Yield stability of yellow maize hybrids in the Savannas of west Africa
There is growing interest for yellow maize among farmers and the food and feed industries in West Africa. Testing of maize hybrids in multi-location trials is crucial for identifying adapted high-yielding candidates for quick release. This study was designed to evaluate yield stability of three-way...
| Autores principales: | , , , , , |
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| Formato: | Journal Article |
| Lenguaje: | Inglés |
| Publicado: |
Wiley
2016
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| Materias: | |
| Acceso en línea: | https://hdl.handle.net/10568/76985 |
| _version_ | 1855538610563973120 |
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| author | Meseka, S.K. Menkir, A. Olakojo, S. Jalloh, A. Coulibaly, N. Bossey, O. |
| author_browse | Bossey, O. Coulibaly, N. Jalloh, A. Menkir, A. Meseka, S.K. Olakojo, S. |
| author_facet | Meseka, S.K. Menkir, A. Olakojo, S. Jalloh, A. Coulibaly, N. Bossey, O. |
| author_sort | Meseka, S.K. |
| collection | Repository of Agricultural Research Outputs (CGSpace) |
| description | There is growing interest for yellow maize among farmers and the food and feed industries in West Africa. Testing of maize hybrids in multi-location trials is crucial for identifying adapted high-yielding candidates for quick release. This study was designed to evaluate yield stability of three-way cross yellow maize hybrids across 17 diverse environments in the savannas of West Africa. Highly significant differences (P < 0.001) were observed among hybrids across locations. The interaction between genotypes and environments was significant for grain yield and most other agronomic traits, with high repeatability (0.68) for grain yield across the test environments. The hybrid A1001-19 was found to be the highest yielding, with yield advantage of 10% over the commercial hybrid Oba Super 2. The genotype, genotype by environment biplot identified hybrid A1001-7 as the most stable hybrid with above-average grain yield, followed by A1001-10. However, A1001-19 was relatively stable and was the best hybrid in 12 of the 17 environments across Mali, Nigeria, and Sierra Leone. Kudu and Zaria 2013 were the most discriminating locations for the hybrids. The stable yield performance of A1001-7 and A1001-10, and to a larger extent A1001-19, would benefit farmers and seed producers with limited capacity to handle single-cross hybrids. Hybrid A1001-10 was released by partners, and hybrids A1001-7 and A1001-19 have been evaluated in national performance and on-farm trials for potential release. This would provide more food for resource-poor farmers and raw materials for food and feed industries and would result in increased household incomes of smallholder farmers in West Africa. |
| format | Journal Article |
| id | CGSpace76985 |
| institution | CGIAR Consortium |
| language | Inglés |
| publishDate | 2016 |
| publishDateRange | 2016 |
| publishDateSort | 2016 |
| publisher | Wiley |
| publisherStr | Wiley |
| record_format | dspace |
| spelling | CGSpace769852024-05-01T08:19:27Z Yield stability of yellow maize hybrids in the Savannas of west Africa Meseka, S.K. Menkir, A. Olakojo, S. Jalloh, A. Coulibaly, N. Bossey, O. stability drought tolerance maize There is growing interest for yellow maize among farmers and the food and feed industries in West Africa. Testing of maize hybrids in multi-location trials is crucial for identifying adapted high-yielding candidates for quick release. This study was designed to evaluate yield stability of three-way cross yellow maize hybrids across 17 diverse environments in the savannas of West Africa. Highly significant differences (P < 0.001) were observed among hybrids across locations. The interaction between genotypes and environments was significant for grain yield and most other agronomic traits, with high repeatability (0.68) for grain yield across the test environments. The hybrid A1001-19 was found to be the highest yielding, with yield advantage of 10% over the commercial hybrid Oba Super 2. The genotype, genotype by environment biplot identified hybrid A1001-7 as the most stable hybrid with above-average grain yield, followed by A1001-10. However, A1001-19 was relatively stable and was the best hybrid in 12 of the 17 environments across Mali, Nigeria, and Sierra Leone. Kudu and Zaria 2013 were the most discriminating locations for the hybrids. The stable yield performance of A1001-7 and A1001-10, and to a larger extent A1001-19, would benefit farmers and seed producers with limited capacity to handle single-cross hybrids. Hybrid A1001-10 was released by partners, and hybrids A1001-7 and A1001-19 have been evaluated in national performance and on-farm trials for potential release. This would provide more food for resource-poor farmers and raw materials for food and feed industries and would result in increased household incomes of smallholder farmers in West Africa. 2016-07 2016-09-09T11:51:33Z 2016-09-09T11:51:33Z Journal Article https://hdl.handle.net/10568/76985 en Limited Access Wiley Meseka, S.K., Menkir, A., Olakojo, S., Coulibaly, N. & Bossey, O. (2016). Yield stability of yellow maize hybrids in the Savannas of west Africa. Agronomy Journal, 108, 1313-1320. |
| spellingShingle | stability drought tolerance maize Meseka, S.K. Menkir, A. Olakojo, S. Jalloh, A. Coulibaly, N. Bossey, O. Yield stability of yellow maize hybrids in the Savannas of west Africa |
| title | Yield stability of yellow maize hybrids in the Savannas of west Africa |
| title_full | Yield stability of yellow maize hybrids in the Savannas of west Africa |
| title_fullStr | Yield stability of yellow maize hybrids in the Savannas of west Africa |
| title_full_unstemmed | Yield stability of yellow maize hybrids in the Savannas of west Africa |
| title_short | Yield stability of yellow maize hybrids in the Savannas of west Africa |
| title_sort | yield stability of yellow maize hybrids in the savannas of west africa |
| topic | stability drought tolerance maize |
| url | https://hdl.handle.net/10568/76985 |
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