Ethiopia’s transforming wheat landscape: tracking variety use through DNA fingerprinting
Ethiopia is the largest wheat producer in sub-Saharan Africa yet remains a net importer. Increasing domestic wheat production is a national priority. Improved varieties provide an important pathway to enhancing productivity and stability of production. Reliably tracking varietal use and dynamics is a challenge, and the value of conventional recall surveys is increasingly questioned. We report the first nationally representative, large-scale wheat DNA fingerprinting study undertaken in Ethiopia. Plot level comparison of DNA fingerprinting with farmer recall from nearly 4000 plots in the 2016/17 season indicates that only 28% of farmers correctly named wheat varieties grown. The DNA study reveals that new, rust resistant bread wheat varieties are now widely adopted. Germplasm originating from CGIAR centres has made a significant contribution. Corresponding productivity gains and economic benefits have been substantial, indicating high returns to investments in wheat improvement. The study provides an accurate assessment of wheat varietal status and sets a benchmark for national policy-makers and donors. In recent decades, the Ethiopian wheat landscape has transformed from local tetraploid varieties to widespread adoption of high yielding, rust resistant bread wheat. We demonstrate that DNA fingerprinting can be applied at scale and is likely to transform future crop varietal adoption studies.
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Nature Publishing Group
2020
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| Subjects: | AGRICULTURAL SCIENCES AND BIOTECHNOLOGY, PLANT GENETICS, GENOTYPES, PLANT BREEDING, DNA FINGERPRINTING, WHEAT, |
| Online Access: | https://hdl.handle.net/10883/21028 |
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dig-cimmyt-10883-210282023-11-01T16:11:43Z Ethiopia’s transforming wheat landscape: tracking variety use through DNA fingerprinting Hodson, D.P. Debello, M.J. Fantaye, K.T. Yirga, C. Beyene, H. Kilian, A. Carling, J. Disasa, T. Alemu, S.K. Daba, T. Alemayehu, Y. Badebo, A. Abeyo Bekele Geleta Erenstein, O. AGRICULTURAL SCIENCES AND BIOTECHNOLOGY PLANT GENETICS GENOTYPES PLANT BREEDING DNA FINGERPRINTING WHEAT Ethiopia is the largest wheat producer in sub-Saharan Africa yet remains a net importer. Increasing domestic wheat production is a national priority. Improved varieties provide an important pathway to enhancing productivity and stability of production. Reliably tracking varietal use and dynamics is a challenge, and the value of conventional recall surveys is increasingly questioned. We report the first nationally representative, large-scale wheat DNA fingerprinting study undertaken in Ethiopia. Plot level comparison of DNA fingerprinting with farmer recall from nearly 4000 plots in the 2016/17 season indicates that only 28% of farmers correctly named wheat varieties grown. The DNA study reveals that new, rust resistant bread wheat varieties are now widely adopted. Germplasm originating from CGIAR centres has made a significant contribution. Corresponding productivity gains and economic benefits have been substantial, indicating high returns to investments in wheat improvement. The study provides an accurate assessment of wheat varietal status and sets a benchmark for national policy-makers and donors. In recent decades, the Ethiopian wheat landscape has transformed from local tetraploid varieties to widespread adoption of high yielding, rust resistant bread wheat. We demonstrate that DNA fingerprinting can be applied at scale and is likely to transform future crop varietal adoption studies. 2020-11-28T01:15:16Z 2020-11-28T01:15:16Z 2020 Article Published Version https://hdl.handle.net/10883/21028 10.1038/s41598-020-75181-8 English https://hdl.handle.net/11529/10548514 https://www.nature.com/articles/s41598-020-75181-8#Sec21 CIMMYT manages Intellectual Assets as International Public Goods. The user is free to download, print, store and share this work. In case you want to translate or create any other derivative work and share or distribute such translation/derivative work, please contact CIMMYT-Knowledge-Center@cgiar.org indicating the work you want to use and the kind of use you intend; CIMMYT will contact you with the suitable license for that purpose Open Access Ethiopia London (United Kingdom) Nature Publishing Group 10 2045-2322 Nature Scientific Reports 18532 |
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AGRICULTURAL SCIENCES AND BIOTECHNOLOGY PLANT GENETICS GENOTYPES PLANT BREEDING DNA FINGERPRINTING WHEAT AGRICULTURAL SCIENCES AND BIOTECHNOLOGY PLANT GENETICS GENOTYPES PLANT BREEDING DNA FINGERPRINTING WHEAT |
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AGRICULTURAL SCIENCES AND BIOTECHNOLOGY PLANT GENETICS GENOTYPES PLANT BREEDING DNA FINGERPRINTING WHEAT AGRICULTURAL SCIENCES AND BIOTECHNOLOGY PLANT GENETICS GENOTYPES PLANT BREEDING DNA FINGERPRINTING WHEAT Hodson, D.P. Debello, M.J. Fantaye, K.T. Yirga, C. Beyene, H. Kilian, A. Carling, J. Disasa, T. Alemu, S.K. Daba, T. Alemayehu, Y. Badebo, A. Abeyo Bekele Geleta Erenstein, O. Ethiopia’s transforming wheat landscape: tracking variety use through DNA fingerprinting |
| description |
Ethiopia is the largest wheat producer in sub-Saharan Africa yet remains a net importer. Increasing domestic wheat production is a national priority. Improved varieties provide an important pathway to enhancing productivity and stability of production. Reliably tracking varietal use and dynamics is a challenge, and the value of conventional recall surveys is increasingly questioned. We report the first nationally representative, large-scale wheat DNA fingerprinting study undertaken in Ethiopia. Plot level comparison of DNA fingerprinting with farmer recall from nearly 4000 plots in the 2016/17 season indicates that only 28% of farmers correctly named wheat varieties grown. The DNA study reveals that new, rust resistant bread wheat varieties are now widely adopted. Germplasm originating from CGIAR centres has made a significant contribution. Corresponding productivity gains and economic benefits have been substantial, indicating high returns to investments in wheat improvement. The study provides an accurate assessment of wheat varietal status and sets a benchmark for national policy-makers and donors. In recent decades, the Ethiopian wheat landscape has transformed from local tetraploid varieties to widespread adoption of high yielding, rust resistant bread wheat. We demonstrate that DNA fingerprinting can be applied at scale and is likely to transform future crop varietal adoption studies. |
| format |
Article |
| topic_facet |
AGRICULTURAL SCIENCES AND BIOTECHNOLOGY PLANT GENETICS GENOTYPES PLANT BREEDING DNA FINGERPRINTING WHEAT |
| author |
Hodson, D.P. Debello, M.J. Fantaye, K.T. Yirga, C. Beyene, H. Kilian, A. Carling, J. Disasa, T. Alemu, S.K. Daba, T. Alemayehu, Y. Badebo, A. Abeyo Bekele Geleta Erenstein, O. |
| author_facet |
Hodson, D.P. Debello, M.J. Fantaye, K.T. Yirga, C. Beyene, H. Kilian, A. Carling, J. Disasa, T. Alemu, S.K. Daba, T. Alemayehu, Y. Badebo, A. Abeyo Bekele Geleta Erenstein, O. |
| author_sort |
Hodson, D.P. |
| title |
Ethiopia’s transforming wheat landscape: tracking variety use through DNA fingerprinting |
| title_short |
Ethiopia’s transforming wheat landscape: tracking variety use through DNA fingerprinting |
| title_full |
Ethiopia’s transforming wheat landscape: tracking variety use through DNA fingerprinting |
| title_fullStr |
Ethiopia’s transforming wheat landscape: tracking variety use through DNA fingerprinting |
| title_full_unstemmed |
Ethiopia’s transforming wheat landscape: tracking variety use through DNA fingerprinting |
| title_sort |
ethiopia’s transforming wheat landscape: tracking variety use through dna fingerprinting |
| publisher |
Nature Publishing Group |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10883/21028 |
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