Person: Badebo, A.
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Badebo
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Badebo, A.
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0000-0001-6574-272419 results
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- Climate smart bread wheat (Triticum aestivum L.) variety development for optimum moisture areas of Ethiopia(Puspa Publishing House, 2023) Alemu, G.; Dabi, A.; Sime, B.; Geleta, N.; Delesa, A.; Zegaye, H.; Duga, R.; Kasahun, C.; Negash, T.; Solomon, T.; Zewdu, D.; Asefa, B.; Tadesse, Z.; Abeyo Bekele Geleta; Badebo, A.; Bayisa, T.
Publication - Genotype×Environment interaction and stability analysis using GGE biplot for grain yield of bread wheat (Triticum aestivum) genotypes under low moisture stress areas of Ethiopia(Puspa Publishing House, 2023) Dabi, A.; Alemu, G.; Sime, B.; Ayana, N.G.; Delessa, A.; Solomon, T.; Zegaye, H.; Asnake, D.; Asefa, B.; Duga, R.; Shewaye, Y.; Getamesay, A.; Zewudu, A.; Girma, B.; Badebo, A.; Abeyo Bekele Geleta
Publication - Erratum: Author Correction: Ethiopia's transforming wheat landscape: tracking variety use through DNA fingerprinting (Scientific reports (2020) 10 1 (18532))(Nature Publishing Group, 2023) Hodson, D.P.; Jaleta, M.; Tesfaye, K.; Yirga, C.; Beyene, H.; Kilian, A.; Carling, J.; Disasa, T.; Alemu, S.K.; Daba, T.; Misganaw, A.; Negisho, K.; Alemayehu, Y.; Badebo, A.; Abeyo Bekele Geleta; Erenstein, O.
Publication - Field resistance to wheat stem rust in durum wheat accessions deposited at the USDA National Small Grains Collection(CSSA, 2021) Olivera Firpo, P.D.; Worku Denbel Bulbula; Badebo, A.; Bockelman, H.; Edae, E.A.; Yue Jin
Publication - Genome-wide association mapping identifies yellow rust resistance loci in Ethiopian durum wheat germplasm(Public Library of Science, 2021) Alemu, S.K.; Badebo, A.; Tesfaye, K.; Haileselassie, T.; Uauy, C.
Publication - Genome-wide association analysis unveils novel QTLs for seminal root system architecture traits in Ethiopian durum wheat(BioMed Central, 2021) Alemu, A.; Feyissa, T.; Maccaferri, M.; Sciara, G.; Tuberosa, R.; Ammar, K.; Badebo, A.; Acevedo, M.; Letta, T.; Abeyo Bekele Geleta
Publication - Ethiopia’s transforming wheat landscape: tracking variety use through DNA fingerprinting(Nature Publishing Group, 2020) Hodson, D.P.; Jaleta, M.; Tesfaye, K.; Yirga, C.; Beyene, H.; Kilian, A.; Carling, J.; Disasa, T.; Alemu, S.K.; Daba, T.; Alemayehu, Y.; Badebo, A.; Abeyo Bekele Geleta; Erenstein, O.
Publication - Misidentification by farmers of the crop varieties they grow: lessons from DNA fingerprinting of wheat in Ethiopia(Public Library of Science, 2020) Jaleta, M.; Tesfaye, K.; Kilian, A.; Yirga, C.; Habte, E.; Beyene, H.; Abeyo Bekele Geleta; Badebo, A.; Erenstein, O.
Publication - Achievements in fast-track variety testing, seed multiplication and scaling of rust resistant varieties: lessons from the wheat seed scaling project, Ethiopia(EIAR, 2020) Abeyo Bekele Geleta; Badebo, A.; Gebre, D.; Listman, G.M.The traditional staple crop; wheat is threatened in Ethiopia by recurrent epidemics of rust diseases. Rust pathogen races have evolved quickly in the country, overcoming the genetic resistance of widely sown wheat varieties, which is often based on major resistance genes. Seed of new resistant varieties adapted to important agro-ecologies is not easily accessible and most Ethiopian wheat farmers re-sow saved seed, contributing to low average yields for the crop. Building on past efforts to generate and spread seed of resistant wheat varieties and with generous funding from the U.S. Agency for International Development (USAID), the Ethiopian Institute of Agricultural Research and the International Maize and Wheat Improvement Center undertook in 2015 a three-year project to scale the use and value of high-yielding, rust-resistant bread and durum wheat varieties. The project was implemented in 54 major wheat growing woredas of Amhara (11), Oromia (28), SNNP (9) and Tigray (6) regions. Federal and regional research centers, private and public seed enterprises, farmers’ cooperative unions, farmers’ seed associations, regional bureau of agriculture were engaged in the project activities. The eight chapters of this report document the project’s vision and implementation, as well as components to strengthen rust surveillance, early warning and phenotyping, fast-track variety testing and pre-release seed multiplication, demonstration and field day activities, accelerated seed multiplication, the provision of “seed loans” to reach more farmers, efforts to link smallholder durum wheat farmers with the national value chain, and a formal external study to assess the achievements and impacts of these efforts. Each chapter covers activities, partners and implementation modalities, lessons learned and the way forward. I found thisreport to be quite interdisciplinary and inclusive. In summary, more than 131,000 rural households directly benefited from the work. Wheat yields among participating farmers increased from an average 3 39 t/ha prior to the project to 4.09 t/ha by the end of the project, an improvement directly attributable to project efforts and measurably adding to farm household incomes and food security. The protocols applied to quickly scale quality seed of rust resistant wheat varieties among smallholder farmers are worthy of replication, and the project also points up the need to identify new resistance genes, develop wheat varieties of polygenic nature for durable resistance, promote farmers’ use of a genetically diverse mix of varieties, and link farmers to better and profitable markets.
Publication - Stripe rust resistance genes in a set of Ethiopian bread wheat cultivars and breeding lines(Springer, 2020) Gebreslasie Zeray Siyoum; Huang, S.; Gangming Zhan; Badebo, A.; Qingdong Zeng; Jianhui Wu; Qilin Wang; Shengjie Liu; Lili Huang; Xiaojing Wang; Zhensheng Kang; Dejun Han
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