Masters Degrees (Botany and Zoology)

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Browsing Masters Degrees (Botany and Zoology) by Author "Aylward, Janneke"

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    Diversity and dispersal of the ophiostomatoid fungus, Knoxdaviesia proteae, within Protea repens infructescences
    (Stellenbosch : Stellenbosch University, 2014-04) Aylward, Janneke; Roets, Francois; Dreyer, L. L.; Steenkamp, Emma T.; Wingfield, Michael J.; Stellenbosch University. Faculty of Science. Dept. of Botany and Zoology.
    ENGLISH ABSTRACT: Two genera of ophiostomatoid fungi occur in the seed-bearing structures of serotinous Protea species in the Cape Floristic Region. These fungi are dispersed by arthropods, including mites and beetles that visit the Protea host plants. Although the vectors of Proteaassociated ophiostomatoid fungi are known, their dispersal patterns remain unknown – especially the manner in which recently burnt fynbos vegetation is recolonized. Additionally, their reproduction strategy has not previously been investigated. The focus of this study was, therefore, to determine the extent of within- and between-plant dispersal of Proteaassociated ophiostomatoid fungi at the population level and to investigate their reproductive strategy. One Protea-associated ophiostomatoid fungus, Knoxdaviesia proteae, is found exclusively in the fruiting structures of P. repens and was the focus of this study. In order to interrogate natural populations of this fungus, 12 polymorphic microsatellite markers specific to K. proteae were developed with an ISSR-PCR enrichment strategy and pyrosequencing. These markers were amplified in two distantly separated populations of K. proteae. The genetic and genotypic diversities of both populations were exceptionally high and neither showed significant population differentiation. The lack of population structure in both populations implies that K. proteae individuals within a P. repens stand are in panmixia. As one of the sampling sites had burnt recently, the process whereby young fynbos is recolonized could be investigated. Compared to the adjacent, unburnt area, K. proteae individuals in the burnt area of this population had significantly less private alleles, suggestive of a young population that had experienced a genetic bottleneck. Knoxdaviesia proteae individuals that did not originate from the adjacent unburnt area were encountered within the burnt site and, additionally, isolation-by-distance could not be detected. The parsimony-based haplotype networks and the tests for linkage disequilibrium indicated that recombination is taking place within as well as between the two distantly separated populations. The observed panmixia in P. repens stands, widespread recolonization and the high genetic similarity and number of migrants between the two populations emphasizes long-distance dispersal and therefore the role of beetles in the movement of K. proteae. This cohesive genetic structure and connection across large distances is likely a result of multiple migration events facilitated by beetles carrying numerous phoretic mites.