The study of soil moisture is important in determining the resilience of ecosystems and their recovery, as well as in the modeling of water-vegetation-atmosphere relationship. Remote sensing is an important tool for the acquisition, mapping and monitoring soil moisture through the surface temperature and vegetation indices. For the soil moisture content assessment, several methods have been proposed, however its application is still limited. In this work the soil moisture index (SMI) was applied and modeled with the objectives: to establish and delineate areas with different levels of desertification through SMI mapping and to map the dynamic of border, as well as to verify possible relationships betweem SMI and soil water parameters. In the application of this model as input data was used: NDVI (normalized difference vegetation index) and LST (land surface temperature). It was observed that SMI accessed by the average of the SMI derived by NDVI and LST can be used in the determination of soil surface degradation and in the production of maps showing different levels of this degradation. It was also verified, that there was no direct relationship between SMI and physical parameters of soil moisture content. Remote sensing showed to be an important tool in the evaluation of soil moisture indices in degraded areas and to delineate the border effect in this desertification nucleus.
soil moisture index; NDVI; Seridó; desertification
