Effect of fertilizer rate and form on the recovery of 15N-labelled fertilizer applied to wheat in Syria uri icon

abstract

  • Losses of N-15-labelled fertilizer were large (> 35%), probably caused by gaseous losses, either through volatilization of N from the calcareous soil, or through denitrification from wet soils rich in organic residues.
  • N fertilization strategies in the West Asia/North Africa (WANA) region should take note of the low recovery of N fertilizer by the crop in the season of application, and the resultant large quantities of residual fertilizer.
  • N-15-labelled fertilizer was applied at different rates (0, 30, 60, 90 kg N ha(-1)) and in different forms (urea or ammonium sulphate) to wheat grown in Syria in three seasons (1991/92, 1992/93 and 1994/95).
  • On average 31 % (14-54 %) of the N-15-labelled fertilizer remained in the soil at harvest, mostly in the 0-20 cm layer. At the lowest application rate (30 kg N ha(-1)) most of the residual fertilizer was as organic N, but at the higher application rates (60 and 90 kg N ha(-1)), a greater proportion of the N-15-labelled fertilizer was recovered as inorganic N, presumably as the result of top-dressing N in dry conditions in the spring. The amount of N-15-labelled fertilizer remaining in the soil increased as the fertilizer rate increased, but was unaffected by the form of fertilizer applied.
  • Recovery of N-15-labelled fertilizer in the above-ground crop at harvest was low (8-22 %), with the amount of N-15-labelled fertilizer recovered in the crop increasing as the rate of application increased. Fertilizer application caused a significant increase in the amount of unlabelled soil N in the crop, suggesting that the application of N fertilizer caused a 'real' added nitrogen interaction. Recovery of N-15-labelled fertilizer in the crop was unaffected by the form of the fertilizer.

publication date

  • 1997
  • 1997