Phenotypic Changes in Grain Sorghum Over the Last Five Decades     

Y. Assefa  S. A. Staggenborg 《Journal of Agronomy and Crop Science》2011,197(4):249-257

Sorghum [Sorghum bicolor (L.) Moench] is a drought‐tolerant crop, and its productivity in rain fed environments has increased since the 1950s. This increase is due to changes in agronomic practices and hybrid improvement. The objective of this study was to determine what aspects of grain sorghum morphology, physiology and water use have changed with hybrid improvement and might have contributed to this yield increase. A 2‐year greenhouse experiment was conducted with one hybrid from each of the past five decades. The hybrids were studied in well‐watered and pre‐ and post‐flowering water deficit conditions. Total water use, transpiration, stomatal conductance and photosynthesis were measured during the growing period. Biomass and biomass components were measured at harvest. There was no consistent change in the leaf physiological parameters resulting from hybrid advancement. In contrast, total water use increased in rate of 8.5 cm³ kg soil^?1 year^?1 from old to new hybrids in the well‐watered treatments. Root biomass also increased in rate of 0.2 g plant^?1 year^?1. Leaf biomass and panicle length also was greater for the newest compared with the older hybrids. Hybrid advancement was related to increase in panicle length but decrease in peduncle length. Results indicated that hybrid development programmes created hybrids with improved drought avoidance, due to better root density of newly released hybrids, or hybrids with better resource use which ultimately increased yield under rain fed conditions.  相似文献   

Community-based tsetse fly control significantly reduces fly density and trypanosomosis prevalence in Metekel Zone,Northwest, Ethiopia     

Gebrerufael Girmay  Bezna Arega  Dawit Tesfaye  Dirk Berkvens  Gadisa Muleta  Getnet Asefa 《Tropical animal health and production》2016,48(3):633-642

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Characterization of Corynelia uberata Fr., a putative fungal pathogen of Podocarpus falcatus in Ethiopian forests     

A. Assefa  D. Abate  J. Stenlid 《Forest Pathology》2014,44(1):45-55

Corynelia spp. are ascomycetes belonging to the order Coryneliales and are thought to be obligate parasites of trees in the Podocarpaceae. The aims of this study were to determine the disease intensity of Corynelia infection on Podocarpus falcatus in Ethiopian forests and verify the identity of Corynelia spp. from Ethiopia and other countries using morphological and molecular methods. Disease surveys were conducted in P. falcatus forest areas at Adaba‐Dodola, Bushoftu, Menagesha, Shashamane and Wondo Genet in Ethiopia between 2009 and 2011, and samples were collected for morphological and molecular studies. Additional dried specimens morphologically collected as C. uberata, C. portoricensis and C. tropica from Podocarpus species in Kenya, South Africa, Puerto Rico and New Zealand were also characterized. Morphologically, the South African specimen (F‐006479) of C. uberata had significantly larger ascospores when compared with the other specimens. There was a high sequence similarity (99–100%) in the internal transcribed spacer and 5.8S (ITS‐5.8S) region among the studied C. uberata sequences. Cloning and amplification of the insert spanning partial small ribosomal unit (SSU) and ITS‐5.8S regions of ribosomal DNA validated the unidentified ITS‐5.8S region as the sequence of C. uberata by inferring the reference sequence of SSU rDNA of C. uberata in GenBank. Both neighbour‐joining and/or maximum parsimony methods placed ITS‐5.8S and SSU rDNA sequences of Corynelia spp. at the basal position of the clade Eurotiomycetidae. C. uberata was found to be a potential pathogen on leaves, fruits and young stems of P. falcatus in Ethiopia.  相似文献   

Heritability and genetic advance in recombinant inbred lines of tef (Eragrostis tef)     

H. Tefera  K. Assefa  F. Hundera  T. Kefyalew  T. Teferra 《Euphytica》2003,131(1):91-96

Recombinant inbred lines (RILs) of the tef cross Kaye Murri × Fesho were evaluated for nine quantitative traits at three locations in the central highlands of Ethiopia during the 1998/99 main season in order to estimate the genetic coefficient of variation (GCV), heritability and genetic advance expected from selection. Highly significant differences were obtained among the RILs for all traits studied. Grain yield, panicle weight and yield per panicle showed a relatively high GCV (12–16%). A comparatively high heritability was obtained from days to heading (31%) followed by panicle length (25%) and grain yield (23%). Moderate amounts of heritability values were obtained for panicle weight and yield per panicle. High genetic advance as percent of the mean were obtained from grain yield (16%), yield per panicle (12%) and panicle weight (10%) at5% selection intensity, which indicated the possibility of improving these traits. Several RILs were identified that have exceeded the better yielding parent at all locations. Grain yield showed a strong positive association (r = 0.26–0.70) with shoot biomass, lodging index, panicle length, plant height, panicle weight and yield per panicle. Overall, the present results showed a) the availability of genetic variance for some useful traits in the RILs for exploitation through selection, b) the existence of significant genotype × location interaction that indicated the need to test inbred populations in more environments, and c)the availability of superior inbred lines for further breeding work. This revised version was published online in August 2006 with corrections to the Cover Date.  相似文献   

Improving adaptation to drought stress in small red common bean: phenotypic differences and predicted genotypic effects on grain yield,yield components and harvest index     

Teshale Assefa  Jixiang Wu  Stephen E. Beebe  Idupulapati M. Rao  Daniele Marcomin  Rubyogo J. Claude 《Euphytica》2015,203(3):477-489

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Extent and Pattern of Genetic Diversity for Morpho-agronomic Traits in Ethiopian Highland Pulse Landraces: I. Field Pea (<Emphasis Type="Italic">Pisum sativum</Emphasis> L.)     

Gemechu Keneni  Mussa Jarso  Tezera Wolabu  Getnet Dino 《Genetic Resources and Crop Evolution》2005,52(5):539-549

An experiment was conducted in 2001 at Holetta and Kulumsa, Ethiopia, to study the extent and pattern of genetic diversity in Ethiopian field pea (Pisum sativum L.) landraces. One hundred forty-eight germplasm accessions were grown in an alpha lattice design with 2 replications. Data on 12 traits were collected and analyzed. Differences among the accessions were significant for most of the traits (except number of seeds/ pod) at each location even though differences pooled over location were mostly non-significant. The accessions were grouped into five clusters of different sizes. Accessions from the southern part of the country (Arsi) distributed overall clusters while those from the northern half (North and South Wello, North Gonder and North Shewa) fell into clusters C₁ to C₃. Cumulative effects of a number of characters dictated differentiation of the accessions into clusters. There was no definite relationship between geographic diversity and genetic diversity as overlapping was encountered in clustering pattern among accessions from different parts of the country. Accessions from different regions might have similar genetic background and those from the same origin might also have different genetic background. Therefore, geographic diversity should not necessarily be used as an index of genetic diversity and parental selection should be based on a systematic study of genetic diversity in a specific population. Genetic distances among most of the clusters were significant that crosses between parents selected out of them are expected to generate desirable genetic recombination. Selection should also consider the special advantages of each cluster and each accession within a cluster. Future germplasm collection, conservation and breeding efforts should focus not only on inter-regional diversity but also on intra-regional diversity.  相似文献   

Extent and Pattern of Genetic Diversity for Morpho-agronomic Traits in Ethiopian Highland Pulse Landraces II. Faba Bean (<Emphasis Type="Italic">Vicia faba</Emphasis> L.)     

Gemechu Keneni  Mussa Jarso  Tezera Wolabu  Getnet Dino 《Genetic Resources and Crop Evolution》2005,52(5):551-561

A field experiment was conducted in 2001 at Holetta and Kulumsa, Ethiopia, to study genetic diversity in Ethiopian faba bean (Vicia faba L.) landraces. One hundred sixty random germplasm accessions were grown in an alpha lattice design with two replications. Data on 12 traits were collected and analyzed. Significant differences were observed among the accessions for most of the traits (except number of pods/podding nodes) at each location even though differences pooled over location were mostly non-significant. Cluster analysis distinguished seven diversity classes of different sizes. Accessions from the northern half of the country (North and South Wello, North Gonder and North Shewa) were closely related while those from the southern part of the country (Arsi) were highly diverse. Cumulative effects of a number of characters dictated differentiation of the accessions into clusters. Some overlapping were encountered between accessions from the northern and those from the southern parts of the country. The study revealed that accessions from different regions might have similar genetic background and those from the same origin might also have different genetic background. Therefore, geographic diversity should not necessarily be used as an index of genetic diversity and parental selection should be based on a systematic study of genetic diversity in a specific population. Genetic distances between most of the clusters were significant that crosses between parents selected out of them are expected to generate desirable progenies. Future germplasm collection, conservation and utilization strategies should put more focus not only on inter-regional diversity in the country as a whole but also on intra-regional diversity in Arsi.  相似文献   

Tick resistance to acaricides in western Ethiopia     

Assefa Regassa  Julio J. de Castro 《Tropical animal health and production》1993,25(2):69-74

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Diversity among germplasm lines of the Ethiopian cereal tef [ Eragrostis tef (Zucc.) Trotter]     

Kebebew Assefa  Seyfu Ketema  Hailu Tefera  Henry T. Nguyen  Abraham Blum  Mulu Ayele  Guihua Bai  Belay Simane  Tiruneh Kefyalew 《Euphytica》1999,106(1):87-97

Three hundred twenty germplasm lines of the major Ethiopian cereal, tef, [ Eragrostis tef (Zucc.) Trotter], were evaluated for 20 morphological, phenological and agronomic characters in two-replicated randomized complete blocks at Debre Zeit and Melkassa Agricultural Research Centers in Ethiopia during the 1995 main season. The objectives were to assess the diversity of the lines, and to estimate the broad sense heritability (H) and genetic advance (GA) of the various characters. The mean squares of genotypes were highly significant (p ≤ 0.001) for all the traits. The phenotypic and genotypic coefficients of variation ranged in that order from about 6–40% and 3–23% for days to maturity and grain yield/plant, and days to maturity and number of spikelets/main shoot panicle, respectively. The cluster analysis grouped the genotypes into 14 major complexes consisting of one to 183 lines. Of the 19 principal components involved in explaining the entire variation among the genotypes the first five which had eigenvalues of more than one explained about 73.8%. The first principal component which accounted for about 34% of the total variance was due chiefly to plant height, culm and panicle length, diameters of the two basal culm internodes, main shoot panicle mass and grain yield, number of main shoot panicle branches and spikelets, and days to panicle emergence and maturity. Estimates of H varied from about 22% for length of the lowest main shoot stem internode to 74% for number of main shoot panicle branches. Values of GA (expected from selection of the superior 5% of the lines and expressed relative to the means) ranged from about 3% for days to maturity to 36% for number of spikelets/main shoot panicle. Overall, the study indicated the existence of trait diversity in tef germplasm and this can be exploited in the genetic improvement of the crop through hybridization and selection. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

Gene action controlling yield and yield‐related traits among tef (Eragrostis tef [Zucc.] Trotter) populations under drought‐stressed and nonstressed conditions          下载免费PDF全文

Mizan Tesfay Abraha  Hussien Shimelis  Mark Laing  Kebebew Assefa 《Plant Breeding》2018,137(4):585-597

This study was aimed to determine gene action for grain yield and yield‐related traits of newly developed tef populations under drought‐stressed and nonstressed conditions to improve drought tolerance. Ten crosses, along with the parents, were evaluated in the F₂ generation under drought‐stressed conditions at Hastebo and Adigdad sites in 2015 and Dura site in 2016 and under nonstressed conditions at Dura site in 2016. Additive gene action predominantly controlled the inheritance of the grain yield and majority of the yield‐related traits under drought‐stressed and nonstressed conditions. Under both test conditions, the genotypes DZ‐Cr‐387 and 9415 were the best general combiners for increased grain yield and morphological traits. Conversely, genotype 222076 was the best general combiner for reduced maturity period only. The selected parents are novel genetic materials for tef breeding programmes to improve grain yield and morphological traits with reduced days to maturity for drought tolerance breeding. The family of the cross DZ‐Cr‐387 × 222076 was selected for high grain yield and early maturity in both the drought‐stressed and nonstressed environments.  相似文献