The quantification of the pattern and spatial distribution of soil organic carbon (SOC) is fundamental to understanding many ecosystem processes. This study aimed to apply ordinary kriging (OK) to model the spatial distribution of SOC in Chad. A total of 995 sampling locations from the region were used to extract soil organic carbon from three raster layers. Those raster layers represented the SOC of 0-5 cm, 5–15 cm, and 15-30 cm of soil horizon and were downloaded from the SoilGrids website. The mean value of the soil carbon derived from the three horizons was used as 0-30cm horizon data and analysed using R-4.1.3 version software and ArcGIS 10.5. Different variogram models were first examined on the variogram cloud, and, based on RMSE, MSE, and MAE criteria, the best fit was selected. The results indicated that the Gaussian model is the best fit to the data, with 27.84, -3.35, and 20.95 obtained, respectively, for RMSE, MAE, and ME. The short-range spatial dependence of SOC was strong, with a nugget close to zero. The spatial dependency of the data was medium, with a nugget-to-sill ratio of 0.36. The southern portion of the country has a higher concentration of SOC than the northern portion. It can be concluded that the generated map could serve as a proxy for SOC in the region where evidence of spatial structure and quantitative estimates of uncertainty are reported. Therefore, the maps produced can be used for many applications, including soil sampling optimization.