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Long-term land use and tillage influence on phosphorus species in Brazilian Oxisols: A multi-technique assessment by chemical P fractionation, 31P NMR and P K-edge XANES spectroscopies

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Long-term land use and tillage influence on phosphorus species in Brazilian Oxisols: A multi-technique assessment by chemical P fractionation, 31P NMR and P K-edge XANES spectroscopies. / Rodrigues, M.; Soltangheisi, A.; Abdala, D.B. et al.
In: Soil and Tillage Research, Vol. 229, 105683, 31.05.2023.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Rodrigues, M, Soltangheisi, A, Abdala, DB, Ebuele, VO, Thoss, V, Withers, PJA & Pavinato, PS 2023, 'Long-term land use and tillage influence on phosphorus species in Brazilian Oxisols: A multi-technique assessment by chemical P fractionation, 31P NMR and P K-edge XANES spectroscopies', Soil and Tillage Research, vol. 229, 105683. https://doi.org/10.1016/j.still.2023.105683

APA

Rodrigues, M., Soltangheisi, A., Abdala, D. B., Ebuele, V. O., Thoss, V., Withers, P. J. A., & Pavinato, P. S. (2023). Long-term land use and tillage influence on phosphorus species in Brazilian Oxisols: A multi-technique assessment by chemical P fractionation, 31P NMR and P K-edge XANES spectroscopies. Soil and Tillage Research, 229, Article 105683. https://doi.org/10.1016/j.still.2023.105683

Vancouver

Rodrigues M, Soltangheisi A, Abdala DB, Ebuele VO, Thoss V, Withers PJA et al. Long-term land use and tillage influence on phosphorus species in Brazilian Oxisols: A multi-technique assessment by chemical P fractionation, 31P NMR and P K-edge XANES spectroscopies. Soil and Tillage Research. 2023 May 31;229:105683. Epub 2023 Feb 28. doi: 10.1016/j.still.2023.105683

Author

Rodrigues, M. ; Soltangheisi, A. ; Abdala, D.B. et al. / Long-term land use and tillage influence on phosphorus species in Brazilian Oxisols : A multi-technique assessment by chemical P fractionation, 31P NMR and P K-edge XANES spectroscopies. In: Soil and Tillage Research. 2023 ; Vol. 229.

Bibtex

@article{d3588c0d552942678cb152f9d77cca72,
title = "Long-term land use and tillage influence on phosphorus species in Brazilian Oxisols: A multi-technique assessment by chemical P fractionation, 31P NMR and P K-edge XANES spectroscopies",
abstract = "Phosphorus (P) interacts with soil constituents in many ways, forming compounds of distinct stabilities in a number of chemical inorganic and organic forms. The identification of these P compounds in tropical agro-ecosystems is especially relevant to understanding potential P availability in these common P-fixing soils, providing information to improve P use efficiency. In this study, we investigated P partitioning and speciation in Brazilian Cerrado Oxisols under different management systems using a combination of sequential chemical P fractionation (SPF), P K-edge XANES and 31P NMR spectroscopy. Topsoil (0–10 cm) samples were obtained from soils under three management regimes, including native vegetation (Cerrado), no-tillage (NT), and conventional tillage (CT) agriculture. Four representative agricultural sites in the Brazilian Cerrado were selected: Ox-1 (Costa Rica-MS), Ox-2 (Sapezal-MT), Ox-3 (Cristalina-GO) and Ox-4 (Tasso Fragoso-MA). In all sites, the soils are classified as Typic Hapludox, varying in cultivation time, soil clay content and oxide types. Long-term cultivation in NT and CT led to large P accumulation in the soil. Chemical P fractionation indicated that labile P was the smallest pool at all sites. P K-edge XANES showed that P is mostly sorbed to the Fe and Al hydr(oxides), goethite, hematite and gibbsite. It also showed that phytate was the predominant organic P species, depleting in sequence from native vegetation to NT and CT management systems. 31P NMR showed that monoester P was present in all soils and management systems, whereas diester-P was found only in soils under native vegetation. The combined use of SPF, XANES and 31P NMR data was necessary to fully understand inorganic and organic P chemistry and reactivity in these tropical agricultural croplands.",
keywords = "Hedley's P fractionation, Nuclear magnetic resonance, P-EXAFS, Phosphorus speciation",
author = "M. Rodrigues and A. Soltangheisi and D.B. Abdala and V.O. Ebuele and V. Thoss and P.J.A. Withers and P.S. Pavinato",
year = "2023",
month = may,
day = "31",
doi = "10.1016/j.still.2023.105683",
language = "English",
volume = "229",
journal = "Soil and Tillage Research",
issn = "0167-1987",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Long-term land use and tillage influence on phosphorus species in Brazilian Oxisols

T2 - A multi-technique assessment by chemical P fractionation, 31P NMR and P K-edge XANES spectroscopies

AU - Rodrigues, M.

AU - Soltangheisi, A.

AU - Abdala, D.B.

AU - Ebuele, V.O.

AU - Thoss, V.

AU - Withers, P.J.A.

AU - Pavinato, P.S.

PY - 2023/5/31

Y1 - 2023/5/31

N2 - Phosphorus (P) interacts with soil constituents in many ways, forming compounds of distinct stabilities in a number of chemical inorganic and organic forms. The identification of these P compounds in tropical agro-ecosystems is especially relevant to understanding potential P availability in these common P-fixing soils, providing information to improve P use efficiency. In this study, we investigated P partitioning and speciation in Brazilian Cerrado Oxisols under different management systems using a combination of sequential chemical P fractionation (SPF), P K-edge XANES and 31P NMR spectroscopy. Topsoil (0–10 cm) samples were obtained from soils under three management regimes, including native vegetation (Cerrado), no-tillage (NT), and conventional tillage (CT) agriculture. Four representative agricultural sites in the Brazilian Cerrado were selected: Ox-1 (Costa Rica-MS), Ox-2 (Sapezal-MT), Ox-3 (Cristalina-GO) and Ox-4 (Tasso Fragoso-MA). In all sites, the soils are classified as Typic Hapludox, varying in cultivation time, soil clay content and oxide types. Long-term cultivation in NT and CT led to large P accumulation in the soil. Chemical P fractionation indicated that labile P was the smallest pool at all sites. P K-edge XANES showed that P is mostly sorbed to the Fe and Al hydr(oxides), goethite, hematite and gibbsite. It also showed that phytate was the predominant organic P species, depleting in sequence from native vegetation to NT and CT management systems. 31P NMR showed that monoester P was present in all soils and management systems, whereas diester-P was found only in soils under native vegetation. The combined use of SPF, XANES and 31P NMR data was necessary to fully understand inorganic and organic P chemistry and reactivity in these tropical agricultural croplands.

AB - Phosphorus (P) interacts with soil constituents in many ways, forming compounds of distinct stabilities in a number of chemical inorganic and organic forms. The identification of these P compounds in tropical agro-ecosystems is especially relevant to understanding potential P availability in these common P-fixing soils, providing information to improve P use efficiency. In this study, we investigated P partitioning and speciation in Brazilian Cerrado Oxisols under different management systems using a combination of sequential chemical P fractionation (SPF), P K-edge XANES and 31P NMR spectroscopy. Topsoil (0–10 cm) samples were obtained from soils under three management regimes, including native vegetation (Cerrado), no-tillage (NT), and conventional tillage (CT) agriculture. Four representative agricultural sites in the Brazilian Cerrado were selected: Ox-1 (Costa Rica-MS), Ox-2 (Sapezal-MT), Ox-3 (Cristalina-GO) and Ox-4 (Tasso Fragoso-MA). In all sites, the soils are classified as Typic Hapludox, varying in cultivation time, soil clay content and oxide types. Long-term cultivation in NT and CT led to large P accumulation in the soil. Chemical P fractionation indicated that labile P was the smallest pool at all sites. P K-edge XANES showed that P is mostly sorbed to the Fe and Al hydr(oxides), goethite, hematite and gibbsite. It also showed that phytate was the predominant organic P species, depleting in sequence from native vegetation to NT and CT management systems. 31P NMR showed that monoester P was present in all soils and management systems, whereas diester-P was found only in soils under native vegetation. The combined use of SPF, XANES and 31P NMR data was necessary to fully understand inorganic and organic P chemistry and reactivity in these tropical agricultural croplands.

KW - Hedley's P fractionation

KW - Nuclear magnetic resonance

KW - P-EXAFS

KW - Phosphorus speciation

U2 - 10.1016/j.still.2023.105683

DO - 10.1016/j.still.2023.105683

M3 - Journal article

VL - 229

JO - Soil and Tillage Research

JF - Soil and Tillage Research

SN - 0167-1987

M1 - 105683

ER -