Little information is available about the Cd-phytoextraction mechanism by quail bush [Atriplex lentiformis (Torr.)
S. Wats]. A pot experiment was conducted using a Cd-polluted soil (50 mg kg−1) to explore mechanism of Cdphytoextraction
by quail bush as well as the role of EDTA and vinasse as mobilizing agents. EDTA was applied at
a rate of 0, 1, 2, and 3 mmol kg−1, while vinasse was applied at a rate of 0, 4, 8, and 16 ml kg−1. EDTA had
negative effects on the physiochemical properties of the soil. In contrast of EDAT, vinasse caused a remarkable
betterment in soil conditions where it increased the soil structure and porosity by 35 and 48% and increased the
soil acidity by 8.3%. Growth of roots and shoots reduced by 29 and 33%, respectively; when EDTA was applied
at a rate of 3 mmol kg−1, on the other hand the application of 16 ml of vinasse kg−1 increased the roots and
shoots growth by 20 and 21%, respectively. The highest rate of vinasse induced a 31% increase in chlorophyll
content but 3 mmol of EDTA caused a great negative stress in plant growth and induced a 78% increase in
proline content. EDTA and vinasse enhanced the transfer of Cd from soil to roots and from roots to shoots. Quail
bush amended with vinasse at a rate of 16 ml kg−1 was able to remove 8.34% of the total soil Cd during a
100 days, while that amended with 3 mmol of EDTA was able to remove 5.51%. EDTA was more effective in
increasing Cd availability and uptake, but sugarcane vinasse was more effective in enhancing the Cd-phytoextraction.
Based on the obtained results, using sugarcane vinasse to enhance Cd-phytoextraction by quail bush is
an effective plan to remediate Cd-contaminated soils.