EFL teachers' continuous professional development: Reflections and target needs

Continuous Professional development (CPD) has received growing attention in teacher education research since it has the potential to affect teacher learning. Despite this, studies on English as Foreign Language (EFL) teachers' needs for CPD have been limited. To bridge this gap, this study investigated EFL teachers' reflections on and target needs for CPD. This study employed a mixed-methods research design, which involves both quantitative and qualitative approaches to answer the research questions. The research participants included 20 EFL teachers teaching at government high schools, and the data were collected using a test, questionnaires, and interviews. The findings indicated that EFL teachers have different views of their lacks, wants, and necessities. Furthermore, EFL teachers reflected that the current CPD program, which is practiced in their school, was never conducted to help them develop their profession. At the 0.01 level (2-tailed), there was a strong, negative correlation between EFL teachers’ CPD target needs and their reflections on the current CPD (rs = - 0.961, n = 20, p=. 01). Finally, the study recommends revising the CPD program; stakeholders should conduct program evaluations and then incorporate teachers’ reflections and target needs for CPD

Investigating University EFL Teachers’ Perception, Practice, and Challenges in Self-Initiated Professional Development

The topic of self-initiated professional development has garnered increasing attention among English as a Foreign Language (EFL) teachers who are motivated to identify and address gaps in their professional development. This study aimed to investigate the perceptions, practices, and challenges of EFL teachers at Addis Ababa Science and Technology University with regard to self-initiated professional development. The participants consisted of 35 EFL instructors with 12 holding PhD degrees and the remaining 23 holding MA degrees at Addis Ababa Science and Technology University. The study adopted a concurrent mixed methods research design, utilizing both a questionnaire and semi-structured interviews for data collection. The study employed a total population sampling method and conducted semi-structured interviews with four randomly selected EFL teachers. Data analysis was performed separately for the questionnaire and interview data, followed by a mixed analysis to triangulate and corroborate the results. The findings revealed that the majority of the EFL teachers had a positive perception of self-initiated professional development, which was reflected in their practice of self-monitoring and analyzing critical incidents. However, the teachers did not engage in practices such as keeping a teaching journal, conducting action research, reflecting on their teaching, or developing a teaching portfolio. The challenges to self-initiated professional development were identified as lack of commitment, collaboration among colleagues, communication, and institutional support. This study highlights the potential of self-initiated professional development as an alternative means of addressing professional development needs among EFL teachers

Perspectives on the Application of Next-generation Sequencing to the Improvement of Africa’s Staple Food Crops

The persistent challenge of insufficient food, unbalanced nutrition, and deteriorating natural resources in the most vulnerable nations, characterized by fast population growth, calls for utilization of innovative technologies to curb constraints of crop production. Enhancing genetic gain by using a multipronged approach that combines conventional and genomic technologies for the development of stress-tolerant varieties with high yield and nutritional quality is necessary. The advent of next-generation sequencing (NGS) technologies holds the potential to dramatically impact the crop improvement process. NGS enables whole-genome sequencing (WGS) and re-sequencing, transcriptome sequencing, metagenomics, as well as high-throughput genotyping, which can be applied for genome selection (GS). It can also be applied to diversity analysis, genetic and epigenetic characterization of germplasm and pathogen detection, identification, and elimination. High-throughput phenotyping, integrated data management, and decision support tools form the necessary supporting environment for effective utilization of genome sequence information. It is important that these opportunities for mainstreaming innovative breeding strategies, enabled by cutting-edge “Omics” technologies, are seized in Africa; however, several constraints must be addressed before the benefit of NGS can be fully realized. African breeding programs must have access to high-throughput genotyping facilities, capacity in the application of genome selection and marker-assisted breeding must be built and supported by capacity in genomic analysis and bioinformatics. This chapter demonstrates how interventions with NGS-enabled innovative strategies can be applied to increase genetic gain with insights from the Consortium of International Agricultural Research (CGIAR) in general and the International Institute of Tropical Agriculture (IITA) in particular

Morpho-agronomic and molecular characterisation of Oryza glaberrima germplasm from Mali

In order to exploit the important agronomic traits that make Oryza glaberrima Steud suitable for harsh growing conditions, 79 Riz Africain du Mali (RAM) including four checks of known cultivated rice species (Oryza sativa and O. glaberrima) were used for both field evaluation over two seasons (2007 and 2008) and assessment of molecular diversity. The molecular characterization showed all the 37 SSR markers used amplified and were polymorphic. The average heterozygosity of the accessions were relatively higher (0.18) than some earlier studies. The population from Mopti and Gao had a higher genetic diversity than other populations. Clustering of individuals showed no clear pattern of grouping based on either location or growing condition; this is due to the higher gene flow (Nm = 7.83) that may occur between different growing condition within location. Moreover, populations from different locations were highly differentiated (fst = 0.06) as compared to populations from different growing conditions (fst = 0.03). The dendrogram based on populations from different growing conditions revealed more similarity among populations with relatively similar growing conditions. Accessions such as, RAM116, RAM100 and RAM122, performed better under drought with a grain weight advantage of 40, 16 and 6.7% respectively over the best performing check.Key words: Genetic diversity, SSR markers, drought tolerance, Oryza glaberrima

Identification of candidate flowering and sex genes in white Guinea yam (D. rotundata Poir.) by SuperSAGE transcriptome profiling

Open Access JournalDioecy (distinct male and female individuals) combined with scarce to non-flowering are common features of cultivated yam (Dioscorea spp.). However, the molecular mechanisms underlying flowering and sex determination in Dioscorea are unknown. We conducted SuperSAGE transcriptome profiling of male, female and monoecious individuals to identify flowering and sex-related genes in white Guinea yam (D. rotundata). SuperSAGE analysis generated a total of 20,236 unique tags, of which 13,901 were represented by a minimum of 10 tags. Of these, 88 tags were significantly differentially expressed in male, female and monoecious plants. Of the 88 differentially expressed SuperSAGE tags, 18 corresponded to genes previously implicated in flower development and sex determination in multiple plant species. We validated the SuperSAGE data with quantitative real-time PCR (qRT-PCR)-based analysis of the expression of four candidate genes. Our findings suggest that mechanisms of flowering and sex determination are likely conserved in Dioscorea. We further investigated the flowering patterns of 1938 D. rotundata accessions representing diverse geographical origins over two years, revealing that over 85% of the accessions are either male or non-flowering, and that less than 15% are female, while monoecious plants are rare. Intensity of flowering appeared to be a function of sex, with male plants flowering more abundantly than female ones. Candidate genes identified in this study can be targeted with the aim to induce regular flowering in poor to non-flowering cultivars. Findings of the study provide important inputs for further studies aiming to overcome the challenge of flowering in yams and to improve the efficiency of yam breeding

A Large-Scale Genome-Wide Association Analyses of Ethiopian Sorghum Landrace Collection Reveal Loci Associated With Important Traits

The eastern Africa region, Ethiopia and its surroundings, is considered as the center of origin and diversity for sorghum, and has contributed to global sorghum genetic improvement. The germplasm from this region harbors enormous genetic variation for various traits but little is known regarding the genetic architecture of most traits. Here, 1425 Ethiopian landrace accessions were phenotyped under field conditions for presence or absence of awns, panicle compactness and shape, panicle exsertion, pericarp color, glume cover, plant height and smut resistance under diverse environmental conditions in Ethiopia. In addition, F1 hybrids obtained from a subset of 1341 accessions crossed to an A1 cytoplasmic male sterile line, ATx623, were scored for fertility/sterility reactions. Subsequently, genotyping-by-sequencing generated a total of 879,407 SNPs from which 72,190 robust SNP markers were selected after stringent quality control (QC). Pairwise distance-based hierarchical clustering identified 11 distinct groups. Of the genotypes assigned to either one of the 11 sub-populations, 65% had high ancestry membership coefficient with the likelihood of more than 0.60 and the remaining 35% represented highly admixed accessions. A genome-wide association study (GWAS) identified loci and SNPs associated with aforementioned traits. GWAS based on compressed mixed linear model (CMLM) identified SNPs with significant association (FDR ≤ 0.05) to the different traits studied. The percentage of total phenotypic variation explained with significant SNPs across traits ranged from 2 to 43%. Candidate genes showing significant association with different traits were identified. The sorghum bHLH transcription factor, ABORTED MICROSPORES was identified as a strong candidate gene conditioning male fertility. Notably, sorghum CLAVATA1 receptor like kinase, known for regulation of plant growth, and the ETHYLENE RESPONSIVE TRANSCRIPTION FACTOR gene RAP2-7, known to suppress transition to flowering, were significantly associated with plant height. In addition, the YELLOW SEED1 like MYB transcription factor and TANNIN1 showed strong association with pericarp color validating previous observations. Overall, the genetic architecture of natural variation representing the complex Ethiopian sorghum germplasm was established. The study contributes to the characterization of genes and alleles controlling agronomic traits, and will serve as a source of markers for molecular breeding