Induced polyploidy as a tool for the development of novel South African indigenous crops.
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Date
2015
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Abstract
Polyploidy is a naturally-occurring phenomenon in plants and has been reported as an important
pathway for evolution and speciation; it is estimated that a large percentage of flowering plants
are polyploid in origin. Although the first plant polyploid was discovered over a century ago, the
genetic and evolutionary implications of polyploidy have not been fully elucidated. On a more
practical level, there are many opportunities for utilizing induced polyploidy as a valuable tool in
traditional plant breeding programmes. South Africa has the highest recorded plant species
density in the world, however, many of these species have only marginal potential due to size and
other constraints. Induced polyploids may be expected to exhibit one, or more, of the following
characteristics resulting in the improvement or the development of new economically important
plants: larger tuber, rhizome or root size; increased flower or fruit size; enhanced flower colour
intensity, improved drought tolerance, increased bio-mass; improved photosynthetic capacity;
larger and/or thicker leaves; dwarfism; increased secondary metabolite production, e.g. medicinal
compounds. Several plant species (Crocosmia aurea, Tetradenia riparia, Siphonochilus
aethiopicus and Plectranthus esculentus) were selected for the induction of polyploidy and
various horticultural characteristics evaluated. Methods for the successful induction of polyploidy
were developed for all selected species. By evaluating various horticultural characteristics of the
induced polyploids it was determined that flower size, plant vigour and nematode resistance, as
well as essential oil content and bioactivity could be significantly improved in all tested species.
Induced polyploidy could, therefore, have a significant impact on the development of
economically-viable novel crops indigenous to southern Africa.
Description
Doctor of Philosophy in Agriculture (Horticultural Science)
Keywords
Polyploidy., Indigenous crops -- South Africa., Transgenic plants -- South Africa., Theses -- Horticultural science.