Browsing by Author "K. Akankwasa"

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    Early-Stage Adoption of Improved Banana “Matooke” Hybrids in Uganda: A Count Data Analysis Based on Farmers' Perceptions
    (International Journal of Innovation and Technology Management, 2015-09-14) K. Akankwasa; G. F. Ortmann; E. Wale; W. K. Tushemereirwe
    This paper analyzes farmers' perceptions regarding the consumption and production attributes of new banana hybrids in Uganda. The data were collected from a sample of 454 farmers. Following descriptive statistics and a factor analysis, a zero-inflated poisson (ZIP) regression model was estimated to understand the effect of farmers' perceptions and other factors on the likelihood of adopting the new hybrids. The results show that, compared to a local variety (Mbwazirume), four of the hybrids are preferred in terms of production attributes but regarded as inferior with respect to consumption characteristics. Resistance to nematodes, tolerance to weevils and high performance in good seasons in terms of bunch size mainly explain early-stage adoption of the hybrid banana varieties. Hybrid M9 is regarded as having a relatively good performance with respect to most of the production and consumption characteristics. In collaboration with extension agents, variety M9 could be disseminated to a wider farming community that targets larger households, younger farmers and farmers with relatively large sizes of land.
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    The Performance Of East African Highland Bananas Released In Farmers’ Fields And The Need For Their Further Improvement
    (Acta Hortic., 2016-05-15) J. Kubiriba; R.T. Ssali; A. Barekye; K. Akankwasa; W.K. Tushemereirwe; M. Batte; E.B. Karamura; D. Karamura
    East African highland bananas (AAA, EAHB) form over 80% of the banana cultivars in the Great Lakes region and are a source of food and income for over 40 million in the region. The production of these bananas has been constrained by pests, diseases, soil fertility decline and most recently climate change stresses. Farmers have been managing these problems using cultural practices. These are sometimes effective, such as for Xanthomonas wilt control, but can also be very demanding. For others, no cultural control practices exist, such as for instance for nematodes in established plantations. The banana research program of the National Agricultural Research Organisation (NARO) in Uganda therefore focuses on the improvement of bananas for pest/disease resistance and fruit quality through conventional and molecular breeding to sustain banana production. In collaboration with the International Institute for Tropical Agriculture (IITA), the NARO breeding program has developed and officially released a number of banana hybrids to the farming communities, including ‘Kabana 6H’ (syn. ‘M9’) and ‘Kabana 7H’ (syn. ‘M2’). The released and promising hybrids have resistance to black leaf streak and tolerance to nematodes and weevils. Their overall consumer acceptability is not significantly different from that of the landrace local check. The recipient communities value the hybrids since they are being widely distributed through sales and giveaways in addition to recipient farmers expanding their plots. However, these hybrids are susceptible to Xanthomonas wilt, and are very tall and prone to wind damage. There is an opportunity to improve the hybrids for above-mentioned and other traits exploiting Musa’s over 36,000 genes in the sequenced genome.