Klas Rosén scite author profile

Under favourable conditions, soil ingestion by earthworm populations can be equivalent to approximately 5-10% of the topsoil mass per year. This suggests that for contaminants that are strongly bound to soil, earthworm 'bioturbation' may be a more important transport mechanism than water-borne advection dispersion. It is therefore quite surprising that few modelling studies to date have explicitly considered the effects of biological processes on contaminant transport in soil. In this study, we present a general model that incorporates the effects of both 'local' and 'non-local' biological mixing into the framework of the standard physical (advective-dispersive) transport model. The model is tested against measurements of the redistribution of caesium-137 ( 137 Cs) derived from the Chernobyl accident, in a grassland soil during 21 years after fallout. Three model parameters related to biological transport were calibrated within ranges defined by measured data and literature information on earthworm biomasses and feeding rates. Other parameters such as decay half-life and sorption constant were set to known or measured values. A physical advective-dispersive transport model based on measured sorption strongly underestimated the downward displacement of 137 Cs. A dye-tracing experiment suggested the occurrence of physical non-equilibrium transport in soil macropores, but this was inadequate to explain the extent of the deep penetration of 137 Cs observed at the site. A simple bio-diffusion model representing 'local' mixing worked reasonably well, but failed to reproduce the deep penetration of Cs as well as a dilution observed close to the soil surface. A comprehensive model including physical advectivedispersive transport, and both 'local' and 'non-local' mixing caused by the activities of both endogeic and anecic earthworms, gave an excellent match to the measured depth profiles of 137 Cs, with predictions mostly lying within confidence intervals for the means of measured data and model efficiencies exceeding 0.9 on all sampling occasions but the first.

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Effect of clear-felling and slash removal on the acidity of Northern coniferous soils

Nykvist

Rosén

1985

Forest Ecology and Management

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Downward migration of Chernobyl-derived radionuclides in soils in Poland and Sweden

Matisoff

Ketterer

Rosén

et al. 2011

Applied Geochemistry

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Accumulation of potassium, rubidium and caesium (133Cs and 137Cs) in various fractions of soil and fungi in a Swedish forest

Vinichuk

Taylor²,

Rosén

et al. 2010

Science of The Total Environment

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Klas Rosén

Migration of radiocaesium in Swedish soil profiles after the Chernobyl accident, 1987–1995

Modelling the effects of bioturbation on the re‐distribution of¹³⁷Cs in an undisturbed grassland soil

Effect of clear-felling and slash removal on the acidity of Northern coniferous soils

Downward migration of Chernobyl-derived radionuclides in soils in Poland and Sweden

Accumulation of potassium, rubidium and caesium (133Cs and 137Cs) in various fractions of soil and fungi in a Swedish forest

Contact Info

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About

Klas Rosén

Migration of radiocaesium in Swedish soil profiles after the Chernobyl accident, 1987–1995

Modelling the effects of bioturbation on the re‐distribution of137Cs in an undisturbed grassland soil

Effect of clear-felling and slash removal on the acidity of Northern coniferous soils

Downward migration of Chernobyl-derived radionuclides in soils in Poland and Sweden

Accumulation of potassium, rubidium and caesium (133Cs and 137Cs) in various fractions of soil and fungi in a Swedish forest

Contact Info

Product

Resources

About

Modelling the effects of bioturbation on the re‐distribution of¹³⁷Cs in an undisturbed grassland soil