Uptake and distribution of sodium and potassium by corn seedlings. I. Role of the mesocotyl in 'sodium exclusion' [Zea mays, maize]

The distribution of sodium and potassium throughout corn (Zea mays L. [A632 × Crows 3640] × Oh 43) plants is not simply a matter of uptake by cortical cells and irreversible delivery to the xylem for upward transport. We show that sodium, but not potassium, accumulates in the mesocotyl of corn seedlings grown on NaCl medium. Upon transfer to NaCl-free medium, total sodium is reduced by export through the roots but remains at high levels within the mesocotyl. We report experiments which consider uptake from the xylem. Shoots excised at the seed were allowed to transpire solutions containing 22Na and 42K. Potassium uptake within the mesocotyl was very sensitive to concentration, increasing 27-fold between 1 and 10 millimolar. Sodium uptake was dependent upon the square root of the concentration suggesting active accumulation. At sodium concentrations below 1 millimolar, more than 80% of the sodium in the plant was retained in the mesocotyl. Both the uptake by and retention within the mesocotyl were dependent upon transpiration rate as well as concentration. We discuss the limitations of measuring uptake from a finite, depletable medium. The mesocotyl is a modified root with a cuticularized epidermis. We discuss the feasibility of using this 'plastic-coated root' as a model for root transport studies.