"Phytoextraction of Pb and Cd from a contaminated agricultural soil using different EDTA application regimes: Laboratory versus field scale measures of efficiency"@en . "144" . "Neugschwandtner, Reinhard" . "Tlusto\u0161, Pavel" . "Phytoextraction of Pb and Cd from a contaminated agricultural soil using different EDTA application regimes: Laboratory versus field scale measures of efficiency"@en . "Phytoextraction of Pb and Cd from a contaminated agricultural soil using different EDTA application regimes: Laboratory versus field scale measures of efficiency" . "phytoextraction, EDTA, lead, cadmium, Zea mays, contaminated soil"@en . . "P(GA521/06/0496), Z(MSM6046070901)" . "Sz\u00E1kov\u00E1, Ji\u0159ina" . . "[E008263D6081]" . . . . "Kom\u00E1rek, Michael" . . . . "386648" . "3"^^ . "Enhanced phytoextraction of heavy metals using chelating agents and agricultural crops is widely discussed as a remediation technique for agricultural soils contaminated with low mobile heavy metals. In this study, phytoextraction efficiency of Zea mays after single and split applications of EDTAwas tested on the laboratory and the field scale. EDTA effectively increased the mobility of target heavy metals (Pb and Cd) in the soil solution. Split applications provided generally lowerwater-soluble levels of Pb and Cd both in the pot and the field experiment. Therefore, the risk of groundwater contamination may be reduced after split applications. Higher Pb and Cd mobilisation after single applications increased plant stress, phytotoxicity and reduced plant dry above-ground biomass production compared to corresponding split doses. Single doses enhanced plant uptake of Pb and Cd and the phytoremediation efficiency compared to corresponding split doses. Results of plant dry above-ground biomass and heavy"@cs . . "4"^^ . . . "0" . . "0016-7061" . . "RIV/60460709:41210/08:23788!RIV09-GA0-41210___" . "Fytoextrakce Pb a Cd z kontaminovan\u00E9 zem\u011Bd\u011Blsk\u00E9 p\u016Fdy pomoc\u00ED r\u016Fzn\u00FDch aplikac\u00ED EDTA: Laboratorn\u00ED a ter\u00E9nn\u00ED experiment"@cs . "Fytoextrakce Pb a Cd z kontaminovan\u00E9 zem\u011Bd\u011Blsk\u00E9 p\u016Fdy pomoc\u00ED r\u016Fzn\u00FDch aplikac\u00ED EDTA: Laboratorn\u00ED a ter\u00E9nn\u00ED experiment"@cs . . "RIV/60460709:41210/08:23788" . . "Phytoextraction of Pb and Cd from a contaminated agricultural soil using different EDTA application regimes: Laboratory versus field scale measures of efficiency" . "41210" . . . . . "9"^^ . "Geoderma" . . . . "Enhanced phytoextraction of heavy metals using chelating agents and agricultural crops is widely discussed as a remediation technique for agricultural soils contaminated with low mobile heavy metals. In this study, phytoextraction efficiency of Zea mays after single and split applications of EDTAwas tested on the laboratory and the field scale. EDTA effectively increased the mobility of target heavy metals (Pb and Cd) in the soil solution. Split applications provided generally lowerwater-soluble levels of Pb and Cd both in the pot and the field experiment. Therefore, the risk of groundwater contamination may be reduced after split applications. Higher Pb and Cd mobilisation after single applications increased plant stress, phytotoxicity and reduced plant dry above-ground biomass production compared to corresponding split doses. Single doses enhanced plant uptake of Pb and Cd and the phytoremediation efficiency compared to corresponding split doses. Results of plant dry above-ground biomass and heavy"@en . "Enhanced phytoextraction of heavy metals using chelating agents and agricultural crops is widely discussed as a remediation technique for agricultural soils contaminated with low mobile heavy metals. In this study, phytoextraction efficiency of Zea mays after single and split applications of EDTAwas tested on the laboratory and the field scale. EDTA effectively increased the mobility of target heavy metals (Pb and Cd) in the soil solution. Split applications provided generally lowerwater-soluble levels of Pb and Cd both in the pot and the field experiment. Therefore, the risk of groundwater contamination may be reduced after split applications. Higher Pb and Cd mobilisation after single applications increased plant stress, phytotoxicity and reduced plant dry above-ground biomass production compared to corresponding split doses. Single doses enhanced plant uptake of Pb and Cd and the phytoremediation efficiency compared to corresponding split doses. Results of plant dry above-ground biomass and heavy" . "NL - Nizozemsko" .