Assessing and understanding non-responsiveness of maize and soybean to fertilizer applications in African smallholder farms
Use of mineral fertilizers is essential to enhance crop productivity in smallholder farming systems of Sub-Saharan Africa, but various studies have reported ‘non-responsiveness’ where application of inorganic fertilizers does not lead to satisfactory yield gains. This phenomenon is not well defined...
| Autores principales: | , , , , |
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| Formato: | Journal Article |
| Lenguaje: | Inglés |
| Publicado: |
Elsevier
2021
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| Materias: | |
| Acceso en línea: | https://hdl.handle.net/10568/114384 |
| _version_ | 1855539064008081408 |
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| author | Roobroeck, D. Palm, Cheryl A. Nziguheba, G. Weil, R. Vanlauwe, Bernard |
| author_browse | Nziguheba, G. Palm, Cheryl A. Roobroeck, D. Vanlauwe, Bernard Weil, R. |
| author_facet | Roobroeck, D. Palm, Cheryl A. Nziguheba, G. Weil, R. Vanlauwe, Bernard |
| author_sort | Roobroeck, D. |
| collection | Repository of Agricultural Research Outputs (CGSpace) |
| description | Use of mineral fertilizers is essential to enhance crop productivity in smallholder farming systems of Sub-Saharan Africa, but various studies have reported ‘non-responsiveness’ where application of inorganic fertilizers does not lead to satisfactory yield gains. This phenomenon is not well defined nor are its extent and causes well understood. In order to close these knowledge gaps, we assessed the effects of commonly recommended nitrogen (N), phosphorus (P) and/or potassium (K) fertilizer inputs on maize grain and soybean production on farmer fields across prevalent land slope and/or soil texture gradients (2 × 2 matrix) in four agroecosystems over two growing seasons. The extent of the problem in the two cropping systems was compared by decomposing frequency distributions into various ranges of fertilizer effect sizes that represent specific degrees of non-responsiveness and responsiveness. Key soil properties and rainfall variables for field trials were also determined to identify the factors that are limiting crop yield increases by mineral fertilizer input.
Significant differences were found in mean fertilizer effect on crop productivity and frequency of non-responsiveness among the study areas and growing seasons, with some explicit contrasts between maize and soybean. The application of mineral fertilizers failed to increase maize yields by more than 0.5 t ha−1 in up to 68 % of farmer fields and soybean yields by more than 150 kg ha−1 in up to 65 % of farmer fields for specific study areas and/or growing seasons, while for others crop responses exceeded those levels. Unlike hypothesized, there were no consistent differences in crop fertilizer responses between the soil texture and land slope classes at any of the study sites. The variation in fertilizer effects on maize grain productivity across the study areas and growing seasons was most strongly related to the soil silt and clay content, and exchangeable cation balances of calcium (Ca), magnesium (Mg) and K, whereas fertilizer effects on soybean were most strongly influenced by the evenness in rainfall during growing seasons, and the soil silt content, extractable P, and ratio of total C and total N. Findings from our study emphasize that non-responsiveness by maize and soybean crops in African smallholder agroecosystems is dependent on multiple interacting factors, and requires careful scrutiny to ensure returns on investments. |
| format | Journal Article |
| id | CGSpace114384 |
| institution | CGIAR Consortium |
| language | Inglés |
| publishDate | 2021 |
| publishDateRange | 2021 |
| publishDateSort | 2021 |
| publisher | Elsevier |
| publisherStr | Elsevier |
| record_format | dspace |
| spelling | CGSpace1143842025-11-11T10:46:15Z Assessing and understanding non-responsiveness of maize and soybean to fertilizer applications in African smallholder farms Roobroeck, D. Palm, Cheryl A. Nziguheba, G. Weil, R. Vanlauwe, Bernard food crops yields nitrogen phosphorus potassium soil properties sustainability intensification maize soybean Use of mineral fertilizers is essential to enhance crop productivity in smallholder farming systems of Sub-Saharan Africa, but various studies have reported ‘non-responsiveness’ where application of inorganic fertilizers does not lead to satisfactory yield gains. This phenomenon is not well defined nor are its extent and causes well understood. In order to close these knowledge gaps, we assessed the effects of commonly recommended nitrogen (N), phosphorus (P) and/or potassium (K) fertilizer inputs on maize grain and soybean production on farmer fields across prevalent land slope and/or soil texture gradients (2 × 2 matrix) in four agroecosystems over two growing seasons. The extent of the problem in the two cropping systems was compared by decomposing frequency distributions into various ranges of fertilizer effect sizes that represent specific degrees of non-responsiveness and responsiveness. Key soil properties and rainfall variables for field trials were also determined to identify the factors that are limiting crop yield increases by mineral fertilizer input. Significant differences were found in mean fertilizer effect on crop productivity and frequency of non-responsiveness among the study areas and growing seasons, with some explicit contrasts between maize and soybean. The application of mineral fertilizers failed to increase maize yields by more than 0.5 t ha−1 in up to 68 % of farmer fields and soybean yields by more than 150 kg ha−1 in up to 65 % of farmer fields for specific study areas and/or growing seasons, while for others crop responses exceeded those levels. Unlike hypothesized, there were no consistent differences in crop fertilizer responses between the soil texture and land slope classes at any of the study sites. The variation in fertilizer effects on maize grain productivity across the study areas and growing seasons was most strongly related to the soil silt and clay content, and exchangeable cation balances of calcium (Ca), magnesium (Mg) and K, whereas fertilizer effects on soybean were most strongly influenced by the evenness in rainfall during growing seasons, and the soil silt content, extractable P, and ratio of total C and total N. Findings from our study emphasize that non-responsiveness by maize and soybean crops in African smallholder agroecosystems is dependent on multiple interacting factors, and requires careful scrutiny to ensure returns on investments. 2021-01 2021-07-26T10:26:42Z 2021-07-26T10:26:42Z Journal Article https://hdl.handle.net/10568/114384 en Open Access application/pdf Elsevier Roobroeck, D., Palm, C.A., Nziguheba, G., Weil, R. & Vanlauwe, B. (2021). Assessing and understanding non-responsiveness of maize and soybean to fertilizer applications in African smallholder farms. Agriculture, Ecosystems & Environment, 305, 107165: 1-13. |
| spellingShingle | food crops yields nitrogen phosphorus potassium soil properties sustainability intensification maize soybean Roobroeck, D. Palm, Cheryl A. Nziguheba, G. Weil, R. Vanlauwe, Bernard Assessing and understanding non-responsiveness of maize and soybean to fertilizer applications in African smallholder farms |
| title | Assessing and understanding non-responsiveness of maize and soybean to fertilizer applications in African smallholder farms |
| title_full | Assessing and understanding non-responsiveness of maize and soybean to fertilizer applications in African smallholder farms |
| title_fullStr | Assessing and understanding non-responsiveness of maize and soybean to fertilizer applications in African smallholder farms |
| title_full_unstemmed | Assessing and understanding non-responsiveness of maize and soybean to fertilizer applications in African smallholder farms |
| title_short | Assessing and understanding non-responsiveness of maize and soybean to fertilizer applications in African smallholder farms |
| title_sort | assessing and understanding non responsiveness of maize and soybean to fertilizer applications in african smallholder farms |
| topic | food crops yields nitrogen phosphorus potassium soil properties sustainability intensification maize soybean |
| url | https://hdl.handle.net/10568/114384 |
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