Abstract
AbstractThe annual production of strawberry has increased by one million tonnes in the US and 8.4 million tonnes worldwide since 1960. Here we show that the US expansion was driven by genetic gains from Green Revolution breeding and production advances that increased yields by 2,755%. Using a California population with a century-long breeding history and phenotypes of hybrids observed in coastal California environments, we estimate that breeding has increased fruit yields by 2,974-6,636%, counts by 1,454-3,940%, weights by 228-504%, and firmness by 239-769%. Using genomic prediction approaches, we pinpoint the origin of the Green Revolution to the early 1950s and uncover significant increases in additive genetic variation caused by transgressive segregation and phenotypic diversification. Lastly, we show that the most consequential Green Revolution breeding breakthrough was the introduction of photoperiod-insensitive, PERPETUAL FLOWERING hybrids in the 1970s that doubled yields and drove the dramatic expansion of strawberry production in California.
Funder
California Strawberry Commission
Publisher
Springer Science and Business Media LLC
Reference104 articles.
1. Darrow, G. M. The Strawberry: History, Breeding and Physiology. (Holt, Rinehart & Winston, New York, 1966).
2. Pincot, D. D. et al. Social network analysis of the genealogy of strawberry: retracing the wild roots of heirloom and modern cultivars. G3 Genes Genom. Genet. 11, jkab015 (2021).
3. Duchesne, A.-N. Histoire Naturelle Des Fraisiers. (Didot le Jeune et C. J. Panckoucke, Paris, 1766).
4. Hancock, J. F. & Luby, J. J. Genetic resources at our doorstep: the wild strawberries. BioScience 43, 141–147 (1993).
5. Hardigan, M. A. et al. Unraveling the complex hybrid ancestry and domestication history of cultivated strawberry. Mol. Biol. Evol. 38, 2285–2305 (2021).
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