Abstract

Abstract The nitrogen use efficiencies (NUE) of N 2 fixation, primary NH 4 + assimilation and NO 3 − assimilation are compared. The photon and water costs of the various biochemical and transport processes involved in plant growth, N‐assimilation, pH regulation and osmolarity generation, per unit N assimilated are respectively likely to be around 5 and 7% greater for N 2 fixation than for a combination of NH 4 + and root and shoot NO 3 − assimilation as occurs with most crops. Studies on plant and rhizobial genes involved in nodulation and N 2 fixation may lead to more rapid nodulation, production of more stress‐tolerant N 2 fixing systems and transfer of the hydrogenase system to rhizobium/legume symbioses which currently do not have this ability. The activity of an uptake hydrogenase is predicted to decrease the photon cost of diazotrophic plant growth by about 1%.