Journal articles 2015
Documents
QTL mapping for plant height and yield components in common wheat under water limited and full irrigation environments
Li X, Xia X, Xiao Y, He Z, Wang D, Trethowan R, Wang H, Chen X (2015). QTL mapping for plant height and yield components in common wheat under water limited and full irrigation environments. Crop & Pasture Science Accepted for publication. View abstract. (G7010.02.01)
Li X, Xia X, Xiao Y, He Z, Wang D, Trethowan R, Wang H, Chen X (2015). QTL mapping for plant height and yield components in common wheat under water limited and full irrigation environments. Crop & Pasture Science Accepted for publication. View abstract. (G7010.02.01)
Environmental response and genomic regions correlated with rice root growth and yield under drought in the OryzaSNP panel across multiple study systems
Wade LJ, Bartolome V, Mauleon R, Vasant VD, Prabakar SM, Chelliah M, Kameoka E, Nagendra K, Reddy KRK, Varma CMK, Patil KG, Shrestha R, Al-Shugeairy Z, Al-Ogaidi F, Munasinghe M, Gowda V, Semon M, Suralta RR, Shenoy V, Vadez V, Serraj R, Shashidhar HE, Yamauchi AK, Ranganathan CB, Price A, McNally KL and Henry A (2015). Environmental response and genomic regions correlated with rice root growth and yield under drought in the OryzaSNP panel across multiple study systems. PLoS ONE (DOI: 10.1371/journal.pone.0124127). In press. (G3008.06)
Wade LJ, Bartolome V, Mauleon R, Vasant VD, Prabakar SM, Chelliah M, Kameoka E, Nagendra K, Reddy KRK, Varma CMK, Patil KG, Shrestha R, Al-Shugeairy Z, Al-Ogaidi F, Munasinghe M, Gowda V, Semon M, Suralta RR, Shenoy V, Vadez V, Serraj R, Shashidhar HE, Yamauchi AK, Ranganathan CB, Price A, McNally KL and Henry A (2015). Environmental response and genomic regions correlated with rice root growth and yield under drought in the OryzaSNP panel across multiple study systems. PLoS ONE (DOI: 10.1371/journal.pone.0124127). In press. (G3008.06)
Genetic purity and patterns of relationships among tropical highland adapted quality protein and normal maize inbred lines using microsatellite markers
Abakemal D, Shimelis H, Derera J and Semagn K (2015). Genetic purity and patterns of relationships among tropical highland adapted quality protein and normal maize inbred lines using microsatellite markers. Euphytica Published online: 23 December 2014 (DOI 10.1007/s10681-014-1332-9). Not open access; view abstract.
Abakemal D, Shimelis H, Derera J and Semagn K (2015). Genetic purity and patterns of relationships among tropical highland adapted quality protein and normal maize inbred lines using microsatellite markers. Euphytica Published online: 23 December 2014 (DOI 10.1007/s10681-014-1332-9). Not open access; view abstract.
Genetic variation in lowland sorghum (Sorghum bicolor (L.) Moench) landraces assessed by simple sequence repeats
Amelework B, Shimelis H, Tongoona P, Laing M and Mengistu F (2015). Genetic variation in lowland sorghum (Sorghum bicolor (L.) Moench) landraces assessed by simple sequence repeats. Plant Genetic Resources Published online: 26 June 2014 (DOI: 10.1017/S1479262114000744). Not open access; view abstract.
Amelework B, Shimelis H, Tongoona P, Laing M and Mengistu F (2015). Genetic variation in lowland sorghum (Sorghum bicolor (L.) Moench) landraces assessed by simple sequence repeats. Plant Genetic Resources Published online: 26 June 2014 (DOI: 10.1017/S1479262114000744). Not open access; view abstract.
Quantitative trait loci mapping for traits related to the progression of wheat flag leaf senescence
Wang S, Liang Z, Sun D, Dong F, Chen W, Wang H and Jing R (2015). Quantitative trait loci mapping for traits related to the progression of wheat flag leaf senescence. Journal of Agricultural Science Published online as FirstView Article: 24 September 2014 (DOI: 10.1017/S002185961400094X). Not open access; view abstract. (G7010.02.01)
Wang S, Liang Z, Sun D, Dong F, Chen W, Wang H and Jing R (2015). Quantitative trait loci mapping for traits related to the progression of wheat flag leaf senescence. Journal of Agricultural Science Published online as FirstView Article: 24 September 2014 (DOI: 10.1017/S002185961400094X). Not open access; view abstract. (G7010.02.01)
Development and GBS-genotyping of Introgression Lines (ILs) using two wild species of rice, O. meridionalis and O. rufipogon, in a common recurrent parent, O. sativa cv. Curinga
Arbelaez JD, Moreno LT, Singh N, Tung C-W, Maron LG, Ospina Y, Martinez CP, Grenier C, Lorieux M and McCouch SR (2015). Development and GBS-genotyping of Introgression Lines (ILs) using two wild species of rice, O. meridionalis and O. rufipogon, in a common recurrent parent, O. sativa cv. Curinga. Plant Breeding In press. (G3005.10)
Arbelaez JD, Moreno LT, Singh N, Tung C-W, Maron LG, Ospina Y, Martinez CP, Grenier C, Lorieux M and McCouch SR (2015). Development and GBS-genotyping of Introgression Lines (ILs) using two wild species of rice, O. meridionalis and O. rufipogon, in a common recurrent parent, O. sativa cv. Curinga. Plant Breeding In press. (G3005.10)
Studies on breeding of Yunhan strong gluten wheat varieties for drought resistance and high yield
Li X, Chai Y, Zhao Z, Sun L, Yao J, Bi H and Xi J (2015). Studies on breeding of Yunhan strong gluten wheat varieties for drought resistance and high yield. Chinese Agricultural Science Bulletin 31(12):29–35. Article in Chinese with abstract in English. (G7010.02.01)
Abstract: In order to breeding the high-quality, high-yield, strong gluten and drought-resistant wheat varieties which are suitable for Huanghuai dry land of our country, the research focused on the high yield and high quality breeding goal of strong gluten and high quality foreign germplasm usage. The author used strategies and methods like rational parent combination, adjusting the flowering for inter-breed, assistant selections with high molecular weight glutenin subunit protein molecular marker detections and measuring the quantity and quality of gluten, ecological-adaptation-oriented feature selection identification and ecological selection in multi-points for year. Alternative identification and selections in rain fed and irrigated land, strengthened systematic observation and comprehensive evaluation for better lines, and selections from better lines were conducted. The application of the systematic methods had solved the technical problems of bad adaptability to drought, heat, frost resistance, and maturity of foreign germplasms and hybrids with spring and winter varieties. The research bred a series of strong gluten wheat varieties which were represented by ‘Yunhan20410’,‘Yunhan 618’, achieved the innovation improvement which changed the strong gluten to the strong and stable gluten. They raised 2%-10% production than‘Jinmai 47’and had more drought-resistance and more heat-tolerance. We obtained the combination of high yield and drought resistance with the strong gluten traits.
Li X, Chai Y, Zhao Z, Sun L, Yao J, Bi H and Xi J (2015). Studies on breeding of Yunhan strong gluten wheat varieties for drought resistance and high yield. Chinese Agricultural Science Bulletin 31(12):29–35. Article in Chinese with abstract in English. (G7010.02.01)
Abstract: In order to breeding the high-quality, high-yield, strong gluten and drought-resistant wheat varieties which are suitable for Huanghuai dry land of our country, the research focused on the high yield and high quality breeding goal of strong gluten and high quality foreign germplasm usage. The author used strategies and methods like rational parent combination, adjusting the flowering for inter-breed, assistant selections with high molecular weight glutenin subunit protein molecular marker detections and measuring the quantity and quality of gluten, ecological-adaptation-oriented feature selection identification and ecological selection in multi-points for year. Alternative identification and selections in rain fed and irrigated land, strengthened systematic observation and comprehensive evaluation for better lines, and selections from better lines were conducted. The application of the systematic methods had solved the technical problems of bad adaptability to drought, heat, frost resistance, and maturity of foreign germplasms and hybrids with spring and winter varieties. The research bred a series of strong gluten wheat varieties which were represented by ‘Yunhan20410’,‘Yunhan 618’, achieved the innovation improvement which changed the strong gluten to the strong and stable gluten. They raised 2%-10% production than‘Jinmai 47’and had more drought-resistance and more heat-tolerance. We obtained the combination of high yield and drought resistance with the strong gluten traits.
Full article
