Abstract
Brown blotch disease caused by Colletotrichum capsici, is one of the most important disease affecting cowpea production in Burkna Faso. Every year the disease can cause yield losses as high as 42 to 100% on farmer’s fileds. This study aimed to understand the inheritance of its resistance in cowpea and also identify quantitative trait loci (QTL) associated with the resistance. Seedlings of parents and F1, F2 and BC1F1 progenies from crosses involving four susceptible and four resistant parents were screened in greenhouse conditions for brown blotch disease reaction. The inheritance studies indicated that different genes action were involved in the resistance of brown blotch resistance disease. In KN-1 variety, two or several genes associated to brown blotch were suggested. In Donsin local, a partially dominant gene, Rcc1, would be associated with the resistance. In Moussa local, a single major dominant gene, Rcc2, was identified. A single major recessive gene, rcc2, was found to control resistance with brown blotch in the cowpea resistant variety IT93K-503/46-13. The research of gene or QTL associated with brown blotch in cowpea variety KN-1 has been investigated. Polymorphic single nucleotide polymorphisms (SNP) markers and QTL associated to brown blotch resistance were discovered from 63 F2 individuals from a cross involving the susceptible variety Tiligre and the resistant KN-1. More than 11800 polymorphic SNP markers covered 1019.3 cM of the whole genome of cowpea were identified. A single dominant QTL, nomed qBBDR2 and 102 individual SNP markers tightly associated with the resistance of C. capsici were identified on chromosome 2 (Phytozome) of the cowpea genome. Key word: Cowpea, Colletotrichum capsici, resistance, inheritance, single nucleotide polymorphisms (SNP) marker, QTL.
Highlights
Brown blotch disease caused by Colletotrichum capsici continues to cause enormous damage by seriously compromising development policies in terms of food security
We described the nature of inheritance of resistance and detected quantitative trait loci (QTL) associated with brown blotch disease in cowpea
The inheritance study of brown blotch in cowpea indicated that genes of different nature are controlling the disease resistance
Summary
Brown blotch disease caused by Colletotrichum capsici continues to cause enormous damage by seriously compromising development policies in terms of food security. Crop Sci. varieties of cowpea, local and improved, have been identified as resistant and constitute real resources of exploitable genes. Information on C. capsici resistance genes is limited This is because of the economic importance of brown blotch, the research of new sources of resistance is indispensable for identifying genes associated with the resistance. The research conducted by Sérémé (1999) has highlighted the existence of different pathotypes of C. capsici. This high pathogenic variability of the C. capsici strains, makes selection much complex, a real challenge for cowpea breeders. Sérémé (1999) suggested a probable existence of quantitative effect genes involved in resistance to brown blotch in several genotypes. Moussa local, Donsin local and IT93K-503/46-13 showed interesting levels of resistance to C. capsici isolates and could be used in crosses with cowpea susceptible elite varieties
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