Varrieur, John Michael2014-03-142014-03-142002-05-17etd-05242002-165327http://hdl.handle.net/10919/33177Potato haploids have been recent components in protoplast fusion research, strategies to combine wild and cultivated potato germplasm and the generation of economically valuable mutant phenotypes. Additionally, most major genetic mapping and QTL analyses in potato have utilized haploid germplasm to simplify linkage-mapping computations. The accuracy of genetic assumptions concerning the randomness and genetic purity of haploid genomes may directly affect the statistical validity of many results in current potato research. In the present study, AFLP analysis was conducted on two sibling S. phureja "BARD 1-3" monoploid populations derived by androgenesis in anther culture, and gynogenesis through the use of a haploid-inducing pollinator, S. phureja "IVP 101." Little indication of somaclonal variation and haploid-inducer gene introgression was found in the monoploid band data suggesting genomic stability. Segregation of marker alleles that were heterozygous in the parent was distorted from the expected 1:1 ratio in both populations, ranging from 35% in the gynogenic monoploids (GM) to 46% in the androgenic monoploids (AM). Genetic diversity appeared more random among the monoploid populations after skewed marker data was removed from phylogenetic analyses. Bilateral and unilateral marker skewness in the monoploid populations may respectively indicate common and unique segregation distorting loci (SDL) present in the AM and GM genomes. Representatives of both SDL types were located on a partial linkage map created using androgenic monoploid data.In CopyrightAFLPmonoploidhaploidpotatoSolanum phurejaThesishttp://scholar.lib.vt.edu/theses/available/etd-05242002-165327/