Genome-Enabled prediction models for yield related traits in chickpea

M. Roorkiwal; A. Rathore; R.R. Das; M.K. Singh; A. Jain; S. Srinivasan; P.M. Gaur; B. Chellapilla; S. Tripathi; Y. Li; J.M. Hickey; A. Lorenzo; T. Sutton; J. Crossa; J-L Jannink; R.K. Varshney

doi:10.3389/fpls.2016.01666

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Genome-Enabled prediction models for yield related traits in chickpea

Journal article

Open access

Peer reviewed

Genome-Enabled prediction models for yield related traits in chickpea

M. Roorkiwal, A. Rathore, R.R. Das, M.K. Singh, A. Jain, S. Srinivasan, P.M. Gaur, B. Chellapilla, S. Tripathi, Y. Li, …

Frontiers in Plant Science, Vol.7, Art. 01666

2016

DOI: https://doi.org/10.3389/fpls.2016.01666

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Abstract

Genomic selection (GS) unlike marker-assisted backcrossing (MABC) predicts breeding values of lines using genome-wide marker profiling and allows selection of lines prior to field-phenotyping, thereby shortening the breeding cycle. A collection of 320 elite breeding lines was selected and phenotyped extensively for yield and yield related traits at two different locations (Delhi and Patancheru, India) during the crop seasons 2011–12 and 2012–13 under rainfed and irrigated conditions. In parallel, these lines were also genotyped using DArTseq platform to generate genotyping data for 3000 polymorphic markers. Phenotyping and genotyping data were used with six statistical GS models to estimate the prediction accuracies. GS models were tested for four yield related traits viz. seed yield, 100 seed weight, days to 50% flowering and days to maturity. Prediction accuracy for the models tested varied from 0.138 (seed yield) to 0.912 (100 seed weight), whereas performance of models did not show any significant difference for estimating prediction accuracy within traits. Kinship matrix calculated using genotyping data reaffirmed existence of two different groups within selected lines. There was not much effect of population structure on prediction accuracy. In brief, present study establishes the necessary resources for deployment of GS in chickpea breeding.

Details

Title: Genome-Enabled prediction models for yield related traits in chickpea
Authors/Creators: M. Roorkiwal (Author/Creator)
A. Rathore (Author/Creator)
R.R. Das (Author/Creator)
M.K. Singh (Author/Creator)
A. Jain (Author/Creator)
S. Srinivasan (Author/Creator)
P.M. Gaur (Author/Creator)
B. Chellapilla (Author/Creator)
S. Tripathi (Author/Creator)
Y. Li (Author/Creator)
J.M. Hickey (Author/Creator)
A. Lorenzo (Author/Creator)
T. Sutton (Author/Creator)
J. Crossa (Author/Creator)
J-L Jannink (Author/Creator)
R.K. Varshney (Author/Creator)
Publication Details: Frontiers in Plant Science, Vol.7, Art. 01666
Publisher: Frontiers
Identifiers: 991005540789707891
Copyright: © 2016 The Authors.
Murdoch Affiliation: Murdoch University
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration; International collaboration
Citation topics: 3 Agriculture, Environment & Ecology; 3.51 Dairy & Animal Sciences; 3.51.115 Livestock Reproduction
Web Of Science research areas: Plant Sciences
ESI research areas: Plant & Animal Science