p. 323−336
2588-5979
Vol.43/No.3
p. 337−348
2588-5979
Vol.43/No.3
p. 349−362
2588-5979
Vol.43/No.3
p. 363−374
2588-5979
Vol.43/No.3
p. 375−386
2588-5979
Vol.43/No.3
0.40). The mean phenotypic diversity among populations (GST) was 0.10. For the majority of traits, little diversity was observed among populations. The greatest value of GST (0.16) was relevant to the mean of fruit weight per plant. Most of population had similar magnitudes of mean phenotypic diversity within each populations () across all traits (0.42 to 0.49). The fruit yield (0.51) and mean of fruit weight per plant (0.51), the number of fruit per plant (0.56), the number of node on stem (0.54), the number of floret (0.54), the number of days to flowering (0.44), and the number of days to fruit (0.54), had the highest diversity index (Hs) values in Gharavanloo, Rostamkandi, Sheykhlan-sofla and Kalantar, Sheykhlan-olya, Alisharloo, and Sheykhlan-olya populations, respectively. Discussion The results showed a relatively wide phenotypic diversity present in tomato local population of Kalaybar area for most of the studied traits. The highest diversity was within the populations and there was little variation among the populations. The traits that contributed the most to within populations’ heterogeneity differed from population to population. However, the Sheykhlan-olya population had the highest fruit yield (4.83), the number of fruits (18.4), the number of nodes on stem (20.7), the number of flowers (83.5), and it was concluded that population could be used as a genetic source for future tomato breeding programs in Kalaybar region. ]]>
p. 387−396
2588-5979
Vol.43/No.3
p. 397−408
2588-5979
Vol.43/No.3
p. 409−418
2588-5979
Vol.43/No.3
p. 419−430
2588-5979
Vol.43/No.3
p. 431−442
2588-5979
Vol.43/No.3
p. 443−454
2588-5979
Vol.43/No.3
p. 455−466
2588-5979
Vol.43/No.3