Long-term effects of bone char and lignocellulosic biochar-based soil amendments on phosphorus adsorption–desorption and crop yield in low-input acidic soils

Long-term effects of bone char and lignocellulosic biochar-based soil amendments on phosphorus adsorption–desorption and crop yield in low-input acidic soils

Although the addition of biochar has been shown to reduce the phosphorus (P) adsorption capacity of soil, quantitative evidence of this has mainly been provided by incubation experiments and it is, therefore, essential to conducting long-term field trials to draw general conclusions. It is largely unknown whether bone char has a greater effect than lignocellulosic biochar on P adsorption-desorption processes and crop yield. The aim of this study was to determine the long-term (8 years) effect of bone char and biochar on P adsorption-desorption and crop yield in low-input acidic soils. The results showed that bone char decreased the maximum P adsorption capacity (Qm) by 10% and increased the desorption capacity (Ds) by 150% compared with the control (i.e. without a soil amendment). The desorption ratio was highest for the bone char treatment (10.3%) and three times more than the control. Plant-available P was seven times greater under bone char than the control. There was no variation in adsorption-desorption characteristics, desorption ratio and plant-P available content between bone char and lignocellulosic biochar treatments. The average yield increment following the application of bone char and biochar was 1.7 and 1.4 Mg ha−1 for maize and 1.8 and 1.9 Mg ha−1 for soya bean, respectively. Despite the low application rate (4 t ha−1 year−1), these findings demonstrated that the long-term application of bone char and biochar-based amendments enhanced P availability in low-input cropping systems, mainly by altering the P adsorption and desorption capacity of soils.

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Main Authors: Wakweya, Temsegen, Nigussie, Abebe, Worku, Gebeyanesh, Biresaw, Armaye, Aticho, Abebayehu, Hirko, Obsu, Ambaw, Gebermedihin, Mamuye, Melkamu, Dume, Bayu, Ahmed, Milkiyas
Format: Journal Article biblioteca
Language:English
Published: Wiley 2022-01
Subjects:tropical soils, adsorption, desorption, phosphorus,
Online Access:https://hdl.handle.net/10568/114906
https://doi.org/10.1111/sum.12757
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spelling dig-cgspace-10568-1149062023-09-09T17:15:46Z Long-term effects of bone char and lignocellulosic biochar-based soil amendments on phosphorus adsorption–desorption and crop yield in low-input acidic soils Wakweya, Temsegen Nigussie, Abebe Worku, Gebeyanesh Biresaw, Armaye Aticho, Abebayehu Hirko, Obsu Ambaw, Gebermedihin Mamuye, Melkamu Dume, Bayu Ahmed, Milkiyas tropical soils adsorption desorption phosphorus Although the addition of biochar has been shown to reduce the phosphorus (P) adsorption capacity of soil, quantitative evidence of this has mainly been provided by incubation experiments and it is, therefore, essential to conducting long-term field trials to draw general conclusions. It is largely unknown whether bone char has a greater effect than lignocellulosic biochar on P adsorption-desorption processes and crop yield. The aim of this study was to determine the long-term (8 years) effect of bone char and biochar on P adsorption-desorption and crop yield in low-input acidic soils. The results showed that bone char decreased the maximum P adsorption capacity (Qm) by 10% and increased the desorption capacity (Ds) by 150% compared with the control (i.e. without a soil amendment). The desorption ratio was highest for the bone char treatment (10.3%) and three times more than the control. Plant-available P was seven times greater under bone char than the control. There was no variation in adsorption-desorption characteristics, desorption ratio and plant-P available content between bone char and lignocellulosic biochar treatments. The average yield increment following the application of bone char and biochar was 1.7 and 1.4 Mg ha−1 for maize and 1.8 and 1.9 Mg ha−1 for soya bean, respectively. Despite the low application rate (4 t ha−1 year−1), these findings demonstrated that the long-term application of bone char and biochar-based amendments enhanced P availability in low-input cropping systems, mainly by altering the P adsorption and desorption capacity of soils. 2022-01 2021-09-07T14:26:07Z 2021-09-07T14:26:07Z Journal Article Wakweye T, Nigussie A, Worku G, Biresaw A, Aticho A, Hirko O, Ambaw G, Mamuye M, Dume B, Ahmed M. 2021. Long-term effects of bone char and lignocellulosic biochar-based soil amendments on phosphorus adsorption–desorption and crop yield in low-input acidic soils. Soil Use and Management. 0266-0032 https://hdl.handle.net/10568/114906 https://doi.org/10.1111/sum.12757 en Copyrighted; all rights reserved Open Access p. 703-713 Wiley Soil Use and Management
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 tropical soils
adsorption
desorption
phosphorus
tropical soils
adsorption
desorption
phosphorus
spellingShingle tropical soils
adsorption
desorption
phosphorus
tropical soils
adsorption
desorption
phosphorus
Wakweya, Temsegen
Nigussie, Abebe
Worku, Gebeyanesh
Biresaw, Armaye
Aticho, Abebayehu
Hirko, Obsu
Ambaw, Gebermedihin
Mamuye, Melkamu
Dume, Bayu
Ahmed, Milkiyas
Long-term effects of bone char and lignocellulosic biochar-based soil amendments on phosphorus adsorption–desorption and crop yield in low-input acidic soils
description Although the addition of biochar has been shown to reduce the phosphorus (P) adsorption capacity of soil, quantitative evidence of this has mainly been provided by incubation experiments and it is, therefore, essential to conducting long-term field trials to draw general conclusions. It is largely unknown whether bone char has a greater effect than lignocellulosic biochar on P adsorption-desorption processes and crop yield. The aim of this study was to determine the long-term (8 years) effect of bone char and biochar on P adsorption-desorption and crop yield in low-input acidic soils. The results showed that bone char decreased the maximum P adsorption capacity (Qm) by 10% and increased the desorption capacity (Ds) by 150% compared with the control (i.e. without a soil amendment). The desorption ratio was highest for the bone char treatment (10.3%) and three times more than the control. Plant-available P was seven times greater under bone char than the control. There was no variation in adsorption-desorption characteristics, desorption ratio and plant-P available content between bone char and lignocellulosic biochar treatments. The average yield increment following the application of bone char and biochar was 1.7 and 1.4 Mg ha−1 for maize and 1.8 and 1.9 Mg ha−1 for soya bean, respectively. Despite the low application rate (4 t ha−1 year−1), these findings demonstrated that the long-term application of bone char and biochar-based amendments enhanced P availability in low-input cropping systems, mainly by altering the P adsorption and desorption capacity of soils.
format Journal Article
topic_facet tropical soils
adsorption
desorption
phosphorus
author Wakweya, Temsegen
Nigussie, Abebe
Worku, Gebeyanesh
Biresaw, Armaye
Aticho, Abebayehu
Hirko, Obsu
Ambaw, Gebermedihin
Mamuye, Melkamu
Dume, Bayu
Ahmed, Milkiyas
author_facet Wakweya, Temsegen
Nigussie, Abebe
Worku, Gebeyanesh
Biresaw, Armaye
Aticho, Abebayehu
Hirko, Obsu
Ambaw, Gebermedihin
Mamuye, Melkamu
Dume, Bayu
Ahmed, Milkiyas
author_sort Wakweya, Temsegen
title Long-term effects of bone char and lignocellulosic biochar-based soil amendments on phosphorus adsorption–desorption and crop yield in low-input acidic soils
title_short Long-term effects of bone char and lignocellulosic biochar-based soil amendments on phosphorus adsorption–desorption and crop yield in low-input acidic soils
title_full Long-term effects of bone char and lignocellulosic biochar-based soil amendments on phosphorus adsorption–desorption and crop yield in low-input acidic soils
title_fullStr Long-term effects of bone char and lignocellulosic biochar-based soil amendments on phosphorus adsorption–desorption and crop yield in low-input acidic soils
title_full_unstemmed Long-term effects of bone char and lignocellulosic biochar-based soil amendments on phosphorus adsorption–desorption and crop yield in low-input acidic soils
title_sort long-term effects of bone char and lignocellulosic biochar-based soil amendments on phosphorus adsorption–desorption and crop yield in low-input acidic soils
publisher Wiley
publishDate 2022-01
url https://hdl.handle.net/10568/114906
https://doi.org/10.1111/sum.12757
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