论文信息 - THE INFLUENCE OF TOPOGRAPHY ON TIME AND SPACE DISTRIBUTION OF SOIL SURFACE WATER CONTENT

THE INFLUENCE OF TOPOGRAPHY ON TIME AND SPACE DISTRIBUTION OF SOIL SURFACE WATER CONTENT

The distribution of water content in time and space at the soil surface has been investigated on a small farmland catchment (1.3 km2 ) from four field surveys corresponding to different moisture statuses. For each survey, about 400 samples were collected at the soil surface at a depth of 5 cm along ten axes parallel to the greatest slope. The relationship between the measurements and the topography has been analysed. The structure of the data is well explained by a topographic index referring to the downslope conditions and defined as the elevation difference between the sample point and the stream point corresponding to the outlet of the water pathway derived from the digital elevation model (DEM). This index can be considered as an hydraulic head, at least for saturated conditions. A threshold for this index allows two domains within the catchment to be distinguished; an upper domain where the water content is nearly constant and varies slowly, and a lower domain where moisture status increases and is highly variable. The spatial distribution of these two domains is well correlated to the spatial distribution of the soils. Thus, both topography and the spatial distribution of soil appear to control the spatial distribution of surface water content at the 1-km2 scale. © 1997 by John Wiley & Sons Ltd.

Chantal Gascuel-Odoux | C. Gascuel-Odoux | A. Crave | A. Crave

[1] P. Merot,et al. Le programme CORMORAN-INRA : de l'importance du milieu physique dans la régulation biogéochimique de la teneur en nitrate des eaux superficielles , 1995 .

[2] E. O'Loughlin,et al. Saturation regions in catchments and their relations to soil and topographic properties , 1981 .

[3] J. Bouma,et al. A Method for Measuring the Vertical and Horizontal Ksat of Clay Soils with Macropores 1 , 1981 .

[4] K. Beven,et al. A physically based, variable contributing area model of basin hydrology , 1979 .

[5] Chantal Gascuel-Odoux,et al. Effect of saturated areas on backscattering coefficient of the ERS 1 synthetic aperture radar: First results , 1994 .

[6] Malcolm G. Anderson,et al. Topography and hillslope soil water relationships in a catchment of low relief , 1980 .

[7] L. Band. Topographic Partition of Watersheds with Digital Elevation Models , 1986 .

[8] Keith Beven,et al. Catchment geomorphology and the dynamics of runoff contributing areas , 1983 .

[9] P. Merot,et al. Variabilité spatiale du transfert de l'eau dans le sol: Utilisation du traçage et analyse géostatistique , 1986 .