2022
DOI: 10.3389/fgene.2022.832153
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Genomic Selection: A Tool for Accelerating the Efficiency of Molecular Breeding for Development of Climate-Resilient Crops

Abstract: Since the inception of the theory and conceptual framework of genomic selection (GS), extensive research has been done on evaluating its efficiency for utilization in crop improvement. Though, the marker-assisted selection has proven its potential for improvement of qualitative traits controlled by one to few genes with large effects. Its role in improving quantitative traits controlled by several genes with small effects is limited. In this regard, GS that utilizes genomic-estimated breeding values of individ… Show more

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Cited by 95 publications
(59 citation statements)
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“…Additionally, it excludes the need to unearth QTLs related to target traits and the need for the collection of phenotypes of the breeding population, thereby reducing costs [152]. GS utilizes genomewide estimated breeding values (GEBVs) and exploits genome-wide genotype-phenotype association, thereby capturing both major and minor gene effects [154]. Already, GS has greatly revolutionized genotypic performance prediction and selection of complex traits such as disease resistance, yield and quality in wheat [155], drought tolerance in maize [156], and several biotic and abiotic stresses in diverse crops [154].…”
Section: Genomic Selection and Modern Plant-breeding Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…Additionally, it excludes the need to unearth QTLs related to target traits and the need for the collection of phenotypes of the breeding population, thereby reducing costs [152]. GS utilizes genomewide estimated breeding values (GEBVs) and exploits genome-wide genotype-phenotype association, thereby capturing both major and minor gene effects [154]. Already, GS has greatly revolutionized genotypic performance prediction and selection of complex traits such as disease resistance, yield and quality in wheat [155], drought tolerance in maize [156], and several biotic and abiotic stresses in diverse crops [154].…”
Section: Genomic Selection and Modern Plant-breeding Methodsmentioning
confidence: 99%
“…GS utilizes genomewide estimated breeding values (GEBVs) and exploits genome-wide genotype-phenotype association, thereby capturing both major and minor gene effects [154]. Already, GS has greatly revolutionized genotypic performance prediction and selection of complex traits such as disease resistance, yield and quality in wheat [155], drought tolerance in maize [156], and several biotic and abiotic stresses in diverse crops [154]. With the increased use of GS in crop improvement programs and intensification of RSHS tolerance breeding in cereals, the development of HS tolerance improved cultivars will be expedited.…”
Section: Genomic Selection and Modern Plant-breeding Methodsmentioning
confidence: 99%
“…Most of the successful events of the utilization of GS in biotic stress resistance were in cereal crops. In wheat, GS was used for three types of rust, Fusarium head blight, septoria tritici blotch, PMD, tan spot, and Stagonospora nodorum blotch ( Budhlakoti et al, 2022 ). The genomic prediction accuracies for these diseases ranged from 0.14 to 0.85 ( Daetwyler et al, 2010 ; Rutkoski et al, 2012 ; Mirdita et al, 2015 ; Juliana et al, 2019 ; Sarinelli et al, 2019 ).…”
Section: Future Breeding Strategies For Developing Cultivars Resistan...mentioning
confidence: 99%
“…Genomic selection has a potential breeding strategy to map numerous genetic loci for diverse traits of interest. Various research groups started working on Indian wheat and associated germplasm genotype for crop improvement against biotic resistance ( Juliana et al, 2021 ; Budhlakoti et al, 2022 ). But still, more accurate prediction from a large genotype reservoir of Indian wheat germplasm is necessary for germplasm-assisted crop improvements for abiotic and quality-related traits.…”
Section: Availability/discovery/development Of Genomics Resourcesmentioning
confidence: 99%