2021
DOI: 10.1038/s41598-021-99365-y
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Mobilisation of Al, Fe, and DOM from topsoil during simulated early Podzol development and subsequent DOM adsorption on model minerals

Abstract: 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 … Show more

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Cited by 13 publications
(5 citation statements)
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“…Unique characteristics of podzolic soils, such as increased acidity, higher exchangeable Al 3+ and Fe 2+ content, lower cation exchange, and water retention capacity result in higher P retention capacity and low soil P concentration (<0.01 mg P L −1 ), typical in boreal agroecosystems (Pierzynski et al, 2005 ; Paul et al, 2011 ). Under natural conditions, the podzolization process facilitates leaching of cations such as Al 3+ , Fe 2+ , and Ca 2+ , dissolved organic matter, and chelates from organic layers or eluviated profiles that accumulated in illuviated profiles (Paul et al, 2011 ; Grand and Lavkulich, 2013 ; Krettek and Rennert, 2021 ). However, most agricultural podzolic soils have lost the organic and eluviated profile or a small proportion is mixed with illuviated B horizon rich in Al and Fe minerals during initial or successive soil preparation (Paul et al, 2011 ).…”
Section: Phosphorus In Podzolic Soilsmentioning
confidence: 99%
“…Unique characteristics of podzolic soils, such as increased acidity, higher exchangeable Al 3+ and Fe 2+ content, lower cation exchange, and water retention capacity result in higher P retention capacity and low soil P concentration (<0.01 mg P L −1 ), typical in boreal agroecosystems (Pierzynski et al, 2005 ; Paul et al, 2011 ). Under natural conditions, the podzolization process facilitates leaching of cations such as Al 3+ , Fe 2+ , and Ca 2+ , dissolved organic matter, and chelates from organic layers or eluviated profiles that accumulated in illuviated profiles (Paul et al, 2011 ; Grand and Lavkulich, 2013 ; Krettek and Rennert, 2021 ). However, most agricultural podzolic soils have lost the organic and eluviated profile or a small proportion is mixed with illuviated B horizon rich in Al and Fe minerals during initial or successive soil preparation (Paul et al, 2011 ).…”
Section: Phosphorus In Podzolic Soilsmentioning
confidence: 99%
“…2). Preferential flow responsible for the concentration patterns should be of minor importance in the extremely sandy soils, as previously discussed 12 . Concentrations after the first interruption exceeded those of the first flush and were partially very high, for instance c(Fe) > 70 mg L −1 (Fig.…”
Section: Resultsmentioning
confidence: 75%
“…Furthermore, there was no significant effect of the degree of podzolisation on the total element concentrations. First flush is a common feature of element release in the initial phase of column experiments, pointing to mobilisation of particles or rate-limited desorption or dissolution 12,31,32 . Non-equilibrium release became more evident after the longer interruption of irrigation after 10 pv eluted, and to smaller extent after the shorter irrigation after 20 pv eluted (Fig.…”
Section: Resultsmentioning
confidence: 99%
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“…Although the depth of the direct influence by roots is limited to the extension of the root system, percolating DOM from upper soil horizons can transfer OC into much deeper soil regions. This depth migration is dependent of the water flow in the vadose zone and OC retention at mineral surfaces (Krettek & Rennert, 2021; McCarthy, 2005; Merdy et al., 2021), implying that soil texture can have a major influence on OC mobility.…”
Section: Introductionmentioning
confidence: 99%