This paper assessed soil degradation over land use in the Kebbi area, Northwestern Nigeria. The specific objectives entailed identifying major forms of soil loss in the study area, estimating soil loss, and examining the responses of soil physico-chemical properties over dominant land use types. Slope angles were determined using a GPS, a handheld Abney level, ranging poles, and a 30 m measuring tape while gully depths, widths, and lengths were taken at 5 m-30 m intervals. Key soil physico-chemical parameters were determined using standard procedures. Descriptive statistics such as mean, standard deviation, and coefficient of variation were used to summarize the data generated from the study. The analysis of variance and the student’s t-test were used to test for significant association between and within pairs of land uses. The results show that slopes range from 4⁰ - 16⁰, while the magnitude of soil loss ranged between 3580.32 m3 in K1 (Kalgo 1), 3550.89 m3 in G2 (Goru 2) and 161.01 m3 in A1 (Angwar Daji 1). Results show significance at p≤ 0.05 in bulk density values over the different land uses, with the highest bulk density value of 1.78 g/cm3 in badland and the lowest value of 1.35 g/cm3 in plantation land use. Total nitrogen ranges between 0.01 – 0.38%, with the lowest values in badland and scrubland, while soil base saturation is highest over plantation (76.3%) and lowest in badland (50.4%). The study concludes that the dominant geomorphic responses identified in the study area are gully initiation and development and varying amounts of soil degradation over the different land uses. The findings should facilitate policy initiation to rehabilitate degraded lands and adopt sustainable soil management practices like tree planting while linking geomorphological information to infrastructural planning and development.
