Nitrogen utilization by sulfur-deficient barley plants depends on the nitrogen form

Combined nitrogen (N) and sulfur (S) fertilization positively influences yield and quality in cereal crops, and S additions can enhance N use efficiency. Previous studies showed that S deficiency leads to a particular strong decrease in nitrate reductase activity and in nitrate uptake relative to ammonium. We therefore tested the hypothesis whether N fertilization in the form of urea improves N utilization under S deficiency. When barley plants were grown on a S-deficient soil for seven weeks, N additions increased biomass and S concentrations in shoots of nitrate- and urea-supplied plants to the same extent. Under S deficiency nitrate-supplied plants accumulated more N in the form of nitrate and asparagine than urea-supplied plants. This supported the view that asparagine synthesis under S deficiency is induced under supply of nitrate but not or much less by urea. Hydroponically grown plants were then assayed for their nitrate and nitrite reductase activities in response to S supply. Nitrate reductase activity sharply decreased under limiting S supply, while nitrite reductase activity did not respond to S supply, indicating that nitrate reduction rather than nitrite reduction represents the S-limited assimilatory process. Thus, although nitrate reduction is particularly sensitive to S deficiency, urea supply did not improve growth and N efficiency under limited S availability but rather prevented an excess accumulation of asparagine.

► S-deficient plants metabolism is influenced by the nitrogen form supplied.
► Nitrate-fed plants under S-limitation accumulate nitrate and free amino acids.
► Asparagine is the main amino acid accumulated.
► S-deficient plants supplied with urea show lesser accumulation of asparagine.