Effect of Ammonium and Nitrate Forms of Fertilizer‐N and their Time of Application on Utilization of N by Wheat1

Abstract

A hypothesis was tested: that NH₄⁺‐N applied early and NO₃⁻‐N applied later would be a beneficial cultural practice for wheat production. It is generally agreed that cereals prefer NH₄⁺‐N during early growth.One growth chamber and three field experiments were conducted with wheat (Triticum aestivum var. Manitou) using ammonium (NH₄⁺‐N) and nitrate (NO₃⁻‐N) sources of fertilizer‐N applied either at sowing or as the heads emerged or at both times. A nitrification inhibitor was used with ammonium sulphate to supply NH₄⁺‐N and untreated calcium nitrate and ammonium nitrate were used as sources of NO₃⁻‐N. Levels of nonassimilated mineral‐N (NH₄⁺‐N and NO₃⁻‐N) in the green leaves and stems of wheat varied widely according to the source of N applied and its time of application. High levels of NO₃⁻‐N in the plant at flowering led to high percentages of N in the grain. Consequently, fertilizer‐N applied as NO₃⁻‐N as the heads emerged (‘boot’ stage) increased the percent N (protein) in the grain more than NH₄⁺‐N. Split applications of fertilizer‐N, with NH₄⁺‐N applied at sowing (with a nitrification inhibitor) to give maximum leaf and stem growth and NO₃⁻‐N applied at the ‘boot’ stage to increase grain protein levels, may be worth considering as an agronomic practice for wheat production, particularly if new cultivars could be developed to use effectively the increased leaf area to produce more grain. Also, manipulating the nitrogen metabolism of the wheat plants affected the uptake of other nutrients, for example, applying NH₄⁺‐N increased P and Zn uptake.