2016 , Volume 21, Special issue, p.104-115

Purpose.The paper describes an application of the R environment for visualization and statistical analysis in breeding studies. The material for research includes the data of field experiments conducted by the GNU SibNIIRS during spring and winter triticale world VIR collection samples in 2009 (51 samples of spring triticale and 103 samples of winterone) and 2011 (120 samples of winter triticale). 12 morphological characters were taken for evaluation of the samples. The studies were conducted in order to define groups of triticale samples that differ from each other on a range of traits, as well as to detect regularities in correlated variability of triticale quantitative traits.

Methodology.We used standard statistical methods of multivariate data analysis (Pearson's method, principal component analysis, cluster analysis by Ward method), implemented in the R software environment.

Findings.First, the data exploration was fulfilled to check the necessary conditions for applying the presented adequate statistical techniques. The protocol of data exploration includes: detecting outliers and collinearity, testing on homogeneity of variance and normality, revelation of the relationships character between variables. Then we applied cluster analysis technique to classify triticale samples and to divide them into several groups. By choosing samples from different clusters for hybridization it is possible to achieve greater genetic diversity. The effectiveness of the division to clusters was checked by bootstrap methods.

Finally.The primary components analysis (PCA) was carried on to identify correlated variability of triticale quantitative traits. It was revealed that the variability of quantitative traits of triticale was determined by 3-4 main components, which accounted for 70 to 80 % of the total variance. The first component includes with large loading coefficients such traits as “length of spike”, “number of spikelet per ear”, “number of grains per spike” and “spike grains weight” that form a correlation group, which gives the opportunity to interpret this component as “spike productivity”.

Conclusion.Use of the R software environment allowed to carry out data exploration, cluster and component analysis and to demonstrate their results.