Abstract
Long-day onion genotypes originating from Europe, North America and Japan were tested for gynogenic induction ability. Haploid induction using an efficient single-step flower culture induction procedure was at least as productive as the previously studied double-step flower/ovary culture, while undesired callusing of flower bases did not substantially lower the induction frequency. Differences in embryo yields among different accessions and among different donor plants within accessions were very pronounced. Three extremely responsive accessions were found, with average embryo yields of 18.6–22.6%, while individual donor plants produced up to 51.7% embryos. In terms of geographic origin, genetic material bred in America was on average almost five and nine times more responsive than European and Japanese material, respectively. The stability of high induction frequency was confirmed by culturing flowers from the same individual donor plants in two subsequent growth years. Of the regenerants, 90.5% were haploid and 88.2% of analysed diploid regenerants were homozygous. The results indicate that the genotype of donor plants has a crucial influence on haploid induction ability and that the less labour intensive single-step flower induction procedure is an efficient method of obtaining a high-frequency homozygous-embryo induction rate.
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