The Sahel low agricultural yields are gone due to poor soils, drought and rainfall variability. Knowledge and understanding of the interactive effects of drought and nitrogen fertilization on growth of millet appear important. For this purpose the SOUNA3 millet was used as an experimental split-plot with two factors and four replications during the dry season in 2002. The water regime factor was used at two levels (watered and water-stressed) and the nitrogen fertilization factor also at two levels (without nitrogen, F0 and with a nitrogen supply of 68.5 kg ha-1, F1). The water-stressed was applied during the vegetative stage and the grain formation and filling phases. The values of water consumption, the plant water status and the leaf area index were measure during the plant growth. The above dry matter was calculated at each development stage. Yield was calculated at the end of cycle. The results of the water consumption of plants and leaf water potential showed that water stress has reduced the values of these parameters and no difference was showed between nitrogen fertilization treatments whatever the level considered water regime. As for the values of leaf area index and the above dry biomass production, they were higher in fertilized plants for a given water regime. The nitrogen increased the values of these parameters at the irrigated plants. The water deficit has reduced the yield of 52.79 % in stressed plants. The water deficit cancels the beneficial effect of nitrogen fertilization on millet growth and yield.