Using the topography of the saprolite upper boundary to improve the spatial prediction of the soil hydromorphic index

Abstract

So far, soil-landscape models have been based on soil surface topographic information only. However, hillslope hydrology that affects soil distribution is also controlled by sub-surface flow pathways that may not entirely be explained by surface terrain features. This paper compares the accuracy of a model for predicting the spatial variations of the hydromorphic index (HI) using the surface topography with that of a model that uses the sub-surface topography. The study was conducted in an agricultural hillslope of the Armorican Massif (Western France) where two DEMs were generated from observations of the surface topography and the topography of the saprolite upper boundary. For both DEMs, the best correlations with HI occurred for altitude, elevation above the stream bank, and compound topographic index. Predictions of HI using the sub-surface topography greatly decreased prediction errors, especially for intermediary HI values at middleslope position. Finally, the use of subsurface topography as a novel approach to enhance existing techniques in new applications is discussed.