A pot experiment was conducted to assess the fate and recovery of urea-N applied to sorghum (Sorghum Sudanese) both in the presence and in the absence of sewage sludge. For a better understanding of the interaction between urea N and N originating from sewage sludge, 15N isotope technique was used. 15N-labeled urea (10 atom % excess) was added to soil at 0, 60, 100 kgN.ha-1, and unlabelled sewage sludge was added at 0 and 45 kgN.ha-1 (equivalent to 3 t.ha-1). Results indicate that dry matter production and N uptake by Sudan grass was affected by the rate and the source of N application. In the absence of sewage sludge, 15N recovery (15NR) was 34% of the 15N- Urea applied at 60 kgN.ha-1. It increased to 55% as the urea N rate increased to 100 kg N.ha-1. Co-application of sewage sludge with the lowest dose of urea had no effect on the recovery of the 15N labelled urea; nearly 35% of the 15N-labeled urea was taken up by the Sudan grass. However, co-application of sewage sludge with the highest dose of urea led to a decrease of urea 15NR by 11% as compared to that in the absence of sewage sludge. Application of sewage sludge significantly improved the immobilization of urea-derived N in soil, from 13 to 42% and from 24 to 31% of 60 and 100 kg N urea applied respectively. Thus, sewage sludge ensured prolonged and continued availability of fertilizer N to plants thereby leading to reduce N loss and to higher fertilizer use efficiency. In addition, it contributed to improve soil properties and enriched the fertility status of soil.