The main objective of this study is to assess and map the actual and potential productivity of the soils of the QenaGovernorate, Egypt using remote sensing integrated with GIS technique.Twenty nine soil profiles represent the studied area were chosen on the basis of both geomorphological information and agricultural land use. The locations of the soil profiles were accurately defined with the help of GPS. Nine intrinsic soil characteristics , viz; moisture (H), drainage (D), effective depth (P), texture/ structure (T), base saturation (N), soluble salt concentration (S), organic matter content (O), mineral exchange capacity /nature of clay (A) and mineral reserves (M)were evaluated using the parametric approach.The thematic layers of the attribute data were created in Arc-GIS 9.2 software using the spatial analyses function, and then these layers were matched together to produce the soil capability map. The results indicate that the soils of excellent, good, average, poor, extremely poor productivity classes represent 3.55% (13519 ha), 51.06% (194920 ha), 43.57 % (166328 ha), 1.7% (6494 ha), 0.12 % (471 ha) of the studied area respectively.Organic matter, drainage and Texture were found to be the most limiting factor for the crop production in the study area. It can be suggested that the addition of organic fertilizers, as well as improving the soil drainage conditions through excess water removal, would increase the potential productivity of the soils. The soilproductivity expected to be increased by the following the proper management. The productivity classes will be14.97% for excellent productivity, 76.17%for good, 8.3% for average, 0.49% for poor and 0.07% forvery poor productivity,respectively.Therefore, action measures of soil management are essential for sustaining the agricultural soil uses in this area.