, Pb and the 3 radionuclides (Co, Sr and U) were analysed. From the analysis of sediment/soil/water/effluent of tailing ponds, eight elements (Al,U, Mn, V, Fe, Ni, Cu and Zn) were found to be significantly in higher concentrations in the tailing soils. U and Mn were found to be the predominant contaminants. Twenty six native forest plant species were screened for their ability to accumulate and remediate the contaminated soils. Considering various factors of suitability of the plant species for phytoremediation, four plant species viz; Sacchurum spontaneum(Al 54 ppm, Mn 31 ppm,U 8ppm, Cr 16ppm), Typha latifolia(Cr 2ppm,U 3ppm, Mn 68 ppm, Sr 2 ppm, Pb 3 ppm), Pteris vittata(Mn 211 ppm, Pb 4ppm, U 4ppm) and Cyprus compressus(U 2ppm, Mn 76 ppm) are found to hold good potential for phytoremediation of heavy metals and radionuclides from tailings of the Jaduguda uranium mine.
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