JWSS - Journal of Water and Soil Science

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Sainfoin in believed as an important forage crop regarding its suitable agronomical characteristics and feeding livestock. Evaluation of general combining ability is a critical preliminary stage before selection of suitable parent and production of synthetic varieties. Thirty six sainfoin landraces which have been collected from different parts of Iran were grown in 2000 in a randomized complete block design (RCBD) with 24 replications as a polycross nursery. The resulting polycrosses were sown in 2001 in a triple lattice design. Characters such as fresh forage yield per plot based on unit length, fresh forage yield per plant, and dry forage yield for each cutting stage and for the whole season were measured. Also a yield index for the two first cuttings and forage palatability for the second cutting were determined. Results showed that there was no significant difference between partial blocks within each replication and therefore data was analyzed based on RCBD. High heritability was observed for forage palatability, yield index, and fresh forage yield per plant. So selection can be made to improve forage yield and palatibility in sainfoin. In terms of general combining ability, six landraces for fresh forage yield, six landraces for dry forage yield, nine landraces for yield index, and ten landraces for palatibility showed high estimates. The lanraces having highest amounts of general combining ability for each variable can be used as suitable parents to produce synthetic varieties of sainfoin.

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Six morphological traits of rice were evaluated in a 5 × 5 one-way diallel cross using a randomized complete block design corresponding with their F1 generations in 2007 at Iranian Rice Research Institute – Amol. Results from analysis of variance for traits of plant height, flag leaf angle, flag leaf length, flag leaf width, internode length and panicle length exhibited significant genetic differences among parental cultivars and their hybrids. Significant means of squares for GCA and SCA showed the positive actions of additive and non-additive effects on controlling these traits. Also, ratio of mean squares of GCA on SCA ( ) were significant in all traits that showing a higher importance for role of additive effects in comparison with role of non-additive effects in functions of genes controlling the studied traits. High narrow sense heritability of these traits proved majority roles for additive effects of genes in genetic control of the studied characteristics therefore, selection of these triats may be succeed. Overall, both of Neda and IR62871-175-1-10 were the best parents for general combining ability for reducting plant height, flag leaf length and internode length and increasing flag leaf width. Meanwhile, because of higher SCA, Neda × Binam and Neda × Dasht were the best hybrids for increasing spike length and decreasing height, respectively.