Posts Tagged ‘adoption’

The list of STMA-supported research publications from West Africa for the year 2019 is out

Posted on News, Press room, Published Journals, Research News, Seed System Publication, West Africa News, West Africa Publications, November 30, 2019

Melaku Gedil and Abebe Menkir. 2019. An Integrated Molecular and Conventional Breeding Scheme for Enhancing Genetic Gain in Maize in Africa. Published in Frontiers. Plant Sciences and accessible here

Adu, G. B., Badu-Apraku, B., Akromah, R., Garcia-Oliveira, A. L., Gedil, M., Awuku, F. J. 2019. Genetic diversity and population structure of early-maturing tropical maize inbred lines using SNP markers, published  in PloS ONE, volume 14, number 4 and accessible here  

Badu-Apraku, B., Talabi, A. O., Fakorede, M., Fasanmade, Y., Gedil, M., Magorokosho, C., Asiedu, R. 2019. Yield gains and associated changes in an early yellow bi-parental maize population following genomic selection for Striga resistance and drought tolerance, published in BMC Plant Biology, volume 19, number 129, and accessible here.

Bankole, F., Menkir, A., Olaoye , G.*, Olakojo, O.*, Gedil, M. 2019. Association studies between grain yield and agronomic traits of a MARS maize (Zea mays L.) population under drought and non-stress condition, published in Acta Agriculturae Slovenica, volume 114, and accessible here.

Kammo, E. Q., Suh, C., Mbong, G. A., Djomo, S. H., Chimi, N. L. L., Mbeungang, D. L., Mafouasson, H. A., Meseka, S. K. and Menkir, A. 2019. Biological versus chemical control of fall armyworm and Lepidoptera stem borers of maize (Zea mays), published in Agronomie Africaine, volume 31, number 2, and accessible here.

Kolawole, A. O., Menkir, A., Blay, E., Ofori, K. and Kling, J. G., 2019. Changes in heterosis of maize (Zea mays L.) varietal cross hybrids after four cycles of reciprocal recurrent selection, published in Cereal Research Communications, volume 47, number 1, and accessible here .

Sangare, A., Menkir, A., Ofori, K. and Gracen, V., 2019. Studies on estimation of heterosis for striga resistance in maize test crosses in Mali, published in Journal of Genetics, Genomics & Plant Breeding, volume 3, number 3, and accessible here

Akaogu, I. C., Badu-Apraku, B., Tongoona, P., Ceballos, H., Gracen, V. E., Offei, S. and Dzidzienyo, D. 2019. Inheritance of Striga hermonthica adaptive traits in an early-maturing white maize inbred line containing resistance genes from Zea diploperennis. published in Plant Breeding, and accessible here  

Annor, B., Badu-Apraku, B., Nyadanu, D., Akromah, R. and Fakorede, M. 2019. Testcross performance and combining ability of early maturing maize inbreds under multiple-stress environments, published in NATURE Scientific Reports, volume 9, and accessible here .

Nelimor, C., Badu-Apraku, B., Nguetta, S. P., Tetteh, A. Y. and Garcia-Oliveira, A. L. 2019. Phenotypic characterization of maize landraces from Sahel and Coastal west Africa reveals marked diversity and potential for genetic improvement, published in Journal of Crop Improvement, and accessible here .

Obeng-Bio, E., Badu-Apraku, B., Ifie, B. E., Danquah, A., Blay, E. and Annor, B. 2019. Genetic analysis of grain yield and agronomic traits of early provitamin A quality protein maize inbred lines in contrasting environments,  published in The Journal of Agricultural Science, and accessible here.

Nelimor, C., Badu-Apraku, B., Tetteh, A. Y.* and Nguetta, A. S. 2019. Assessment of genetic diversity for drought, heat and combined drought and heat stress tolerance in early maturing maize landraces, published in Plants, volume 8, and accessible here.

Badu-Apraku, B., Fakorede, M., Talabi, A. O., Oyekunle, M., Aderounmu, M., Lum, A. F., Ribeiro, P. F., Adu, G. B. and Toyinbo, J. O. 2019. Genetic studies of extra-early provitamin-A maize inbred lines and their hybrids in multiple environments, published in Crop Science, and accessible here.  

Badu-Apraku, B. and Akinwale, R. O. 2019. Biplot analysis of line X tester data of maize (Zea mays L.) inbred lines under stress and nonstress environments. Published in Cereal Research Communications, volume 47, number 3, and accessible here.

Oyinbo, O., Mbavai, J. J., Shitu, M. B., Kamara, A., Abdoulaye, T. and Ugbabe, O. O. 2019. Sustaining the beneficial effects of maize production in Nigeria: does adoption of short season maize varieties matter?  Published in Experimental Agriculture, and accessible here  

Kadjo, D., Ricker-Gilbert, J., Shively, G. and Abdoulaye, T. 2019. Food safety and adverse selection in rural maize markets. Published in Journal of Agricultural Economics, and accessible here .

Assfaw Wossen, T., Alene, A., Abdoulaye, T., Feleke, S. and Manyong, V. 2019. Agricultural technology adoption and household welfare: measurement and evidence, published in Food Policy, and accessible here  

The list of STMA-supported research publications from Eastern and Southern African region for the year 2019 is out

Posted on Eastern Africa Publications, Published Journals, Research Publication, Seed System Publication, Southern Africa Publications, November 17, 2019

The list of research publications supported by the STMA project for the year 2019 has been compiled. Breakthrough research findings cover adoption studies, evaluation of new maize breeding methodologies, identification of genetic markers for accelerated maize improvement for various stresses including maize lethal necrosis resistance, drought and heat tolerance,…

Amondo et al, 2019. Productivity and production risk effects of adopting drought-tolerant maize varieties in Zambia published in the International Journal of Climate Change Strategies and Management is accessible here

Awata et al, 2019. Maize lethal necrosis and the molecular basis of variability in concentrations of the causal viruses in co-infected maize plant, published in the Journal of General and Molecular Virology is accessible here

Awondo, S.N. et al, 2019. Multi-Site Bundling of Drought Tolerant Maize Varieties and Index Insurance, published in the Journal of Agricultural Economics is accessible here.

Buchaillot MB et al, 2019. Evaluating maize genotype performance under low nitrogen conditions using RGB UAV phenotyping techniques, published in Sensors. Accessible here

Chaikam V et al, 2019. Doubled haploid technology for line development in maize: technical advances and prospects, published in Theoretical and Applied Genetics. Accessible here.

Chaikam, V. et al, 2019. Genome-wide association study to identify genomic regions influencing spontaneous fertility in maize haploids, published in Euphytica, accessible here.  

Katengeza, S.P. et al, 2019. Adoption of Drought Tolerant Maize Varieties under Rainfall Stress in Malawi, published in the Journal of Agricultural Economics. Accessible here.  

Lunduka, R.W. et al, 2019. Impact of adoption of drought-tolerant maize varieties on total maize production in south Eastern Zimbabwe, published in the Climate and Development. Accessible here.  

Nair S et al, 2019. Genetic dissection of maternal influence on in vivo haploid induction in maize, published in The Crop Journal (in press)

Simtowe, F. et al, 2019. Impacts of drought-tolerant maize varieties on productivity, risk, and resource use: Evidence from Uganda, published in the Land Use Policy Journal. Accessible here.  

Simtowe, F. et al, 2019. Heterogeneous seed access and information exposure: implications for the adoption of drought-tolerant maize varieties in Uganda, published in the Agricultural and Food Economics Journal. Accessible here.  

Sitonik, C. et al, 2019. Published in Theoretical and Applied Genetics. Genetic architecture of maize chlorotic mottle virus and maize lethal necrosis through GWAS, linkage analysis and genomic prediction in tropical maize germplasm. Accessible here.

Tigist Mideksa Damesa et al, 2019. Comparison of weighted and unweighted stage-wise analysis for genome-wide association studies and genomic selection, to be published in Crop Science. The PhD dissertation is accessible here.

Wegary, D. et al, 2019. Molecular diversity and selective sweeps in maize inbred lines adapted to African highlands, published in Nature Scientific Reports. Accessible here.  

Wender et al 2019. Performance and Yield Stability of Maize Hybrids in Stress-prone Environments in Eastern Africa,  published in the Crop Journal. Accessible here.  

Not reported but published in 2018

Araus JL et al, 2018. Phenotyping: New Crop Breeding Frontier. In: R. A. Meyers (ed.), Encyclopedia of Sustainability Science and Technology, Springer Science+Business Media, LLC, part of Springer Nature 2018.

Das B et al, 2018. Identification of low N tolerant donors for maize breeding in sub-Saharan Africa. Published in Euphytica and accessible here.

Yuan Y et al., 2018. Genome-wide association mapping and genomic prediction analyses reveal the genetic architecture of grain yield and flowering time under drought and heat stress conditions in maize. Published in Frontiers in Plant Science and accessible here.

Heterogeneous seed access and information exposure: implications for the adoption of drought-tolerant maize varieties in Uganda

Posted on , November 17, 2019

Frequent droughts in sub-Saharan Africa imply water stress for rainfed agriculture
and, ultimately, food insecurity, underlining the region’s vulnerability to climate
change. Yet, in the maize-growing areas, farmers have been given new droughtcoping
options following the release and availability of drought-tolerant maize
varieties (DTMVs).

These varieties are being disseminated through the National Agricultural Research and Extension Systems in collaboration with seed companies; however, their adoption still appears somewhat modest, and empirical studies on their adoption potential and associated drivers are scarce.

We use empirical data from Uganda to estimate the actual and potential adoption rates and the adoption determinants of DTMVs under information and seed access constraints.

Adoption rates for DTMVs could have been up to 22% in 2015 instead of the observed sample
adoption rate of 14% if the whole population had been exposed to them. The adoption rate could increase to 30% if seed were availed to the farming population and to 47% if seed were sold at a more affordable price to farmers.

The observed adoption rate of 14% implies gaps in the potential adoption rates of 8%, 16%, and 33% because of a lack of awareness, a lack of seed access, and high seed prices, respectively.

The findings underscore the role of both market and non-market-based
approaches and the potential to further scale the cultivation of DTMVs in Uganda.

Impacts of drought-tolerant maize varieties on productivity,risk,and resource use : EvidencefromUganda

Posted on , November 17, 2019

Weather variability is an important source of production risk for rainfed agriculture in developing countries.

This paper evaluates the impacts of the adoption of drought-tolerant maize varieties on average maize yield,yield stability, risk exposure and resource use in rainfed smallholder maize farming. The study uses cross-sectional farm household-level data,collected from a sample of 840 farm households in Uganda.

The adoption of drought tolerant maize varieties increased yield by 15% and reduced the probability of crop failure by 30%.

We further show that the adoption of these varieties increased investments in maize production at the extensive margin through maize area increase and to a more limited extent at the intensive margin through mechanization.

The findings show promise for further uptake and scaling of drought-tolerant maize varieties for increased productivity,reduced risk, and the transformation of the maize sector.

Impact of adoption of drought-tolerant maize varieties on total maize production in south Eastern Zimbabwe

Posted on , November 17, 2019

Drought is a huge limiting factor in maize production, mainly in the rain-fed agriculture of sub-Saharan Africa. In response to this threat, drought-tolerant (DT) maize varieties have been developed with an aim to ensure maize production under mild drought conditions.

We conducted a study to assess the impact of smallholder farmers’ adoption of DT maize varieties on total maize production. Data for the study came from a survey of 200 randomly sampled households in two districts of Chiredzi and Chipinge in southeastern Zimbabwe.

The study found that 93% of the households were growing improved maize varieties and that 30% of the sampled households were growing DT maize varieties. Total maize yield was 436.5 kg/ha for a household that did not grow DT maize varieties and 680.5 kg/ha for households that grew DT maize varieties.

We control for the endogeneity of the DT adoption variable, by using the control function approach to estimate total maize production in a Cobb–Douglas model. The results show that households that grew DT maize varieties had 617 kg/ha more maize than households that did not grow the DT maize varieties. Given that almost all farmers buy their seeds in the market, a change in varieties to DT maize seeds gives an extra income of US$240/ha or more than nine months of food at no additional cost.

This has huge implications in curbing food insecurity and simultaneously saving huge amounts of resources at the household and national levels, which are used to buy extra food during the lean season.

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