Modeling of cobalt and copper 702 speciation in metalliferous soils from Katanga (Democratic Republic of Congo), J Geochem Explor, vol.149, pp.87-96, 2015. ,
, , p.705
, Assessment of soil metal distribution and environmental impact of mining in Katanga (Democratic 706 Republic of Congo), Applied Geochemistry, 2015.
Hyperaccumulation of trace elements by plants, p.709, 2006. ,
Phytoremediation of Metal-Contaminated Soils, NATO Science Series, issue.2, pp.25-52 ,
Metal-accumulating plants, Phytoremediation 712 of toxic metals, pp.193-221, 2000. ,
Comparison of four extractants and chemical fractions for assessing available 715 zinc and copper in soils of India, Commun Soil Sci Plan, vol.30, pp.2579-2591, 1999. ,
, , 2013.
, Chemical soil factors influencing plant assemblages along copper-cobalt gradients: implications for conservation 719 and restoration, Plant Soil, vol.373, pp.455-469
An overview of the abundance, relative mobility, bioavailability, and human 722 toxicity of metals, Society 723 of Economic Geologists, vol.6, pp.29-70, 1999. ,
Growth and metal accumulation of Mycorrhizal Sorghum 741 exposed to elevated copper and zinc, Water Air Soil Poll, vol.164, pp.155-172, 2005. ,
Evaluation of distribution and chemical 744 associations between cobalt and manganese in soils by continuous-flow sequential extraction, Commun Soil Sci, vol.745, pp.2839-2855, 2005. ,
, Mineral commodity summaries, p.196, 2014.
Hyperaccumulators of metal and 750 metalloid trace elements: facts and fictions, Plant Soil, vol.362, pp.319-334, 2013. ,
Manual for the soil chemistry and fertility 753 laboratory, Faculty of Agricultural and Applied Biological Sciences, p.243, 1999. ,
Heavy metal uptake by arbuscular mycorrhizas of Elshotzia splendens and the 756 potential for phytoremediation of contaminated soil, Plant Soil, vol.269, pp.225-232, 2005. ,