8 results on '"Yemane Tsehaye"'
Search Results
2. Genetic diversity studies for morphological traits of hot pepper (Capsicum annuum L.) genotypes in Central Zone of Tigray Region, Northern Ethiopia
- Author
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Fasikaw Belay, Berhanu Abate, and Yemane Tsehaye
- Subjects
Horticulture ,Capsicum annuum ,Genetic diversity ,Agriculture ,business.industry ,Research centre ,Genotype ,Genetic variation ,Principal component analysis ,Pepper ,Biology ,General Agricultural and Biological Sciences ,business - Abstract
Hot pepper is the dominant vegetable crop grown in different parts of Ethiopia with long history of cultivation and considerable genetic diversity for most important morphological traits. However, shortage of varieties, the prevalence of fungal and bacterial as well as viral diseases, information is lacking on genetic diversity and genetic information to design genetic resource conservation to improve yield and yield components of hot pepper. The study was undertaken to assess the morphological diversity of 64 hot pepper genotypes at Axum Agricultural Research Centre in Mereb Leke District during the year 2017/2018, using 8×8 simple lattice design. Analysis of variance revealed that there were a significant (P
- Published
- 2019
- Full Text
- View/download PDF
3. Effect of Sodium Azide on Quantitative and Qualitative Stem Traits in the M2 Generation of Ethiopian Sesame (Sesamum indicum L.) Genotypes
- Author
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Desta Berhe Sbhatu, Birhanu Kahsay Meresa, Micheale Yifter Weldemichael, Haftay Abadi Gebru, Girmay Gebresamuel Abraha, Medhin Teklay, Hagos Mohammedseid Juhar, Birhanu Debesay Berhe, Mullubrhan Mekonen Gebru, Fiseha Baraki Sibhatu, Hailay Mehari Gebremedhn, Mohammed Mebrahtu Mossa, Tesfakiros Semere Gebrelibanos, Abraha Birhan Kassa, and Yemane Tsehaye Baryatsion
- Subjects
0106 biological sciences ,Technology ,Article Subject ,Science ,01 natural sciences ,General Biochemistry, Genetics and Molecular Biology ,Crop ,03 medical and health sciences ,chemistry.chemical_compound ,Oil content ,Genotype ,Sesamum ,030304 developmental biology ,General Environmental Science ,0303 health sciences ,Genetic diversity ,biology ,General Medicine ,biology.organism_classification ,Horticulture ,chemistry ,Germination ,Medicine ,Sodium azide ,010606 plant biology & botany - Abstract
The emerging oilseed crop Sesamum indicum, also known as the queen of oilseeds, is being grown globally for its oil content for medicinal and nutritional values. One of the key challenges of sesame cultivation is its low productivity. In the present study, sodium azide (NaN3) was used as a chemical mutagen. The aim of this study was to examine the effect of NaN3 on quantitative and qualitative stem traits in the M2 generation of Ethiopian sesame (Sesamum indicum L.) genotypes. Seeds of fourteen sesame genotypes were used in this study and germinated and grown under greenhouse conditions. Different qualitative and quantitative data were collected and analyzed. Traits such as plant height, ground distance to first distance, and internode length were significantly affected by NaN3 treatment. The highest plant height was recorded in the control on Humera 1 and Baha Necho genotypes, while the lowest was observed on Setit 2 and Hirhir treated with the chemical. The highest ground distance to the first branch was observed in Gumero, while the least ground distance was recorded in Setit 1 in the treated and control genotypes, respectively. The best internode length was recorded on Setit 2 and ADI in the control, while the lowest internode length was observed in Setit 1 genotype treated with sodium azide. Genotypes such as ACC44, ADI, Baha Necho, Borkena, Gonder 1, and Setit 1 treated with NaN3 have showed glabrous type of stem hairiness. All the fourteen genotypes (both treated and control) were clustered into four groups. In conclusion, we observed a highly significant variation among the genotypes due the effect of the chemical and genotypes themselves. Hence, this report would create more genetic diversity for further sesame genetic research improvements.
- Published
- 2021
- Full Text
- View/download PDF
4. Effect of Sodium Azide on Quantitative and Qualitative Stem Traits in the M2 Generation of Ethiopian Sesame (
- Author
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Micheale Yifter, Weldemichael, Yemane Tsehaye, Baryatsion, Desta Berhe, Sbhatu, Girmay, Gebresamuel Abraha, Hagos Mohammedseid, Juhar, Abraha Birhan, Kassa, Fiseha, Baraki Sibhatu, Hailay Mehari, Gebremedhn, Tesfakiros Semere, Gebrelibanos, Mohammed, Mebrahtu Mossa, Mullubrhan Mekonen, Gebru, Birhanu Kahsay, Meresa, Medhin, Teklay, Birhanu Debesay, Berhe, and Haftay Abadi, Gebru
- Subjects
Phenotype ,Quantitative Trait, Heritable ,Genotype ,Plant Stems ,Seeds ,Humans ,Selection, Genetic ,Sodium Azide ,Phylogeny ,Mutagens ,Sesamum ,Research Article - Abstract
The emerging oilseed crop Sesamum indicum, also known as the queen of oilseeds, is being grown globally for its oil content for medicinal and nutritional values. One of the key challenges of sesame cultivation is its low productivity. In the present study, sodium azide (NaN3) was used as a chemical mutagen. The aim of this study was to examine the effect of NaN3 on quantitative and qualitative stem traits in the M2 generation of Ethiopian sesame (Sesamum indicum L.) genotypes. Seeds of fourteen sesame genotypes were used in this study and germinated and grown under greenhouse conditions. Different qualitative and quantitative data were collected and analyzed. Traits such as plant height, ground distance to first distance, and internode length were significantly affected by NaN3 treatment. The highest plant height was recorded in the control on Humera 1 and Baha Necho genotypes, while the lowest was observed on Setit 2 and Hirhir treated with the chemical. The highest ground distance to the first branch was observed in Gumero, while the least ground distance was recorded in Setit 1 in the treated and control genotypes, respectively. The best internode length was recorded on Setit 2 and ADI in the control, while the lowest internode length was observed in Setit 1 genotype treated with sodium azide. Genotypes such as ACC44, ADI, Baha Necho, Borkena, Gonder 1, and Setit 1 treated with NaN3 have showed glabrous type of stem hairiness. All the fourteen genotypes (both treated and control) were clustered into four groups. In conclusion, we observed a highly significant variation among the genotypes due the effect of the chemical and genotypes themselves. Hence, this report would create more genetic diversity for further sesame genetic research improvements.
- Published
- 2020
5. Analysis of genotype x environment interaction and seed yield stability of sesame in Northern Ethiopia
- Author
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Fetien Abay, Yemane Tsehaye, and Fiseha Baraki
- Subjects
0106 biological sciences ,biology ,business.industry ,Randomized block design ,Ammi ,04 agricultural and veterinary sciences ,biology.organism_classification ,01 natural sciences ,Biotechnology ,Animal science ,Genotype ,040103 agronomy & agriculture ,0401 agriculture, forestry, and fisheries ,Grain yield ,Main effect ,Multiplicative interaction ,business ,010606 plant biology & botany - Abstract
The experiment was conducted in Northern Ethiopia from 2011-2013 under rain fed conditions in a total of seven environments vis. E1, E2, E3, E4, E5, E6 and E7. The objective of the study was to evaluate the adaptability and stability of sesame genotypes across environments. 13 sesame genotypes were evaluated and the experiment was laid out in a Randomized Complete Block Design with three replications. The average grain yield of the genotypes was 742.9 Kg/ha with the outstanding genotypes being G4 (926.8 kg/ha), G1 (895.1 kg/ha) and G12 (832.7 kg/ha) respectively, and low the yielding genotype was G9 (614.3 kg/ha). The combined ANOVA for grain yield showed significant effects of the genotypes, environments and genotype x environment interaction. According to the additive main effect and multiplicative interaction bi-plot (AMMI bi-plot) and Genotype x Environment interaction bi-plot (GGE bi-plot) G12 was the most stable, and G7, G8 and G9 were the unstable genotypes. Furthermore, the Genotype main effects and GGE bi-plot showed E5 as the most discriminating and representative environment. The GGE bi-plot also identified two different growing environments, the first environment containing E4 and E6 (in the Dansha area) with the wining genotype G1; and the second environment encompassing E1, E2, E3, E5 and E7 (in the Humera, Dansha and Sheraro areas) with winning genotype of G4. Key words: AMMI bi-plot, environment, GEI, GGE bi-plot.
- Published
- 2016
- Full Text
- View/download PDF
6. Genetic Variability and Characters Association of Hot Pepper (Capsicum annuum L.) Genotypes Tested under Irrigation in Northern Ethiopia
- Author
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Fasikaw Belay, Yemane Tsehaye, and Berhanu Abate
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Cultural Studies ,Linguistics and Language ,History ,Irrigation ,Capsicum annuum ,Horticulture ,Anthropology ,Pepper ,Genotype ,food and beverages ,Genetic variability ,Biology ,Language and Linguistics - Abstract
Hot pepper production in most areas of Ethiopia especially in Tigray region is constrained by shortage of varieties, the prevalence of fungal and bacterial as well as viral diseases. Sixty-four hot pepper genotypes were evaluated to obtain the extent of genetic variability, association among characters. The experiment was laid out using 8x8 simple lattice design at Axum Agricultural Research center in 2017/18. Data were collected for 19 agronomic characters and analysis of variance revealed significant differences (p
- Published
- 2020
- Full Text
- View/download PDF
7. Assessing Inter-Relationship of Sesame Genotypes and their Traits Using Cluster Analysis and Principal Component Analysis Methods
- Author
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Fetien Abay, Fiseha Baraki, and Yemane Tsehaye
- Subjects
Statistics ,Genotype ,Principal component analysis ,Biology ,Disease cluster - Published
- 2015
- Full Text
- View/download PDF
8. Phenotypic and genotypic variation in flowering time in Ethiopian barleys
- Author
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Åsmund Bjørnstad, Yemane Tsehaye, and Fetien Abay
- Subjects
Genetics ,Genetic diversity ,Linkage disequilibrium ,Chromosome ,Plant Science ,Horticulture ,Biology ,Polymorphism (computer science) ,Genotype ,Allele ,Association mapping ,Agronomy and Crop Science ,Gene - Abstract
A set of 192 barley genotypes of wide eco-geographic origin were evaluated for flowering time (FT), the major adaptive trait in Ethiopian barleys. Morphological, functional and DArT markers were used to explore trait-marker associations, population structure, genetic diversity and extent of pair-wise linkage disequilibrium (LD). A wide magnitude of variation in FT was detected within and across environments and spanned at least 50–60 days with clear G × E interactions (GEI). The average DArT polymorphism estimated by gene diversity and polymorphic information content (PIC) was 0.33 and 0.27 respectively. Four distinct subpopulations, with one outlying group were identified which indicated that the populations were structured. The genome-wide LD extended up to 25 cM, with extensive variation at chromosome level. Markers associated with FT were found close to known QTLs for FT such as VRN-H1, VRN-H3, Ppd-H1, Ppd-H2 and earliness per se (Eps-2S), but also in regions known for FT-like and CO-like genes working under short days. In some QTLs the magnitudes and directions of the effects varied with environments. It is proposed that genes conditioning tolerance to drought and/or waterlogging interact with FT genes and modify the phenotype. A non-random association of alleles on different chromosomes—vrs1 (2H), BYDV resistance (3H) and srh (5H) associated with altitude and FT indicated a co-adapted gene complex. A set of 95 genotypes were selected to represent the Ethiopian section of the Barley Core Collection.
- Published
- 2012
- Full Text
- View/download PDF
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