Nitrate Reduction in Roots as Affected by the Presence of Potassium and by Flux of Nitrate through the Roots

Abstract

Dark-grown, detopped corn seedlings (cv. Pioneer 3369A) were exposed to treatment solutions containing Ca(NO₃)₂, NaNO₃, or KNO₃; KNO₃ plus 50 or 100 millimolar sorbitol; and KNO₃ at root temperatures of 30, 22, or 16 C. In all experiments, the accelerated phase of NO₃⁻ transport had previously been induced by prior exposure to NO₃⁻ for 10 hours. The experimental system allowed direct measurements of net NO₃⁻ uptake and translocation, and calculation of NO₃⁻ reduction in the root. The presence of K⁺ resulted in small increases in NO₃⁻ uptake, but appreciably stimulated NO₃⁻ translocation out of the root. Enhanced translocation was associated with a marked decrease in the proportion of absorbed NO₃⁻ that was reduced in the root. When translocation was slowed by osmoticum or by low root temperatures, a greater proportion of absorbed NO₃⁻ was reduced in the presence of K⁺. Results support the proposition that NO₃⁻ reduction in the root is reciprocally related to the rate of NO₃⁻ transport through the root symplasm.