Extent and management of acid soils for sustainable crop production system in the tropical agroecosystems: a review

Extent and management of acid soils for sustainable crop production system in the tropical agroecosystems: a review

Increasing areas of agricultural land in high rainfall areas of Sub-Saharan Africa (SSA), where crop production used to be reliable, are affected by soil acidity. This review focuses on the extent, causes and effect of soil acidity on soil properties and crop yield and its management from the context of SSA. Studies showed that the detrimental effects of soil acidity can be mitigated through liming, integrated acid soil management and the use of acid-tolerant germplasms. Application of lime resulted in yield increments of 34–252% in wheat, barley and tef, 29–53% in faba bean and soybean, and 42–332% in potato in Ethiopia, 111–182% in maize in Kenya, and 45–103% in Mucuna in Nigeria under moderate to severe acid soil conditions. This was accompanied by a corresponding increase in soil pH up to 1.9 units and a decrease in exchangeable acidity and aluminum up to 2.1 cmol kg−1. Use of acid-tolerant crop varieties such as maize expressing superior tolerance to Al toxicity resulted in a yield increase of 51% under low soil pH in Cameroon and Kenya. Overall, soil acidity covering ∼35% of SSA should be reclaimed with lime and integrated acid soil management interventions, which could significantly increase crop yield and enhance the resilience of the tropical agroecosystems.

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Main Authors: Agegnehu, G., Amede, T., Erkossa, T., Yirga, C., Henry, C., Tyler, R., Nosworthy, M. G., Beyene, S., Sileshi, G. W.
Format: Journal Article biblioteca
Language:English
Published: Informa UK Limited 2021-08-31
Online Access:https://hdl.handle.net/10568/117258
https://doi.org/10.1080/09064710.2021.1954239
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spelling dig-cgspace-10568-1172582023-09-30T10:57:54Z Extent and management of acid soils for sustainable crop production system in the tropical agroecosystems: a review Agegnehu, G. Amede, T. Erkossa, T. Yirga, C. Henry, C. Tyler, R. Nosworthy, M. G. Beyene, S. Sileshi, G. W. Increasing areas of agricultural land in high rainfall areas of Sub-Saharan Africa (SSA), where crop production used to be reliable, are affected by soil acidity. This review focuses on the extent, causes and effect of soil acidity on soil properties and crop yield and its management from the context of SSA. Studies showed that the detrimental effects of soil acidity can be mitigated through liming, integrated acid soil management and the use of acid-tolerant germplasms. Application of lime resulted in yield increments of 34–252% in wheat, barley and tef, 29–53% in faba bean and soybean, and 42–332% in potato in Ethiopia, 111–182% in maize in Kenya, and 45–103% in Mucuna in Nigeria under moderate to severe acid soil conditions. This was accompanied by a corresponding increase in soil pH up to 1.9 units and a decrease in exchangeable acidity and aluminum up to 2.1 cmol kg−1. Use of acid-tolerant crop varieties such as maize expressing superior tolerance to Al toxicity resulted in a yield increase of 51% under low soil pH in Cameroon and Kenya. Overall, soil acidity covering ∼35% of SSA should be reclaimed with lime and integrated acid soil management interventions, which could significantly increase crop yield and enhance the resilience of the tropical agroecosystems. 2021-08-31 2021-12-28T04:04:58Z 2021-12-28T04:04:58Z Journal Article Agegnehu, G.; Amede, T.; Erkossa, T.; Yirga, C.; Henry, C.; Tyler, R.; Nosworthy, M. G.; Beyene, S.; Sileshi, G. W. 2021. Extent and management of acid soils for sustainable crop production system in the tropical agroecosystems: a review. Acta Agriculturae Scandinavica, Section B — Soil & Plant Science (TSI). pp.1-18. ISSN 0906-4710 doi: https://dx.doi.org/10.1080/09064710.2021.1954239 0906-4710 https://hdl.handle.net/10568/117258 https://doi.org/10.1080/09064710.2021.1954239 Restoring Degraded Landscapes en Copyrighted; all rights reserved Open Access pp.1-18 Informa UK Limited Acta Agriculturae Scandinavica, Section B — Soil & Plant Science
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libraryname Biblioteca del CGIAR
language English
description Increasing areas of agricultural land in high rainfall areas of Sub-Saharan Africa (SSA), where crop production used to be reliable, are affected by soil acidity. This review focuses on the extent, causes and effect of soil acidity on soil properties and crop yield and its management from the context of SSA. Studies showed that the detrimental effects of soil acidity can be mitigated through liming, integrated acid soil management and the use of acid-tolerant germplasms. Application of lime resulted in yield increments of 34–252% in wheat, barley and tef, 29–53% in faba bean and soybean, and 42–332% in potato in Ethiopia, 111–182% in maize in Kenya, and 45–103% in Mucuna in Nigeria under moderate to severe acid soil conditions. This was accompanied by a corresponding increase in soil pH up to 1.9 units and a decrease in exchangeable acidity and aluminum up to 2.1 cmol kg−1. Use of acid-tolerant crop varieties such as maize expressing superior tolerance to Al toxicity resulted in a yield increase of 51% under low soil pH in Cameroon and Kenya. Overall, soil acidity covering ∼35% of SSA should be reclaimed with lime and integrated acid soil management interventions, which could significantly increase crop yield and enhance the resilience of the tropical agroecosystems.
format Journal Article
author Agegnehu, G.
Amede, T.
Erkossa, T.
Yirga, C.
Henry, C.
Tyler, R.
Nosworthy, M. G.
Beyene, S.
Sileshi, G. W.
spellingShingle Agegnehu, G.
Amede, T.
Erkossa, T.
Yirga, C.
Henry, C.
Tyler, R.
Nosworthy, M. G.
Beyene, S.
Sileshi, G. W.
Extent and management of acid soils for sustainable crop production system in the tropical agroecosystems: a review
author_facet Agegnehu, G.
Amede, T.
Erkossa, T.
Yirga, C.
Henry, C.
Tyler, R.
Nosworthy, M. G.
Beyene, S.
Sileshi, G. W.
author_sort Agegnehu, G.
title Extent and management of acid soils for sustainable crop production system in the tropical agroecosystems: a review
title_short Extent and management of acid soils for sustainable crop production system in the tropical agroecosystems: a review
title_full Extent and management of acid soils for sustainable crop production system in the tropical agroecosystems: a review
title_fullStr Extent and management of acid soils for sustainable crop production system in the tropical agroecosystems: a review
title_full_unstemmed Extent and management of acid soils for sustainable crop production system in the tropical agroecosystems: a review
title_sort extent and management of acid soils for sustainable crop production system in the tropical agroecosystems: a review
publisher Informa UK Limited
publishDate 2021-08-31
url https://hdl.handle.net/10568/117258
https://doi.org/10.1080/09064710.2021.1954239
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