Short-term phosphorus sorption and desorption in contrasting cropped Vertisols

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Short-term phosphorus sorption and desorption in contrasting cropped Vertisols. / Raymond, Nelly S.; Kopittke, Peter M.; van der Bom, Frederik J.T.; Barrow, N. J.; Bell, Michael J.

In: European Journal of Soil Science, Vol. 74, No. 5, e13418, 2023.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Raymond, NS, Kopittke, PM, van der Bom, FJT, Barrow, NJ & Bell, MJ 2023, 'Short-term phosphorus sorption and desorption in contrasting cropped Vertisols', European Journal of Soil Science, vol. 74, no. 5, e13418. https://doi.org/10.1111/ejss.13418

APA

Raymond, N. S., Kopittke, P. M., van der Bom, F. J. T., Barrow, N. J., & Bell, M. J. (2023). Short-term phosphorus sorption and desorption in contrasting cropped Vertisols. European Journal of Soil Science, 74(5), [e13418]. https://doi.org/10.1111/ejss.13418

Vancouver

Raymond NS, Kopittke PM, van der Bom FJT, Barrow NJ, Bell MJ. Short-term phosphorus sorption and desorption in contrasting cropped Vertisols. European Journal of Soil Science. 2023;74(5). e13418. https://doi.org/10.1111/ejss.13418

Author

Raymond, Nelly S. ; Kopittke, Peter M. ; van der Bom, Frederik J.T. ; Barrow, N. J. ; Bell, Michael J. / Short-term phosphorus sorption and desorption in contrasting cropped Vertisols. In: European Journal of Soil Science. 2023 ; Vol. 74, No. 5.

Bibtex

@article{489d7a3b5ffc4eb4b0b9be074e840673,
title = "Short-term phosphorus sorption and desorption in contrasting cropped Vertisols",
abstract = "Vertisols are important cropping soils in tropical and subtropical areas, but in many regions, decades of cropping has substantially reduced concentrations of plant-available phosphorus (P), especially in the subsoil layers. Phosphorus behaviour in P-depleted Vertisols has received comparatively little attention, and the availability of P following the addition of inorganic P fertilisers at different concentrations is poorly understood. In this study, we evaluated short-term P sorption and desorption behaviour in cropped Vertisols in relation to specific soil physical and chemical properties. We collected the surface and subsurface of 15 Australian soils with a broad range of physical and chemical properties, comprising nine Vertisols, three Ferralsols, two Lixisols and one Calcisol. For each soil, we generated sorption and desorption curves (fitted with a Freundlich equation), determined soil physical and chemical properties likely to influence P sorption and evaluated the relationships between the measured soil properties and the Freundlich equation sorption coefficients. The P sorption curves differed drastically between soils, with the sorption equation coefficients (aS × b) significantly correlated with the P buffering index (PBI) and clay content. Clay content itself was correlated with citrate-extractable Fe and Al oxides and BET surface area. Vertisols formed on basaltic parent materials had greater Fe and Al oxide concentrations, resulting in an overall greater P sorption capacity. Sorption and desorption hysteresis were mostly small. The reacting materials in these soils probably had limited ability to continue to react with P. The Vertisols differed in their capacity to replenish P in the soil solution by desorbing different proportions of previously sorbed P, although the proportion of desorbable P generally increased with greater concentrations of sorbed P. These results suggest that for fertiliser management in these soils, smaller volumes of P enrichment combined with higher P concentrations may result in a greater P recovery by the crop.",
keywords = "fertiliser, Freundlich, modelling, phosphorus availability, soil test, sorption, Vertisol",
author = "Raymond, {Nelly S.} and Kopittke, {Peter M.} and {van der Bom}, {Frederik J.T.} and Barrow, {N. J.} and Bell, {Michael J.}",
note = "Publisher Copyright: {\textcopyright} 2023 The Authors. European Journal of Soil Science published by John Wiley & Sons Ltd on behalf of British Society of Soil Science.",
year = "2023",
doi = "10.1111/ejss.13418",
language = "English",
volume = "74",
journal = "Journal of Soil Sciences",
issn = "1351-0754",
publisher = "Wiley-Blackwell",
number = "5",

}

RIS

TY - JOUR

T1 - Short-term phosphorus sorption and desorption in contrasting cropped Vertisols

AU - Raymond, Nelly S.

AU - Kopittke, Peter M.

AU - van der Bom, Frederik J.T.

AU - Barrow, N. J.

AU - Bell, Michael J.

N1 - Publisher Copyright: © 2023 The Authors. European Journal of Soil Science published by John Wiley & Sons Ltd on behalf of British Society of Soil Science.

PY - 2023

Y1 - 2023

N2 - Vertisols are important cropping soils in tropical and subtropical areas, but in many regions, decades of cropping has substantially reduced concentrations of plant-available phosphorus (P), especially in the subsoil layers. Phosphorus behaviour in P-depleted Vertisols has received comparatively little attention, and the availability of P following the addition of inorganic P fertilisers at different concentrations is poorly understood. In this study, we evaluated short-term P sorption and desorption behaviour in cropped Vertisols in relation to specific soil physical and chemical properties. We collected the surface and subsurface of 15 Australian soils with a broad range of physical and chemical properties, comprising nine Vertisols, three Ferralsols, two Lixisols and one Calcisol. For each soil, we generated sorption and desorption curves (fitted with a Freundlich equation), determined soil physical and chemical properties likely to influence P sorption and evaluated the relationships between the measured soil properties and the Freundlich equation sorption coefficients. The P sorption curves differed drastically between soils, with the sorption equation coefficients (aS × b) significantly correlated with the P buffering index (PBI) and clay content. Clay content itself was correlated with citrate-extractable Fe and Al oxides and BET surface area. Vertisols formed on basaltic parent materials had greater Fe and Al oxide concentrations, resulting in an overall greater P sorption capacity. Sorption and desorption hysteresis were mostly small. The reacting materials in these soils probably had limited ability to continue to react with P. The Vertisols differed in their capacity to replenish P in the soil solution by desorbing different proportions of previously sorbed P, although the proportion of desorbable P generally increased with greater concentrations of sorbed P. These results suggest that for fertiliser management in these soils, smaller volumes of P enrichment combined with higher P concentrations may result in a greater P recovery by the crop.

AB - Vertisols are important cropping soils in tropical and subtropical areas, but in many regions, decades of cropping has substantially reduced concentrations of plant-available phosphorus (P), especially in the subsoil layers. Phosphorus behaviour in P-depleted Vertisols has received comparatively little attention, and the availability of P following the addition of inorganic P fertilisers at different concentrations is poorly understood. In this study, we evaluated short-term P sorption and desorption behaviour in cropped Vertisols in relation to specific soil physical and chemical properties. We collected the surface and subsurface of 15 Australian soils with a broad range of physical and chemical properties, comprising nine Vertisols, three Ferralsols, two Lixisols and one Calcisol. For each soil, we generated sorption and desorption curves (fitted with a Freundlich equation), determined soil physical and chemical properties likely to influence P sorption and evaluated the relationships between the measured soil properties and the Freundlich equation sorption coefficients. The P sorption curves differed drastically between soils, with the sorption equation coefficients (aS × b) significantly correlated with the P buffering index (PBI) and clay content. Clay content itself was correlated with citrate-extractable Fe and Al oxides and BET surface area. Vertisols formed on basaltic parent materials had greater Fe and Al oxide concentrations, resulting in an overall greater P sorption capacity. Sorption and desorption hysteresis were mostly small. The reacting materials in these soils probably had limited ability to continue to react with P. The Vertisols differed in their capacity to replenish P in the soil solution by desorbing different proportions of previously sorbed P, although the proportion of desorbable P generally increased with greater concentrations of sorbed P. These results suggest that for fertiliser management in these soils, smaller volumes of P enrichment combined with higher P concentrations may result in a greater P recovery by the crop.

KW - fertiliser

KW - Freundlich

KW - modelling

KW - phosphorus availability

KW - soil test

KW - sorption

KW - Vertisol

U2 - 10.1111/ejss.13418

DO - 10.1111/ejss.13418

M3 - Journal article

AN - SCOPUS:85171687672

VL - 74

JO - Journal of Soil Sciences

JF - Journal of Soil Sciences

SN - 1351-0754

IS - 5

M1 - e13418

ER -

ID: 372810960