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Article Dans Une Revue Soil and Tillage Research Année : 2014

Modeling the migration of fallout radionuclides to quantify the contemporary transfer of fine particles in Luvisol profiles under different land uses and farming practices

Résumé

Soil mixing and the downward movement of solid matter in soils are dynamic pedological processes that strongly affect the vertical distribution of all soil properties across the soil profile. These processes are affected by land use and the implementation of various farming practices, but their kinetics have rarely been quantified. Our objective was to investigate the vertical transfer of matter in Luvisols at long-term experimental sites under different land uses (cropland, grassland and forest) and different farming practices (conventional tillage, reduced tillage and no tillage). To investigate these processes, the vertical radionuclide distributions of Cs-137 and Pb-210 (xs) were analyzed in 9 soil profiles. The mass balance calculations showed that as much as 91 +/- 9% of the Cs-137 was linked to the fine particles (<= 2 mu m). To assess the kinetics of radionuclide redistribution in soil, we modeled their depth profiles using a convection-diffusion equation. The diffusion coefficient represented the rate of bioturbation, and the convection velocity provided a proxy for fine particle leaching. Both parameters were modeled as either constant or variable with depth. The tillage was simulated using an empirical formula that considered the tillage depth and a variable mixing ratio depending on the type of tillage used. A loss of isotopes due to soil erosion was introduced into the model to account for the total radionuclide inventory. All of these parameters were optimized based on the Cs-137 data and were then subsequently applied to the Pb-210 (xs) data. Our results show that the Cs-137 isotopes migrate deeper under grasslands than under forests or croplands. Additionally, our results suggest that the diffusion coefficient decreased with depth and that it remained negligible below the tillage depth at the cropland sites, below 20 cm in the forest sites, and below 80 cm in the grassland sites. (C) 2014 Elsevier B.V. All rights reserved.
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Dates et versions

hal-01458016 , version 1 (26-05-2020)

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M. Jagercikova, O. Evrard, J. Balesdent, I. Lefevre, S. Cornu. Modeling the migration of fallout radionuclides to quantify the contemporary transfer of fine particles in Luvisol profiles under different land uses and farming practices. Soil and Tillage Research, 2014, 140, pp.82-97. ⟨10.1016/j.still.2014.02.013⟩. ⟨hal-01458016⟩
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