TY - BP AU - Lorenz,A.J. AU - Shiaoman Chao AU - Asoro,F.G. AU - Heffner,E.L. AU - Takeshi Hayashi AU - Hiroyoshi Iwata AU - Smith,K.P. AU - Sorrells,M.E. AU - Jannink,J.L. TI - Chapter 2. Genomic selection in plant breeding: knowledge and prospects SN - 978-0-12-385531-2 SN - 0065-2113 PY - 2011/// CY - Amsterdam (Netherlands) PB - Elsevier KW - AGROVOC KW - Genomics KW - Plant breeding KW - Statistical methods KW - Single nucleotide polymorphisms KW - Genetic markers N2 - “Genomic selection,” the ability to select for even complex, quantitative traits based on marker data alone, has arisen from the conjunction of new high-throughput marker technologies and new statistical methods needed to analyze the data. This review surveys what is known about these technologies, with sections on population and quantitative genetic background, DNA marker development, statistical methods, reported accuracies of genomic selection (GS) predictions, prediction of nonadditive genetic effects, prediction in the presence of subpopulation structure, and impacts of GS on long-term gain. GS works by estimating the effects of many loci spread across the genome. Marker and observation numbers therefore need to scale with the genetic map length in Morgans and with the effective population size of the population under GS. For typical crops, the requirements range from at least 200 to at most 10,000 markers and observations. With that baseline, GS can greatly accelerate the breeding cycle while also using marker information to maintain genetic diversity and potentially prolong gain beyond what is possible with phenotypic selection. With the costs of marker technologies continuing to decline and the statistical methods becoming more routine, the results reviewed here suggest that GS will play a large role in the plant breeding of the future. Our summary and interpretation should prove useful to breeders as they assess the value of GS in the context of their populations and resources T2 - Advances in Agronomy DO - https://doi.org/10.1016/B978-0-12-385531-2.00002-5 ER -