Abstract:
The yam species, Dioscorea alata has an advantage for sustainable cultivation due to its comparatively good agronomic characteristics. Breeders are therefore keen to improve the food quality of the species. Nevertheless, published data on molecular classification and genetic diversity of this crop are scanty. This research therefore investigated genetic variability and relationships among some collected Ghanaian D. alata accessions (35) together with 14 introductions from IITA in Nigeria. The true genetic identity and population structure of the accessions were determined using 14 Simple Sequence Repeats primer pairs available for yams. Dimensional scatter diagram of the principal coordinates showed a wide dispersion among the accessions. Cluster analysis using unweighted neighbour-joining method clearly separated the 49 accessions into five main groupings. From the allele frequency analysis, the size of amplified alleles ranged from 100 to 510 bp. The mean polymorphic information content (PIC) values for all markers used was 0.91 and ranged between 0.86 and 0.94 in loci YM13 and YM30 respectively. Gene diversity was high and the average observed heterozygosity was 0.77. Gene diversity was high ranging from 0.87 in YM13 to 0.94 in YM30 with a mean of 0.92. Generally, the allele frequency of all the primers was below 0.95 indicating that they were all polymorphic in character. The findings of this study confirm that SSR molecular markers are able to identify closely related materials within species