Abstract

Onion (A. cepa L.) is an outcrossing biennial species with a very large genome. Development of genetically uniform (inbred) lines highly desired by onion breeders is a difficult process due to high level of heterozygosity. Inbred onion development may take up to five generations (~10years) by classical selfing technique. Onion shows severe inbreeding depression, which further complicates production of lines with stabilized important agronomic traits. When applied successfully, haploidization technology can be useful in the development of fully homozygous onion lines in 2years. Although production of haploid and doubled haploid (DH) onions via gynogenesis was reported more than three decades ago, successful production and utilization of DHs in onion breeding is still far behind of expectations of breeders. The main obstacles in front of the success include high variation in the response of donor materials to gynogenesis induction and difficulties faced in the process of obtaining DHs from haploid plants. We use a DH production procedure enabling us to develop DH plants from a wide range of onion donor materials. This procedure is based on production of haploid plants via single step culture of unopened flower buds, detection of haploid plants among gynogenic regenerants, and converting these plants to fecund DHs using a combination of ploidy manipulation techniques. The bulbs of DHs are produced in about 1year after the initiation of induction cultures and selfed seeds are produced from fecund DH plants when they flower in the second year.

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