knitr::opts_chunk$set( collapse = TRUE, comment = "#>" )
The aim of most plant breeding program is simultaneous improvement of several characters. An objective method involving simultaneous selection for several attributes then becomes necessary. It has been recognized that most rapid improvements in the economic value is expected from selection applied simultaneously to all the characters which determine the economic value of a plant, and appropriate assigned weights to each character according to their economic importance, heritability and correlations between characters. So the selection for economic value is a complex matter. If the component characters are combined together into an index in such a way that when selection is applied to the index, as if index is the character to be improved, most rapid improvement of economic value is excepted. Such an index was first proposed by Smith (1937) based on the Fisher's (1936) "discriminant function". In this package selection index is calculated based on the Smith (1937) selection index method (Dabholkar, 1999). For more information refer Elements of Bio Metrical GENETICS by A. R. Dabholkar.
library(selection.index) d<- seldata # Manually generated data for analysis which is included in package
w<- weight # Weights assigned to the traits also include in package
As we discussed that selection index based on discriminant function. So we have required genotypic & phenotypic variance-covariance matrix for further analysis.
gmat<- gen.varcov(data = d[,3:9], genotypes = d$treat, replication = d$rep) print(gmat)
pmat<- phen.varcov(data = d[,3:9], genotypes = d$treat, replication = d$rep) print(pmat)
Generally, Percent Relative Efficiency (PRE) of a selection index is calculated with reference to Genetic Advance (GA) yield of respective weight. So first we calculate the GA of yield for respective weights. + Genetic gain of Yield
GAY<- gen.advance(phen_mat = pmat[1,1], gen_mat = gmat[1,1], weight_mat = w[1,2]) print(GAY)
We use this GAY value for the construction, ranking of the other selection indices and stored them in a list "si".
Generally selection score is calculate based on top ranked selection index. So first we store the discriminant coefficient value into a variable b, and later that value we used for calculation of selection score and ranking of the genotypes.
comb.indices()
is used for construction of selection indices based on different combination of characters.comb.indices(ncomb = 1, pmat = pmat, gmat = gmat, wmat = w[,-1], wcol = 1, GAY = GAY)
rcomb.indices(ncomb = 1, i = 1, pmat = pmat, gmat = gmat, wmat = w[,-1], wcol = 1, GAY = GAY)
Any scripts or data that you put into this service are public.
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.