Browsing by Author "Botes, Willem"
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- ItemGebruik van genetiese manlike steriliteit in herhalende seleksie met koring (Triticum aestivum)(Stellenbosch : Stellenbosch University, 2001-04) Botes, Willem; Marais, G. F.; Stellenbosch University. Faculty of AgriSciences. Dept. of Genetics.ENGLISH ABSTRACT: In cross pollinated crops, recurrent selection is used to increase the frequency of desirable alleles by breaking up existing linkage blocks and forming new gene combinations. Despite promising results from numerous feasibility studies, recurrent selection is seldom routinely used in wheat. A major obstacle has been the inability to readily achieve random interbreeding of large numbers of selected plants. In China the Taigu genetic male sterility gene, Ms2, has however been used to establish a recurrent selection programme in which field grown male sterile plants were pollinated by selected male fertile plants (Huang et al., 1988). Another dominant gene for male sterility, Ms3, was found after EMS treatment of the seeds of an alloplasmie common wheat with Triticum tauschii cytoplasm (Maan et al., 1984) and is located at 3 map units from the centromere on chromosome arm SAS (Maan et al., 1987). In a study done during 1999 at Welgevallen to determine the frequency of natural intererossing under field conditions, Ms3 showed incomplete penetrance and only about two thirds of the seed set on male sterile plants could be attributed to intercrossing. Ms3 has stable expression in plants grown within the normal range of greenhouse temperatures for wheat, 16 - 2SoC. Under warmer field conditions, 21 - 3SoC, its penetrance is, however, incomplete (Maan et al., 1984). The utility of Ms3 under field conditions is therefore unsatisfactory. An attempt to determine the location and origin of an unknown male sterility gene, found in cross 9SK3 of a routine breeding programme, showed that a single locus was not the cause of the male sterility. Chromosome abnormalities and gene imbalances were probably to blame. The male sterility probably relates to a T.urartu addition chromosome in the pedigree of cross 9SK3. To facilitate the production of large numbers of hybrid progeny, a simple hydroponic system was developed in which male sterile tillers cut at the flowering stage can be pollinated and maintained for about 8 weeks, long enough to produce viable seeds. For pollination, florets on male tillers are cut open and placed in a container with a similar number of pollen shedding male tillers. It was found that cut tillers could be maintained in the hydroponic system as long as certain precautions were met: (a) The tillers must be handled with care so as not to damage the flag leaf which must be maintained for as long as period possible. (b) The tillers have a nutrient requirement and a 20% solution showed the best results of the nutrient solutions tested. (c) The sterilizing effect of Jik at O.OS%gave excellent fungal control en helped to sustain the nutrient solution. (d) Although the treatment of tillers with hormones improved seed quality, it was not justified by the additional inputs required. Different selection strategies were used for male and female plants. At the onset of the recurrent selection programme in 1998, a total of 1881 plants were tested for seedling resistance and 597 plants were selected for use as parents and source material for 1999. In total 158 male sterile and 188 male fertile ears were used in the hydroponic pollination and a 63.47% seed set was obtained, resulting in 3410 seeds, forming the 1999 female component. One hundred and fifty seven F2:96K109plants were selected from a field grown population in 1998. These, together with 44 selections from a pedigree programme, formed the male component for 1999. In total 9564 plants were tested for seedling resistance during 1999. A total of 3230 resistant seedling were selected and planted. Again male fertile plants from the previous season were field planted and selected. The selected plants were subjected to mixograph testing. A total of 448 male sterile and 1020 male fertile ears were used for hydroponic pollination. Approximately 12000 seeds were harvested, the seed set being around 75%. The 157 F2:96K109 field selected plants (1999) and 64 selections from a pedigree programme formed the male component for 2000. Seedling resistance testing during 2000 included a total of 6465 plants and 2832 were selected and planted. The hydroponic system was improved during 2000 with new, larger capacity containers being used which improved cross pollination. In total 878 male sterile tillers and 1016 male fertile tillers were cut and intercrossed. In total 25380 seeds were harvested, the seed set being 81.7%. In an attempt to determine the amount of variation within the 157 F2-families selected during 1999, mixograph testing was performed. The data showed variation among families. Seedling resistance testing for leaf and stem rust was performed on the 1999 and 2000 FIs to determine the variation for resistance within the populations. Both populations showed high level of stem rust resistance but lower levels of leaf rust resistance (± 50%). Ms3 can thus be used in combination with hydroponic tiller culture to facilitate recurrent selection. Integration with an excisting pedigree selection programme is viable and requires little additional input. Some of the these results have already been published (Addendum D).