Desertification is a problem in regions with arid, semi-arid and dry sub-humid climates and is characterized by the degradation of natural resources. The influence of vegetation cover and rainfall intensity on the dynamics of water infiltration, surface runoff and soil loss was measured in situ in a Desertification Zone in the semi-arid region of Brazil. Twenty-four plots were evaluated in two areas, each with the same type of soil that is predominant in the region: 1) Luvisol with dense vegetation cover (LD) and 2) Luvisol with sparse vegetation cover (LS). Rainfall of 60 and 100 mm h -1 was simulated with a rainfall simulator. Soil hydraulic conductivity, soil water retention curves and soil carbon and nitrogen stocks were also determined. Water infiltration was greater in the LD (53 mm h -1) compared to the LS (15 mm h -1), while the runoff rates were 27 mm h -1 for the LD and 61 mm h -1 for the LS. Rainfall intensity significantly influenced when runoff started and the runoff rate, accelerating soil loss. Vegetation cover significantly influenced the total soil carbon and nitrogen stocks, as well as the saturated hydraulic conductivity of the soil. This is the first study in the semi-arid desertification region of Brazil that used simulated rainfall to assess the effects rain intensity on soil properties. The results of this study can be used as a reference for calibrating erosion models in areas undergoing a desertification process