A. Dagenbach scite author profile

A. Dagenbach

3Publications

17Citation Statements Received

35Citation Statements Given

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Heidelberg University

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Identifying a parameterisation of the soil water retention curve from on-ground GPR measurements

Dagenbach

Buchner

Klenk

et al. 2013

Hydrol. Earth Syst. Sci.

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Abstract.We show the potential of on-ground GroundPenetrating Radar (GPR) to identify the parameterisation of the soil water retention curve, i.e. its functional form, with a semi-quantitative analysis based on numerical simulations of the radar signal. An imbibition and drainage experiment has been conducted at the ASSESS-GPR site to establish a fluctuating water table, while an on-ground GPR antenna recorded traces over time at a fixed location. These measurements allow to identify and track the capillary fringe in the soil. The typical dynamics of soil water content with a transient water table can be deduced from the recorded radargrams. The characteristic reflections from the capillary fringes in model soils that are described by commonly used hydraulic parameterisations are investigated by numerical simulations. The parameterisations used are (i) full van Genuchten, (ii) simplified van Genuchten with m = 1 − 1 n and (iii) Brooks-Corey. All three yield characteristically different reflections, which allows the identification of an appropriate parameterisation by comparing to the measured signals. We show that for the sand used here, these signals are not consistent with the commonly used simplified van Genuchten parameterisation with m = 1 − 1 n .

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Identifying a soil hydraulic parameterisation from on-ground GPR time lapse measurements of a pumping experiment

Dagenbach¹,

Buchner²,

Klenk³

et al. 2012

Preprint

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Untersuchung der hydraulischen Bodeneigenschaften durch GPR: Analyse der Kapillarsaumreflexion durch numerische Simulationen

Dagenbach¹

2012

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A. Dagenbach

Identifying a parameterisation of the soil water retention curve from on-ground GPR measurements

Identifying a soil hydraulic parameterisation from on-ground GPR time lapse measurements of a pumping experiment

Untersuchung der hydraulischen Bodeneigenschaften durch GPR: Analyse der Kapillarsaumreflexion durch numerische Simulationen

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