Prediction of multiple-trait and multiple-environment genomic data using recommender systems

In genomic-enabled prediction, the task of improving the accuracy of the prediction of lines in environments is difficult because the available information is generally sparse and usually has low correlations between traits. In current genomic selection, while researchers have a large amount of information and appropriate statistical models to process it, there is still limited computing efficiency to do so. Although statistical models are usually mathematically elegant, they are also computatio nally inefficient, and they are impractical for many traits, lines, environments, and years because they need to sample from huge normal multivariate distributions. For these reasons, this study explores two recommender systems: a) item-based collaborative filtering (IBCF; method M1) and b) the matrix factorization algorithm (method M2) in the context of multiple traits and multiple environments. The IBCF and matrix factorization methods were compared with two conventional methods on simulated and real data. Results of the simulated and real data sets show that the IBCF technique (method M1) was slightly better in terms of prediction accuracy than the two conventional methods and the matrix factorization method when the correlation was moderately high. The IBCF technique is very attractive because it produces good predictions when there is high correlation between items (environment-trait combinations) and its implementation is computationally feasible, which can be useful for plant breeders who deal with very large data sets.

Bibliographic Details

Main Authors:	Montesinos-López, Osval A., Montesinos-López, Abelardo, Crossa, Jose, Montesinos-López, José Cricelio, Mota-Sanchez, David, Estrada-Gonzalez, Fermin, Gilberg, Jussi, Singh, Ravi, Mondal, Suchismita, Juliana, Philomin
Other Authors:	Shrestha, Rosemary
Language:	English
Published:	CIMMYT Research Data & Software Repository Network 2017
Subjects:	Agricultural Sciences, Agricultural research, Maize, Zea Mays, Bread wheat, Triticum aestivum, Crop performance, Genomic Prediction, Genomic Selection, Genomic selection models,
Online Access:	https://hdl.handle.net/11529/11099
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