The potential to increase maize yields and mitigate climate change by adopting integrated soil fertility management across different regions in Kenya — a simulation study
Context: To avoid soil fertility decline and increased greenhouse gas (GHG) emissions, it has been recommended to improve maize yields in sub-Saharan Africa with sustainable practices such as Integrated Soil Fertility Management (ISFM), instead of relying solely on mineral fertilizer. However, the y...
| Main Authors: | , , , , , , , , , , , |
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| Format: | Journal Article |
| Language: | Inglés |
| Published: |
Elsevier
2026
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| Subjects: | |
| Online Access: | https://hdl.handle.net/10568/176457 |
| _version_ | 1855529947110572032 |
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| author | Laub, M. Necpalova, M. Van de Broek, M. Corbeels, M. Lee, J. Mucheru-Muna, M.W. Mugendi, D. Ndungu, S.M. Yegon, R. Waswa, W. Vanlauwe, B. Six, J. |
| author_browse | Corbeels, M. Laub, M. Lee, J. Mucheru-Muna, M.W. Mugendi, D. Ndungu, S.M. Necpalova, M. Six, J. Van de Broek, M. Vanlauwe, B. Waswa, W. Yegon, R. |
| author_facet | Laub, M. Necpalova, M. Van de Broek, M. Corbeels, M. Lee, J. Mucheru-Muna, M.W. Mugendi, D. Ndungu, S.M. Yegon, R. Waswa, W. Vanlauwe, B. Six, J. |
| author_sort | Laub, M. |
| collection | Repository of Agricultural Research Outputs (CGSpace) |
| description | Context: To avoid soil fertility decline and increased greenhouse gas (GHG) emissions, it has been recommended to improve maize yields in sub-Saharan Africa with sustainable practices such as Integrated Soil Fertility Management (ISFM), instead of relying solely on mineral fertilizer. However, the yield responses and environmental trade-offs of ISFM likely depend on soil and climatic conditions.
Objective: To explore this, we used the DayCent model to simulate 30-year average yields of maize monoculture across Kenya under 17 different ISFM scenarios, co-created with Kenyan smallholder farmers. We compared yields, changes in SOC stocks and N2O emissions against current baseline conditions (monocropping with minimal nutrient inputs).
Methods: The scenario that best represented a ’feasible-input’ level consisted of 2 t C ha−1 yr−1 of farmyard manure and 60 kg N ha−1 season−1 of mineral fertilizer. Other scenarios included different amounts (0, 1, and 2 t C ha−1 yr−1) and types of organic inputs in combination with four rates of mineral N fertilizer (0, 30, 60, and 90 kg N ha−1 season−1). The uncertainty of model predictions was quantified through Monte Carlo simulations.
Results and Conclusions: The model results indicate a significant potential for yield improvements in the humid regions of western Kenya (from 3.7 to 8.1 t ha−1 yr−1) with the ‘feasible-input’ compared to the baseline scenario; GHG emissions per kg of yield were generally lower (the median value reduced from 0.9 to 0.5 kg CO2-eq kg−1 yield). However, in the semi-arid regions of eastern Kenya, maximum yields under any scenario were 1.1 t ha−1 yr−1, reached at inputs of 1 t C farmyard manure ha−1 yr−1 or 60 kg mineral N ha−1 season−1. The uncertainty analysis showed a high confidence in the ‘feasible-input’ scenario’s ability to increase yields
and reduce SOC losses compared to the baseline, but a high uncertainty regarding its impact on GHG emissions. Specifically, the 95% credibility intervals for the combined CO2 and N2O emissions ranged from reductions of up to 1000 kg CO2-eq ha−1 yr−1 to increases of up to 200 kg CO2-eq ha−1 yr−1.
Significance: These results strongly support the use of ISFM practices to enhance maize yields and mitigate soil fertility losses, particularly in areas with sufficient rainfall. However, due to the high uncertainty surrounding simulated N2O emissions, we cannot establish with certainty whether ISFM reduces GHG emissions on a per hectare basis or increases them. |
| format | Journal Article |
| id | CGSpace176457 |
| institution | CGIAR Consortium |
| language | Inglés |
| publishDate | 2026 |
| publishDateRange | 2026 |
| publishDateSort | 2026 |
| publisher | Elsevier |
| publisherStr | Elsevier |
| record_format | dspace |
| spelling | CGSpace1764572025-11-11T10:34:11Z The potential to increase maize yields and mitigate climate change by adopting integrated soil fertility management across different regions in Kenya — a simulation study Laub, M. Necpalova, M. Van de Broek, M. Corbeels, M. Lee, J. Mucheru-Muna, M.W. Mugendi, D. Ndungu, S.M. Yegon, R. Waswa, W. Vanlauwe, B. Six, J. sustainable intensification stakeholders yield gap maize zea mays Context: To avoid soil fertility decline and increased greenhouse gas (GHG) emissions, it has been recommended to improve maize yields in sub-Saharan Africa with sustainable practices such as Integrated Soil Fertility Management (ISFM), instead of relying solely on mineral fertilizer. However, the yield responses and environmental trade-offs of ISFM likely depend on soil and climatic conditions. Objective: To explore this, we used the DayCent model to simulate 30-year average yields of maize monoculture across Kenya under 17 different ISFM scenarios, co-created with Kenyan smallholder farmers. We compared yields, changes in SOC stocks and N2O emissions against current baseline conditions (monocropping with minimal nutrient inputs). Methods: The scenario that best represented a ’feasible-input’ level consisted of 2 t C ha−1 yr−1 of farmyard manure and 60 kg N ha−1 season−1 of mineral fertilizer. Other scenarios included different amounts (0, 1, and 2 t C ha−1 yr−1) and types of organic inputs in combination with four rates of mineral N fertilizer (0, 30, 60, and 90 kg N ha−1 season−1). The uncertainty of model predictions was quantified through Monte Carlo simulations. Results and Conclusions: The model results indicate a significant potential for yield improvements in the humid regions of western Kenya (from 3.7 to 8.1 t ha−1 yr−1) with the ‘feasible-input’ compared to the baseline scenario; GHG emissions per kg of yield were generally lower (the median value reduced from 0.9 to 0.5 kg CO2-eq kg−1 yield). However, in the semi-arid regions of eastern Kenya, maximum yields under any scenario were 1.1 t ha−1 yr−1, reached at inputs of 1 t C farmyard manure ha−1 yr−1 or 60 kg mineral N ha−1 season−1. The uncertainty analysis showed a high confidence in the ‘feasible-input’ scenario’s ability to increase yields and reduce SOC losses compared to the baseline, but a high uncertainty regarding its impact on GHG emissions. Specifically, the 95% credibility intervals for the combined CO2 and N2O emissions ranged from reductions of up to 1000 kg CO2-eq ha−1 yr−1 to increases of up to 200 kg CO2-eq ha−1 yr−1. Significance: These results strongly support the use of ISFM practices to enhance maize yields and mitigate soil fertility losses, particularly in areas with sufficient rainfall. However, due to the high uncertainty surrounding simulated N2O emissions, we cannot establish with certainty whether ISFM reduces GHG emissions on a per hectare basis or increases them. 2026-01 2025-09-11T11:30:39Z 2025-09-11T11:30:39Z Journal Article https://hdl.handle.net/10568/176457 en Open Access application/pdf Elsevier Laub, M., Necpalova, M., Van de Broek, M., Corbeels, M., Lee, J., Mucheru-Muna, M.W., ... & Six, J. (2025). The potential to increase maize yields and mitigate climate change by adopting integrated soil fertility management across different regions in Kenya — a simulation study. Agricultural Systems, 231: 104477, 1-20. |
| spellingShingle | sustainable intensification stakeholders yield gap maize zea mays Laub, M. Necpalova, M. Van de Broek, M. Corbeels, M. Lee, J. Mucheru-Muna, M.W. Mugendi, D. Ndungu, S.M. Yegon, R. Waswa, W. Vanlauwe, B. Six, J. The potential to increase maize yields and mitigate climate change by adopting integrated soil fertility management across different regions in Kenya — a simulation study |
| title | The potential to increase maize yields and mitigate climate change by adopting integrated soil fertility management across different regions in Kenya — a simulation study |
| title_full | The potential to increase maize yields and mitigate climate change by adopting integrated soil fertility management across different regions in Kenya — a simulation study |
| title_fullStr | The potential to increase maize yields and mitigate climate change by adopting integrated soil fertility management across different regions in Kenya — a simulation study |
| title_full_unstemmed | The potential to increase maize yields and mitigate climate change by adopting integrated soil fertility management across different regions in Kenya — a simulation study |
| title_short | The potential to increase maize yields and mitigate climate change by adopting integrated soil fertility management across different regions in Kenya — a simulation study |
| title_sort | potential to increase maize yields and mitigate climate change by adopting integrated soil fertility management across different regions in kenya a simulation study |
| topic | sustainable intensification stakeholders yield gap maize zea mays |
| url | https://hdl.handle.net/10568/176457 |
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