O SlideShare utiliza cookies para otimizar a funcionalidade e o desempenho do site, assim como para apresentar publicidade mais relevante aos nossos usuários. Se você continuar a navegar o site, você aceita o uso de cookies. Leia nosso Contrato do Usuário e nossa Política de Privacidade.
O SlideShare utiliza cookies para otimizar a funcionalidade e o desempenho do site, assim como para apresentar publicidade mais relevante aos nossos usuários. Se você continuar a utilizar o site, você aceita o uso de cookies. Leia nossa Política de Privacidade e nosso Contrato do Usuário para obter mais detalhes.
O slideshow foi denunciado.
Desbloqueou transferências ilimitadas no SlideShare!
Genetic diversity of common beans as impacted on by farmer variety selection for the management of bean root rots in south western Uganda
GENETIC DIVERSITY OF COMMON BEANS AS IMPACTED ON BY FARMER VARIETY SELECTION FOR THE MANAGEMENT OF BEAN ROOT ROTS IN SOUTH WESTERN UGANDA S. Buah 1 , P. Okori 2 and R. Buruchara 1 1 International Center for Tropical Agriculture (CIAT), Kawanda, P.O. Box 6247, Kampala, Uganda; 2 Makerere University, Faculty of Agriculture, P.O. Box 7062, Kampala, Uganda. Introduction Common bean is the world's most important food legume with an average consumption of 66 kg per person per year in Eastern Africa. Uganda is the second largest consumer after Rwanda. However, production of the crop is curtailed by several biotic and abiotic constraints. Among the biotic constraints, Pythium root rot caused by a complex of Pythium species, is one of the most devastating diseases, causing yield losses of up to 100% in certain seasons. Mixtures of beans have been cultivated and managed by farmers from season to season for various reasons including protection against total crop losses. This practice has resulted in a broad array of phenotypically different seed and plant types. However, the impact of root rots on the genetic diversity of these mixtures is not well understood. The objectives of this study were therefore to 1) understand farmer practices of using bean mixtures in bean root rot management; 2) analyze genetic diversity associated with bean mixtures in South-western Uganda. Materials and Methods Diagnostic Survey : This was conducted to collect bean samples and information on mixtures representing various landraces from Kabale and Kisoro districts (Figure 1). Fifty two farmers and 28 traders/stockists were randomly selected, interviewed and a 1kg of their bean seeds collected. Morphological characterisation: Collected samples were sorted out according to seed phenotypes and were morphologically characterised in the field using the IBPGR’s (1982) descriptor list for common bean. All the cultigens were then screened against P. ultimum var. ultimum in the screen house. Molecular characterisation: Due to a large number of cultigens involved, 100 samples representing all the morpho-agronomic clusters were randomly selected and assessed for genetic variability using Simple Sequence Repeats. A total of 6 SSR primers were used to amplify specific PCR products. Phaseolin, the major storage protein of common bean, was analysed using primers that differentiate “S” phaseolin gene family from the “T” phaseolin types. Figure 3: Genetic relationships among common beans based on 6 SSR loci <ul><li>Conclusions </li></ul><ul><li>Small scale farmers have the capacity to utilize available genetic resources to manage diseases and they are aware of the benefits of integrated management approaches for root rot management. </li></ul><ul><li>The higher prevalence of Mesoamerican genotypes in the mixtures demonstrates farmers’ desire to select for root rot resistant varieties </li></ul><ul><li>Less diversity in Mesoamerican gene pool is attributed to the few sources of seeds resistant to Pythium root rots </li></ul>Figure 1: The location and number of mixtures (in red) collected from Kabale and Kisoro districts. Figure 2: Morphological relationships among bean cultigens based on 8 traits <ul><li>Acknowledgements </li></ul><ul><li>We thank Gines-Mera Fellowship Fund for the financial support. </li></ul><ul><li>Makerere University offered the academic guidance </li></ul><ul><li>CIAT-Uganda provided the research facility and technical support </li></ul>Results Farmer indigenous knowledge Over 60% of bean varieties were discovered to be locally conserved within the area either through savings from previous harvests or buying known seed types from local markets. The most important reason for using bean mixtures was insurance against unforeseen weather changes or pest and diseases. More than 78% of the respondents recognised and described symptoms of root rots on their farms. Morphological characterisation Cluster analysis based on morphological traits revealed two distinct groups corresponding to Andean (41%) and Mesoamerican (59%) gene pools (Figure 2). Overall average disease score for the Andean group was 5.7 compared to 4.7 for the Mesoamerican group. Only 16% of cultigens were resistant to Pythium, 58% were moderately resistant. About70% of resistance found in Kisoro district. Molecular Characterisation SSR analysis showed a higher diversity in the susceptible Andean genotypes than in the resistant Mesoamerican genotypes. Bootstrap analysis divided the cultigens into 2 clusters corresponding to Mesoamerican and Andean gene pools (Figure 3). The Andean cluster had T-Type phaseolin, whereas the Mesoamerican group had predominantly S-Type phaseolin which is characteristic of that gene pool. A hierarchical AMOVA revealed significant differentiation within populations at the sub-counties ( P < 0.001, but no significant genetic variability between the districts of Kabale and Kisoro ( P > 0.05).