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Representation of Plot-Scale Soil Heterogeneity in Dual-Domain Effective Flow and Transport Models with Mass Exchange (CROSBI ID 262750)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Filipović, Vilim ; Gerke, H. Horst ; Coquet, Yves Representation of Plot-Scale Soil Heterogeneity in Dual-Domain Effective Flow and Transport Models with Mass Exchange // Vadose zone journal, 18 (2019), 1; 180174, 14. doi: 10.2136/vzj2018.09.0174

Podaci o odgovornosti

Filipović, Vilim ; Gerke, H. Horst ; Coquet, Yves

engleski

Representation of Plot-Scale Soil Heterogeneity in Dual-Domain Effective Flow and Transport Models with Mass Exchange

Agricultural soils are characterized by a structure that is strongly dependent on farming practices like tillage and trafficking. These practices can create compacted zones in the soil, thus initiating preferential flow. Two- or threedimensional models can be used to account for the spatial variability of the soil hydraulic and transport properties. Since it is challenging to obtain such data, it is logical to find simpler approaches. Our objective was to design a onedimensional (1D) modeling approach that effectively accounts for plot- scale soil structure variability. A 1D dual- permeability model was tested in which compacted soil was represented by a matrix domain and uncompacted soil by a fracture domain and eventually by assuming an additional immobile water region (MIM) in the fracture domain representing compacted clods embedded within the uncompacted soil. Models (1D) were compared with two-dimensional single- porosity (2D_SP) modeling results for water flow and Br− transport based on a previously performed field tracer experiment. Results indicated good agreement between 1D dual-domain approaches (1D_DPERM and 1D_DPERM_MIM) and the 2D_SP representative model simulation results with high model efficiency and with respect to the field observations. This implied that a 1D vertical model description was sufficient to represent plot-scale variability if smaller scale soil structure heterogeneities could be accounted for as effective parameters in dual- domain models. Variation in the mass transfer term had a large effect on the vertical Br− profile distribution. The parameters describing the sizes and shapes of the domains were most relevant for estimating mass transfer between soil structural features in heterogeneous agricultural fields. Still, the calibration of the upscaling approach of two- domain interactions in larger scale models remains challenging.

Soil heterogeneity ; Transport model ; Dual-Domain Flow ; Mass Exchange

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Podaci o izdanju

18 (1)

2019.

180174

14

objavljeno

1539-1663

10.2136/vzj2018.09.0174

Trošak objave rada u otvorenom pristupu

APC

Povezanost rada

Interdisciplinarne prirodne znanosti, Poljoprivreda (agronomija)

Poveznice
Indeksiranost