Abstract
In this paper, we introduce a unique new plant breeding decision support software tool DeltaGen, implemented in R and its package Shiny. DeltaGen provides plant breeders with a single integrated solution for experimental design generation, data quality control, statistical and quantitative genetic analyses, breeding strategy evaluation, simulation, and cost analysis, pattern analysis, index selection, and underlying basic theory on quantitative genetics. Key analysis procedures in DeltaGen were demonstrated using three datasets generated from forage breeding trials in Australia, New Zealand, and the United States. Analyses of the perennial ryegrass seasonal growth data in Case Study 1 was based on residual maximum likelihood analysis and pattern analysis. A graphical summary of the performance of entries across locations was generated, and entries with specific and broad adaptation were identified. The quantitative genetic analysis and breeding method simulation procedures applied to the perennial ryegrass half‐sib (HS) family data in Case Study 2 enabled estimation of quantitative genetic parameters, prediction of genetic gain, and calculation of costs per selection cycle. These results enabled comparison of three breeding methods, which also included genomic selection, and their simulation. Data from Case Study 3 were analyzed to investigate a multivariate approach to identify HS families of switchgrass with breeding values that would enable an increase in biomass dry matter yield (DMY) and cell wall ethanol (CWE) and a decrease in Klason lignin (KL). The Smith–Hazel index developed enabled identification of HS families with genetic worth for increasing DMY and CWE and reducing KL, in contrast with individual trait selection. Analysis of the datasets in all three case studies provides a snapshot of the key analyses available within DeltaGen. This software tool could also be used as a teaching resource in plant breeding courses. DeltaGen is available as freeware at http://agrubuntu.cloudapp.net/PlantBreedingTool/
Highlights
In this paper, we introduce a unique new plant breeding decision support software tool DeltaGen, implemented in R and its package Shiny
Despite the widespread use of computation in plant breeding, there are few convenient tools that bring together the necessary functions of experimental design, data analysis, and breeding method optimization in terms of genetic gain (DG) and resource factors in a way that is readily accessible to the breeder through a single interface
This paper describes a new and unique decision support tool implemented in R (R Core Team, 2016), called DeltaGen
Summary
We introduce a unique new plant breeding decision support software tool DeltaGen, implemented in R and its package Shiny. Information significant to the design and implementation of more efficient cultivar development programs could be generated by software simulation of breeding strategies based on selection among and within genetic families, and different combinations of year, season, site, replicate, and sample numbers with associated costs per selection cycle.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
