Assessment of labile phosphorus fractions and adsorption characteristics in relation to soil properties of West African savanna soils

Assessment of labile phosphorus fractions and adsorption characteristics in relation to soil properties of West African savanna soils

A large proportion of total P in the soils of the area is unavailable to plants and consequently P is the second most limiting nutrient. The labile and moderately labile phosphorus fractions and adsorption characteristics of surface and subsurface horizons of eleven soil profiles in the derived savanna (DS) and the northern Guinea savanna (NGS) of West Africa were assessed. The labile P fractions are the resin and HCO3-extractable inorganic (Pi) and organic (Po) P. The moderately labile fractions are the NaOH-extractable portion of soil P in the Hedley sequential procedure. In the DS soils, the resin P, considered the most readily available fraction, varied from 1 to 14 mg kg−1, HCO3-Pi ranged from 3.3 to 11, and HCO3-PO was between 4 and 12 mg kg−1 in the surface horizon. In the NGS, the topsoil contained 1.5–3 mg kg−1 of resin P, 5–8 mg kg−1 of HCO3-Pi, and 7.5–9.7 mg kg−1 of HCO3-Po. Sodium hydroxide-Po was the largest of the fractions in all the soils studied. It ranged from 23 to 55 mg kg−1 in the topsoil. In general, the labile P levels were higher in soils of the DS than of the NGS and were related to the oxalate-extractable Fe (Feox), and Al (Alox) as well as to soil texture. The subsoil of Kasuwan Magani (profile KS 9–21 cm) required 153 mg P kg−1 to maintain 0.2 mg P l−1 in solution (standard P requirement), and Danayamaka (profile DD 7–32 cm) required 145 mg P kg−1. These could translate to 214 and 200 kg P ha−1 if a plow layer of 10 cm is assumed. Because these are within the plow layer, more P fertilizer would be needed for crop production than in the other soils. The standard P requirement and the adsorption maxima were related to Feox and Alox, dithionite-Fe (Fed), and texture. The increase in labile P content with decreasing Feox and Alox could imply that management practices capable of reducing the activities of Fe and Al in solution might improve P availability.

Saved in:
Bibliographic Details
Main Authors: Nwoke, O.C., Vanlauwe, Bernard, Diels, J., Sanginga, N., Osonubi, O., Merckx, R.
Format: Journal Article biblioteca
Language:English
Published: Elsevier 2003-12
Subjects:phosphorus, soil properties, savannas, soil,
Online Access:https://hdl.handle.net/10568/96364
https://doi.org/10.1016/S0167-8809(03)00186-5
Tags: Add Tag
No Tags, Be the first to tag this record!
id dig-cgspace-10568-96364
record_format koha
spelling dig-cgspace-10568-963642023-12-08T19:36:04Z Assessment of labile phosphorus fractions and adsorption characteristics in relation to soil properties of West African savanna soils Nwoke, O.C. Vanlauwe, Bernard Diels, J. Sanginga, N. Osonubi, O. Merckx, R. phosphorus soil properties savannas soil A large proportion of total P in the soils of the area is unavailable to plants and consequently P is the second most limiting nutrient. The labile and moderately labile phosphorus fractions and adsorption characteristics of surface and subsurface horizons of eleven soil profiles in the derived savanna (DS) and the northern Guinea savanna (NGS) of West Africa were assessed. The labile P fractions are the resin and HCO3-extractable inorganic (Pi) and organic (Po) P. The moderately labile fractions are the NaOH-extractable portion of soil P in the Hedley sequential procedure. In the DS soils, the resin P, considered the most readily available fraction, varied from 1 to 14 mg kg−1, HCO3-Pi ranged from 3.3 to 11, and HCO3-PO was between 4 and 12 mg kg−1 in the surface horizon. In the NGS, the topsoil contained 1.5–3 mg kg−1 of resin P, 5–8 mg kg−1 of HCO3-Pi, and 7.5–9.7 mg kg−1 of HCO3-Po. Sodium hydroxide-Po was the largest of the fractions in all the soils studied. It ranged from 23 to 55 mg kg−1 in the topsoil. In general, the labile P levels were higher in soils of the DS than of the NGS and were related to the oxalate-extractable Fe (Feox), and Al (Alox) as well as to soil texture. The subsoil of Kasuwan Magani (profile KS 9–21 cm) required 153 mg P kg−1 to maintain 0.2 mg P l−1 in solution (standard P requirement), and Danayamaka (profile DD 7–32 cm) required 145 mg P kg−1. These could translate to 214 and 200 kg P ha−1 if a plow layer of 10 cm is assumed. Because these are within the plow layer, more P fertilizer would be needed for crop production than in the other soils. The standard P requirement and the adsorption maxima were related to Feox and Alox, dithionite-Fe (Fed), and texture. The increase in labile P content with decreasing Feox and Alox could imply that management practices capable of reducing the activities of Fe and Al in solution might improve P availability. 2003-12 2018-08-09T06:40:32Z 2018-08-09T06:40:32Z Journal Article Nwoke, O.C., Vanlauwe, B., Diels, J., Sanginga, N., Osonubi, O. & Merckx, R. (2003). Assessment of labile phosphorus fractions and adsorption characteristics in relation to soil properties of West African savanna soils. Agriculture, Ecosystems & Environment, 100(2-3), 285-294. 0167-8809 https://hdl.handle.net/10568/96364 https://doi.org/10.1016/S0167-8809(03)00186-5 en Copyrighted; all rights reserved Limited Access p. 285-294 Elsevier
institution CGIAR
collection DSpace
country Francia
countrycode FR
component Bibliográfico
access En linea
databasecode dig-cgspace
tag biblioteca
region Europa del Oeste
libraryname Biblioteca del CGIAR
language English
topic phosphorus
soil properties
savannas
soil
phosphorus
soil properties
savannas
soil
spellingShingle phosphorus
soil properties
savannas
soil
phosphorus
soil properties
savannas
soil
Nwoke, O.C.
Vanlauwe, Bernard
Diels, J.
Sanginga, N.
Osonubi, O.
Merckx, R.
Assessment of labile phosphorus fractions and adsorption characteristics in relation to soil properties of West African savanna soils
description A large proportion of total P in the soils of the area is unavailable to plants and consequently P is the second most limiting nutrient. The labile and moderately labile phosphorus fractions and adsorption characteristics of surface and subsurface horizons of eleven soil profiles in the derived savanna (DS) and the northern Guinea savanna (NGS) of West Africa were assessed. The labile P fractions are the resin and HCO3-extractable inorganic (Pi) and organic (Po) P. The moderately labile fractions are the NaOH-extractable portion of soil P in the Hedley sequential procedure. In the DS soils, the resin P, considered the most readily available fraction, varied from 1 to 14 mg kg−1, HCO3-Pi ranged from 3.3 to 11, and HCO3-PO was between 4 and 12 mg kg−1 in the surface horizon. In the NGS, the topsoil contained 1.5–3 mg kg−1 of resin P, 5–8 mg kg−1 of HCO3-Pi, and 7.5–9.7 mg kg−1 of HCO3-Po. Sodium hydroxide-Po was the largest of the fractions in all the soils studied. It ranged from 23 to 55 mg kg−1 in the topsoil. In general, the labile P levels were higher in soils of the DS than of the NGS and were related to the oxalate-extractable Fe (Feox), and Al (Alox) as well as to soil texture. The subsoil of Kasuwan Magani (profile KS 9–21 cm) required 153 mg P kg−1 to maintain 0.2 mg P l−1 in solution (standard P requirement), and Danayamaka (profile DD 7–32 cm) required 145 mg P kg−1. These could translate to 214 and 200 kg P ha−1 if a plow layer of 10 cm is assumed. Because these are within the plow layer, more P fertilizer would be needed for crop production than in the other soils. The standard P requirement and the adsorption maxima were related to Feox and Alox, dithionite-Fe (Fed), and texture. The increase in labile P content with decreasing Feox and Alox could imply that management practices capable of reducing the activities of Fe and Al in solution might improve P availability.
format Journal Article
topic_facet phosphorus
soil properties
savannas
soil
author Nwoke, O.C.
Vanlauwe, Bernard
Diels, J.
Sanginga, N.
Osonubi, O.
Merckx, R.
author_facet Nwoke, O.C.
Vanlauwe, Bernard
Diels, J.
Sanginga, N.
Osonubi, O.
Merckx, R.
author_sort Nwoke, O.C.
title Assessment of labile phosphorus fractions and adsorption characteristics in relation to soil properties of West African savanna soils
title_short Assessment of labile phosphorus fractions and adsorption characteristics in relation to soil properties of West African savanna soils
title_full Assessment of labile phosphorus fractions and adsorption characteristics in relation to soil properties of West African savanna soils
title_fullStr Assessment of labile phosphorus fractions and adsorption characteristics in relation to soil properties of West African savanna soils
title_full_unstemmed Assessment of labile phosphorus fractions and adsorption characteristics in relation to soil properties of West African savanna soils
title_sort assessment of labile phosphorus fractions and adsorption characteristics in relation to soil properties of west african savanna soils
publisher Elsevier
publishDate 2003-12
url https://hdl.handle.net/10568/96364
https://doi.org/10.1016/S0167-8809(03)00186-5
work_keys_str_mv AT nwokeoc assessmentoflabilephosphorusfractionsandadsorptioncharacteristicsinrelationtosoilpropertiesofwestafricansavannasoils
AT vanlauwebernard assessmentoflabilephosphorusfractionsandadsorptioncharacteristicsinrelationtosoilpropertiesofwestafricansavannasoils
AT dielsj assessmentoflabilephosphorusfractionsandadsorptioncharacteristicsinrelationtosoilpropertiesofwestafricansavannasoils
AT sangingan assessmentoflabilephosphorusfractionsandadsorptioncharacteristicsinrelationtosoilpropertiesofwestafricansavannasoils
AT osonubio assessmentoflabilephosphorusfractionsandadsorptioncharacteristicsinrelationtosoilpropertiesofwestafricansavannasoils
AT merckxr assessmentoflabilephosphorusfractionsandadsorptioncharacteristicsinrelationtosoilpropertiesofwestafricansavannasoils
_version_ 1787230617249775616

Similar Items