Abstract
The magnitude and timing of flood events are influenced by surface and subsurface flow generation as well as by present land use distribution. An integrated understanding of the interactions of soil properties, land use and flow generation is still missing. Therefore, field experiments are required to gain further knowledge about land use dependencies of discharge generation and concentration processes. In our research, we built an experimental setup consisting of three sites with similar soil and topographic conditions and different land use types (cropland, grassland, forest). The applied multimethod approach includes meteorological parameters, soil moisture, soil moisture tension, surface runoff, lateral subsurface flow, and stream discharge observations. The results show that low subsurface flow discharges more often occur at the cropland site, while large flow volumes were mainly observed at the grassland site. A correlation of the horizontal distribution of subsurface flow volumes and the accumulation areas of the surface topography has been found (r² = 0.76). The observed average response times for advective events increase from the forest site (6.0 h) to the grassland site (12.4 h) to the cropland site (20.9 h). Response times of convective events were shorter than 1 h at all sites.
Highlights
Subsurface flow is significant in catchment hydrology [1] and has a large contribution to peak flow at saturation conditions [2,3,4]
The data are divided into the three land use types and different depth categories
The measurement site established for the study was well suited to determine land use impacts on subsurface flow and its framework conditions
Summary
Subsurface flow is significant in catchment hydrology [1] and has a large contribution to peak flow at saturation conditions [2,3,4]. The amount and reactivity of surface and subsurface flows are controlled by the soil characteristics at the respective sites [5,6]. Bulk density, organic matter content, and average soil moisture conditions affect the predominant land use. The available data for the analyses is scarce as study sites with similar soil characteristics are needed. This data is required to understand the influence of land use on subsurface flow characteristics as well as to qualitatively validate land use scenarios in hydrological models
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