Abstract :
Thirty genotypes of tomato including one check cultivar (Solan lalima) were planted in Randomized Complete Block
Design, during Kharif, 2014 and were assessed to know the nature and magnitude of variability and genetic divergence for 17 horticultural traits. The experimental results revealed a wide range of variability for all the traits under study. High heritability coupled with high genetic gain was observed for marketable fruit yield (89.60 and 56.02%), lycopene content (92.40 and 50.40%) and buckeye rot incidence (80.00 and 56.12%), which offers the better scope for improvement through selection. Based on the Mahalanobis D2 statistics, 30 genotypes of tomato were grouped into four clusters. Maximum number of genotypes were accommodated in the cluster-IV (13) followed by cluster-III (8), cluster-II (7) and I (2). Highest inter cluster distance (8.789) was recorded between cluster I and III, hence, crossing between the genotypes of these cluster is expected to yield more heterotic hybrids. On the other hand, five genotypes viz., LC-8, AVTO9001, LC-9, Punjab Chhuhara and AVTO0201 belonging to cluster-III performed better for most of the horticultural traits under study. These genotypes need further testing to be released as a substitute of already existing tomato varieties or these can be crossed with diverse genotypes of other clusters for the development of superior varieties /hybrids in tomato.
Keyword :
Clusters, Diversity, Genetic variability, Quality, Tomato