Determination of phosphorus pools, sorption capacity and supply potential of agricultural soils of Tigray, Northern Ethiopia

Phosphorus (P) is a major limiting nutrient for food production in Ethiopian agricultural soils, primarily due to low P fertilizer application and strong P fixation caused by inherent soil properties. Understanding the supply potential and distribution of soil P pools is essential for optimising P f...

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Published inGeoderma Regional Vol. 41; p. e00970
Main Authors Reda, Gidena T., Breure, Mirjam S., Wall, David P., Reda, Abbadi G., Creamer, Rachel E.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.06.2025
Subjects
Hedley fractionation
Mehlich 3
Phosphorus
Sorption capacity
Supply potential
Mehlich 3
Phosphorus
Sorption capacity
Supply potential
Hedley fractionation
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Abstract Phosphorus (P) is a major limiting nutrient for food production in Ethiopian agricultural soils, primarily due to low P fertilizer application and strong P fixation caused by inherent soil properties. Understanding the supply potential and distribution of soil P pools is essential for optimising P fertilizer recommendations, particularly in Northern Ethiopian soils, where strong P fixation occurs due to highly weathered soil minerals, and associated soil properties, which affect P availability. The objectives of this study were to: (i) investigate the distribution of P across different soil P pools and (ii) examine the P sorption capacity and supply potential of agricultural soils in relation to P availability as controlled by Ca/P and Al/P ratios. Soil samples were collected from forty-three locations across three districts in northern Ethiopia: Endamekhoni (ED), Laelay-Maichew (LM) and Atsbi-Wenberta (AW). Availability and distribution of P across different soil P pools were assessed using Mehlich3 (M3) extraction and Hedley sequential extraction scheme, respectively. Soil total P was highly variable across sites, ranging between 348 and 3108 mg kg−1. The availability of P was plotted against ratios of Ca and Al over P to identify change points, indicative of P supply potential to crops. Results showed that the change points for P supply potential were different across the three districts, likely reflecting differences in soil parent materials. The Ca/P ratio change points that determine the availability of P in soils were 696:1, 1926:1 and 401:1, for the districts of ED, LM and AW, respectively. Similarly, the change points of Al/P ratio for the ED, LM and AW were 97:1, 284:1, and 30:1, respectively. The accessibility of P for plant uptake increased when the ratios of Ca/P and Al/P were below the change points and vice versa. In conclusion P fertilizer recommendations should consider the change points of Ca/P and Al/P ratios, as these ratios control the bioavailability of soil P and elucidate the P sorption capacity and supply potential of the Ethiopian agricultural soils.
AbstractList Phosphorus (P) is a major limiting nutrient for food production in Ethiopian agricultural soils, primarily due to low P fertilizer application and strong P fixation caused by inherent soil properties. Understanding the supply potential and distribution of soil P pools is essential for optimising P fertilizer recommendations, particularly in Northern Ethiopian soils, where strong P fixation occurs due to highly weathered soil minerals, and associated soil properties, which affect P availability. The objectives of this study were to: (i) investigate the distribution of P across different soil P pools and (ii) examine the P sorption capacity and supply potential of agricultural soils in relation to P availability as controlled by Ca/P and Al/P ratios. Soil samples were collected from forty-three locations across three districts in northern Ethiopia: Endamekhoni (ED), Laelay-Maichew (LM) and Atsbi-Wenberta (AW). Availability and distribution of P across different soil P pools were assessed using Mehlich3 (M3) extraction and Hedley sequential extraction scheme, respectively. Soil total P was highly variable across sites, ranging between 348 and 3108 mg kg−1. The availability of P was plotted against ratios of Ca and Al over P to identify change points, indicative of P supply potential to crops. Results showed that the change points for P supply potential were different across the three districts, likely reflecting differences in soil parent materials. The Ca/P ratio change points that determine the availability of P in soils were 696:1, 1926:1 and 401:1, for the districts of ED, LM and AW, respectively. Similarly, the change points of Al/P ratio for the ED, LM and AW were 97:1, 284:1, and 30:1, respectively. The accessibility of P for plant uptake increased when the ratios of Ca/P and Al/P were below the change points and vice versa. In conclusion P fertilizer recommendations should consider the change points of Ca/P and Al/P ratios, as these ratios control the bioavailability of soil P and elucidate the P sorption capacity and supply potential of the Ethiopian agricultural soils.
ArticleNumber e00970
Author Creamer, Rachel E.
Wall, David P.
Reda, Gidena T.
Breure, Mirjam S.
Reda, Abbadi G.
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  givenname: Gidena T.
  surname: Reda
  fullname: Reda, Gidena T.
  email: gidenatasew@gmail.com
  organization: Soil Biology Chair Group, Wageningen University and Research, P.O. Box 47, 6700 AA Wageningen, the Netherlands
– sequence: 2
  givenname: Mirjam S.
  surname: Breure
  fullname: Breure, Mirjam S.
  organization: Soil Biology Chair Group, Wageningen University and Research, P.O. Box 47, 6700 AA Wageningen, the Netherlands
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  givenname: David P.
  surname: Wall
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  givenname: Abbadi G.
  surname: Reda
  fullname: Reda, Abbadi G.
  organization: Tigray Agricultural Research Institute, P.O. Box: 1070, Mekelle, Ethiopia
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  givenname: Rachel E.
  surname: Creamer
  fullname: Creamer, Rachel E.
  organization: Soil Biology Chair Group, Wageningen University and Research, P.O. Box 47, 6700 AA Wageningen, the Netherlands
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Keywords Mehlich 3
Phosphorus
Sorption capacity
Supply potential
Hedley fractionation
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Snippet Phosphorus (P) is a major limiting nutrient for food production in Ethiopian agricultural soils, primarily due to low P fertilizer application and strong P...
SourceID crossref
elsevier
SourceType Index Database
Publisher
StartPage e00970
SubjectTerms Hedley fractionation
Mehlich 3
Phosphorus
Sorption capacity
Supply potential
Title Determination of phosphorus pools, sorption capacity and supply potential of agricultural soils of Tigray, Northern Ethiopia
URI https://dx.doi.org/10.1016/j.geodrs.2025.e00970
Volume 41
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