Effect of rhizosphere and plant-related factors on the cadmium uptake by maize (Zea mays L.)

The characteristics of 12- and 24-day-old maize plants (Zea mays L. cv MB862) related to Cd absorption were investigated with respect to the influence of Cd concentration in the plant organs, to plant age, absorption time and competition with micronutrients. Despite high Cd concentrations in the nutrient solution, hydroponically cultivated maize did not seem to be affected by Cd toxicity, except for the highest Cd level (100 mu mol L-1). There was on average five times more Cd in roots than in shoots and the Cd root to shoot ratio increased with increasing Cd concentration in the nutrient solution. No significant differences were observed between influx measured for 2 h in the middle of the day light period and for a full day period. Plants with different internal Cd concentrations showed similar root absorption characteristics of this metal. The root Cd influxes were three times higher in solutions with low micronutrient contents than in the solutions with higher micronutrient contents, and almost three times higher in 12-day-old roots than in 24-day-old roots. The root Cd influx was linearly related to its concentration in the solution, showing no saturable component. Our results suggest a non-specific and unregulated transport of Cd into the maize root symplast. They also indicate a regulation of the Cd translocation from root to shoot, as well as dependence of parameters of Cd root absorption on plant and rhizosphere conditions which should be taken into account for Cd uptake modelling. (C) 2008 Elsevier B.V. All rights reserved.