Kularatne, W. M. T. D.Wijekoon, P.Yakandawala, D.2025-10-162025-10-162011-11-24Peradeniya University Research Session PURSE -2011, Proceeding and Abstracts, Vol.16, 24th November, 2011, University of Peradeniya, PP. 123https://ir.lib.pdn.ac.lk/handle/20.500.14444/5436Multivariate analysis techniques are used to arrange biological data for interpreting and detecting variations among variable groups. The main objectives of this study were i) to analyse morphological variation in the genus Monochoria C.Presl (Pontederiaceae) in order to identify how raw data would be more useful for clear visualisation of characters, ii) to use multivariate techniques in analysing the morphological variations of the genus Monochoria and iii) to perform a statistical shape analysis to gain support for the groups identified in the analysis on the basis of leaf morphological variation observed in the field and thereby to re-assess the species boundaries of the genus. The pie charts of qualitative characters had two categories with about 92% and 8% for the two pie divisions. The maximum cophenetic correlation value was obtained for the Un-weighted Pair Group Method with Arithmetic Mean (UPGMA) clustering algorithm. Therefore, classification was performed using a UPGMA clustering algorithm and the sample species visualised the first primary groupings, M. hastata (Group A) and M. vagina/is. The three sub-groupings of the species type M. vaginalis were named as Group 81. Group 82 and Group 83. The nonparametric MANOVA test and the pair-wise non-parametric MANOVA test justified the significance of the difference among the four groups obtained and the significance of the pair-wise difference arnong each group at 5% significance level. The Principle Coordinate Analysis states that the sample specimens MV53. MV54 and MV56 are outliers of the Group 83, due to extreme outliers for individual characters measured for these 3 specimens. Similarity Percentage Analysis (SIMPER) revealed that the maximum separations of the groups correspond to Groups A and 81. The plant height up to leaf base and-petiole length were the variables that contributed most for dissimilarity among Groups 81, 82, 83 and A. The Elliptical Fourier shape analysis verified the dissimilarity of the shape of the leaves of all four groups, an observation made in the field for members of M. vaginalis. The shape patterns obtained by the Elliptical Fourier analysis confirmed the changes of the leaf shapes very clearly. The analysis supported the morphological variations observed, especially the leaf shapes, which resulted in three primary groupings (Group 81, 82 and 83). Use of mixed data is recommended as it was more useful i) to obtain a clear idea regarding the distribution of each variable separately, ii) to identify groups with similar morphological characters and iii) as detailed analysis could be performed on the data sets.en-USMorphologicalStatistics and Computer ScienceScienceBotanyMorphological VariationsGenus MonochoriaArticle