FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2023673366> ?p ?o ?g. }

• W2023673366 endingPage "443" @default.
• W2023673366 startingPage "433" @default.
• W2023673366 abstract "A new technology called genomic selection is revolutionizing dairy cattle breeding. Genomic selection refers to selection decisions based on genomic breeding values (GEBV). The GEBV are calculated as the sum of the effects of dense genetic markers, or haplotypes of these markers, across the entire genome, thereby potentially capturing all the quantitative trait loci (QTL) that contribute to variation in a trait. The QTL effects, inferred from either haplotypes or individual single nucleotide polymorphism markers, are first estimated in a large reference population with phenotypic information. In subsequent generations, only marker information is required to calculate GEBV. The reliability of GEBV predicted in this way has already been evaluated in experiments in the United States, New Zealand, Australia, and the Netherlands. These experiments used reference populations of between 650 and 4,500 progeny-tested Holstein-Friesian bulls, genotyped for approximately 50,000 genome-wide markers. Reliabilities of GEBV for young bulls without progeny test results in the reference population were between 20 and 67%. The reliability achieved depended on the heritability of the trait evaluated, the number of bulls in the reference population, the statistical method used to estimate the single nucleotide polymorphism effects in the reference population, and the method used to calculate the reliability. A common finding in 3 countries (United States, New Zealand, and Australia) was that a straightforward BLUP method for estimating the marker effects gave reliabilities of GEBV almost as high as more complex methods. The BLUP method is attractive because the only prior information required is the additive genetic variance of the trait. All countries included a polygenic effect (parent average breeding value) in their GEBV calculation. This inclusion is recommended to capture any genetic variance not associated with the markers, and to put some selection pressure on low-frequency QTL that may not be captured by the markers. The reliabilities of GEBV achieved were significantly greater than the reliability of parental average breeding values, the current criteria for selection of bull calves to enter progeny test teams. The increase in reliability is sufficiently high that at least 2 dairy breeding companies are already marketing bull teams for commercial use based on their GEBV only, at 2 yr of age. This strategy should at least double the rate of genetic gain in the dairy industry. Many challenges with genomic selection and its implementation remain, including increasing the accuracy of GEBV, integrating genomic information into national and international genetic evaluations, and managing long-term genetic gain." @default.
• W2023673366 created "2016-06-24" @default.
• W2023673366 creator A5058907257 @default.
• W2023673366 creator A5067515224 @default.
• W2023673366 creator A5078799681 @default.
• W2023673366 creator A5089956650 @default.
• W2023673366 date "2009-02-01" @default.
• W2023673366 modified "2023-10-14" @default.
• W2023673366 title "Invited review: Genomic selection in dairy cattle: Progress and challenges" @default.
• W2023673366 cites W1928998639 @default.
• W2023673366 cites W1936555975 @default.
• W2023673366 cites W1977166870 @default.
• W2023673366 cites W1982380837 @default.
• W2023673366 cites W1982957378 @default.
• W2023673366 cites W1991410596 @default.
• W2023673366 cites W1992747978 @default.
• W2023673366 cites W1999398820 @default.
• W2023673366 cites W2011272692 @default.
• W2023673366 cites W2030803393 @default.
• W2023673366 cites W2040571132 @default.
• W2023673366 cites W2053156121 @default.
• W2023673366 cites W2063978378 @default.
• W2023673366 cites W2077668635 @default.
• W2023673366 cites W2079421286 @default.
• W2023673366 cites W2097840595 @default.
• W2023673366 cites W2098667422 @default.
• W2023673366 cites W2102630263 @default.
• W2023673366 cites W2108583185 @default.
• W2023673366 cites W2110787179 @default.
• W2023673366 cites W2111999075 @default.
• W2023673366 cites W2114719552 @default.
• W2023673366 cites W2115837368 @default.
• W2023673366 cites W2117354404 @default.
• W2023673366 cites W2122653844 @default.
• W2023673366 cites W2133477278 @default.
• W2023673366 cites W2134070988 @default.
• W2023673366 cites W2145647386 @default.
• W2023673366 cites W2154978106 @default.
• W2023673366 cites W2160228159 @default.
• W2023673366 cites W2163555145 @default.
• W2023673366 doi "https://doi.org/10.3168/jds.2008-1646" @default.
• W2023673366 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19164653" @default.
• W2023673366 hasPublicationYear "2009" @default.
• W2023673366 type Work @default.
• W2023673366 sameAs 2023673366 @default.
• W2023673366 citedByCount "1398" @default.
• W2023673366 countsByYear W20236733662012 @default.
• W2023673366 countsByYear W20236733662013 @default.
• W2023673366 countsByYear W20236733662014 @default.
• W2023673366 countsByYear W20236733662015 @default.
• W2023673366 countsByYear W20236733662016 @default.
• W2023673366 countsByYear W20236733662017 @default.
• W2023673366 countsByYear W20236733662018 @default.
• W2023673366 countsByYear W20236733662019 @default.
• W2023673366 countsByYear W20236733662020 @default.
• W2023673366 countsByYear W20236733662021 @default.
• W2023673366 countsByYear W20236733662022 @default.
• W2023673366 countsByYear W20236733662023 @default.
• W2023673366 crossrefType "journal-article" @default.
• W2023673366 hasAuthorship W2023673366A5058907257 @default.
• W2023673366 hasAuthorship W2023673366A5067515224 @default.
• W2023673366 hasAuthorship W2023673366A5078799681 @default.
• W2023673366 hasAuthorship W2023673366A5089956650 @default.
• W2023673366 hasBestOaLocation W20236733661 @default.
• W2023673366 hasConcept C103545067 @default.
• W2023673366 hasConcept C104317684 @default.
• W2023673366 hasConcept C105795698 @default.
• W2023673366 hasConcept C106934330 @default.
• W2023673366 hasConcept C135763542 @default.
• W2023673366 hasConcept C144024400 @default.
• W2023673366 hasConcept C149923435 @default.
• W2023673366 hasConcept C153209595 @default.
• W2023673366 hasConcept C154945302 @default.
• W2023673366 hasConcept C161890455 @default.
• W2023673366 hasConcept C199360897 @default.
• W2023673366 hasConcept C2776977481 @default.
• W2023673366 hasConcept C2778890363 @default.
• W2023673366 hasConcept C2908647359 @default.
• W2023673366 hasConcept C2992444039 @default.
• W2023673366 hasConcept C33923547 @default.
• W2023673366 hasConcept C41008148 @default.
• W2023673366 hasConcept C54355233 @default.
• W2023673366 hasConcept C68873052 @default.
• W2023673366 hasConcept C81917197 @default.
• W2023673366 hasConcept C81941488 @default.
• W2023673366 hasConcept C86803240 @default.
• W2023673366 hasConceptScore W2023673366C103545067 @default.
• W2023673366 hasConceptScore W2023673366C104317684 @default.
• W2023673366 hasConceptScore W2023673366C105795698 @default.
• W2023673366 hasConceptScore W2023673366C106934330 @default.
• W2023673366 hasConceptScore W2023673366C135763542 @default.
• W2023673366 hasConceptScore W2023673366C144024400 @default.
• W2023673366 hasConceptScore W2023673366C149923435 @default.
• W2023673366 hasConceptScore W2023673366C153209595 @default.
• W2023673366 hasConceptScore W2023673366C154945302 @default.
• W2023673366 hasConceptScore W2023673366C161890455 @default.
• W2023673366 hasConceptScore W2023673366C199360897 @default.
• W2023673366 hasConceptScore W2023673366C2776977481 @default.

• next