Mobilisation of Al, Fe, and DOM from topsoil during simulated early Podzol development and subsequent DOM adsorption on model minerals

Podzols are characterised by mobilisation of metals, particularly Al and Fe, and dissolved organic matter (DOM) in topsoil horizons, and by immobilisation in subsoil horizons. We mimicked element mobilisation during early podzolisation by irrigating the AE horizon of a Dystric Arenosol with acetic a...

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Bibliographic Details
Published inScientific reports Vol. 11; no. 1; p. 19741
Main Authors Krettek, Agnes, Rennert, Thilo
Format Journal Article
LanguageEnglish
Published England Nature Publishing Group 05.10.2021
Nature Publishing Group UK
Nature Portfolio
Subjects
Acetic acid
Adsorption
Dissolved organic matter
Flow velocity
Goethite
Immobilization
Metals
Minerals
Montmorillonite
Phenolic compounds
Phenols
Podzolic soils
Podzols
Rainfall
Snowmelt
Subsoils
Topsoil
Velocity
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Summary:Podzols are characterised by mobilisation of metals, particularly Al and Fe, and dissolved organic matter (DOM) in topsoil horizons, and by immobilisation in subsoil horizons. We mimicked element mobilisation during early podzolisation by irrigating the AE horizon of a Dystric Arenosol with acetic acid at different flow velocities and applying flow interruptions to study rate-limited release in experiments with soil cylinders. We used eluates in batch experiments with goethite and Al-saturated montmorillonite to investigate DOM reactivity towards minerals. Both the flow velocity and flow interruptions affected element release, pointing to chemical non-equilibrium of release and to particles, containing Fe and OM mobilised at larger flow velocity, characteristic of heavy rain or snowmelt. Based on chemical extractions, the source of mobilised Al and Fe, the vast majority of which was complexed by DOM, was no oxide phase, but rather organic. Rate limitation also affected the composition of DOM released. Carboxyl and phenolic species were the most important species adsorbed by both minerals. However, DOM composition affected the extent of DOM adsorption on goethite more distinctly than that on montmorillonite. Our findings evidence that the intensity of soil percolation affects quantitative and qualitative element release during early podzolisation and adsorptive DOM retention in subsoil horizons.
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ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-021-99365-y