ISHS Acta Horticulturae 637: XXVI International Horticultural Congress: Advances in Vegetable Breeding
A NEW PARADIGM FOR THE BREEDING OF LONGER-GENERATION HYBRID CROPS |
| Author: | M.J. Havey |
| Keywords: | Cytoplasmic-genic male sterility, haploidy, inbreeding, recurrent selection, transformation |
| Abstract:
Many agriculturally important crops possess generation times of years instead of months, including the biennial vegetables, woody ornamentals, and tree crops for the production of fruits, nuts, and wood products. The genetic improvement of these longer-generation crops is a slow process requiring long-term commitments of time and resources. In this presentation, I describe a breeding scheme using previously described and yet to be realized technologies to reduce the time required to breed competitive hybrids of longer-generation crops. The approach is based on recurrent selection to increase the frequency of favorable alleles in populations, the extraction of haploids and their doubling to produce uniform, homozygous inbreds, the testing of these inbreds to identify superior parents for hybrid production, transformation to introduce simply inherited disease resistances or other value-added traits, and finally transformation of the mitochondrial genome to produce cytoplasmic male-sterile (CMS) lines for efficient hybrid-seed production. I review salient literature regarding each step of this breeding approach and describe challenges to the implementation of this new paradigm. | |
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