Indian Journal of Plant Genetic Resources

Forty-nine tomato genotypes collected from different parts of Jammu region, Indian Institute for Vegetable Research, Varanasi and National Bureau of Plant Genetic Resources, New Delhi, India were studied using Mahalanobis D² Statistics to elucidate the genetic divergence for fruit yield, quality and their contributing characters. The genotypes were grouped into ten clusters by Toucher's method. The cluster I contained highest number of genotypes (13) followed by cluster VII (8), cluster III (7) and cluster IV (7). The cluster IX and X consisted of one genotype each. The intra cluster distance was highest in cluster IV (D=14.90) which accommodated promising genotypes namely RCMT-2, Pant T-8, and CTS-05-35-3 (SPS) having large, round, red fruits with good yield potential. Cluster VI (D=13.81) and cluster VIII (D=13.09) ranked second and third. Sufficient variation in these clusters indicates scope of genetic improvement through hybridization of genotypes available with in the cluster. Lowest intra-cluster distance was observed in cluster IX and X (D=0.00). Highest inter-cluster distance was observed between cluster IX and X (D=68.99) followed by cluster III and X (D=66.29). Sufficient genetic distance was also observed between the clusters V and III, IX and V and VI and IX. The genotypes which fall in diverse clusters namely PAU 2374, 127-1 Sel., VR 35, PAU 2372, Tomato 169, VR 415, Punjab Chuhara, RCMT 1, Pant T-10; DT-2 and CTS-0516, KS 229, ATL-02-39 and VTG 85, with high inter-cluster distance may be utilized in heterosis as well as in recombination breeding programme to develop heterotic hybrids. Cluster mean analysis indicated cluster II, IV, V and IX accommodated tall genotypes while clusters II, V and X were characterized by higher number of fruits per plant. Pericarp thickness was maximum in cluster III, IV and II. Total soluble solids which is a processing trait was available in genotypes belonging to cluster II and X. Cluster X gave the highest gross yield as well as marketable yield followed by cluster V and II. The genotypes in cluster II, V and X could serve as direct source for development of high yielding open pollinated varieties.