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Showing 3 results for Germplasm
Ali Shuorvazdi, Seyed Abuolghasem Mohammadi, Majid Norozi, Behzad Sadeghzadeh, Volume 1, Issue 1 (5-2014)
Abstract
Due to their adaptation to different environment conditions, landraces are valuable genetic resurces for incresing diversity of breeding germplasms and are potential resources for biotic and abiotic stress resistant genes. In the present study, genetic diversity and relationships of 119 barely landraces from different countries along with 25 commerical varieties and breeding lines were assessed, using 45 microsatellite primer pairs. In total, 225 alleles range from 2 to 14 and an average of 5 alleles per locus were amplified. Polymorphic information contenet (PIC) varied from 0.05 to 0.90 with a mean of 0.51. The minimum and maximum frequency of common allele belonged to EBMAC0788 (0.13) and GBM1411 (0.97) markers, respectively. Analysis of molecular variance (AMOVA) revealed a higher within group variation (94%) than between group. Maximum and minimum Shannon’s and Nei gene diversity indices were observed in Iranian and Egyptian landraces, respectively. Cluster analysis using Minimum Evolution algorithm and P-distance coefficient assigned the studied genotypes into three groups. This grouping was partly consistent with geographical origins of the genotypes.
Arash Salami, Mohammadhadi Pahlevani, Khalil Zenalinezhad, Mohsen Esmaeilzadeh Moghaddam, Volume 5, Issue 1 (9-2018)
Abstract
Collection and conservation of germplasm, particularly for landraces of important agronomically species and organizing their information, cause to continuity of their usefulness and reduce the risk of their genetic erosion. In this experiment, 10 Iranian wheat landraces along with the Chinese Spring cultivar, as control, were used to assess inter and intra populations variation by using ISSR molecular markers and morphological traits. Evaluation of populations in terms of height, spike length, awn length, number of spike nodes, number of grains per spike, flag leaf length and grain weight showed that there were considerable variation among landraces. Also, in some landraces like KhorramAbad and Ardabil, intra population diversity for some of these traits, such as plant height and length of awn, was obvious. Evaluation of the landraces for ISSR markers showed that among 99 scored bands, 78 bands were polymorphic. Percent of polymorphism with mean of 81.88 % was varied from 53.33 for primer of ISSR-4 to 100% for primers of ISSR-9, ISSR-14, ISSR-5 and ISSR-7. Average PIC of the landraces was estimated 3.0. Results of this study showed that there was considerable intra population diversity for the ISSR markers in landraces of KhorramAbad, Maragheh and Torbat-e-Heydarieh however, a little diversity for Khoy, Ahwaz, Isfahan, Mashad, Urmia, Shiraz and Ardabil was observed. Results of this study showed that there is inter and intra genetic diversity within Iranian landraces of wheat with different levels and these landraces can be used as basic population for extraction of pure lines.
Peyman Masoumi, Fatemeh Amini, Hossein Ramshini, Volume 6, Issue 2 (3-2020)
Abstract
Genetic diversity is the basis of breeding studies in many plant species and is one of the most important indicators for selecting parents. The aim of this experiment was to investigate the genetic diversity of tall fescue (Festuca arundinacea) using agronomic traits such as plant height, spring growth score, days to flowering, days to pollination, flag leaf length and width, panicle length, weight of 100 seed and seed yield per plant. The experiment was carried out in a randomized complete block design with three replications. Based on the results, the ecotypes were significantly different for all of the evaluated traits with the exception of 100 seed weight. The highest phenotypic variation coefficient (58.66), genetic variation coeficient (58.32) and heritability (0.97) were related to plant height. The correlation between traits showed that ecotypes with higher height, panicle length and flag leaf height and spring growth score have higher seed yield. The results of stepwise regression analysis showed that in the regression model for seed yield per plant, the panicle length, alone, justified 60.95% of the variation. Cluster analysis grouped 25 ecotypes into three groups. Analysis of variance of agronomic traits as well as yield and related traits showed that grouping caused mean squares between groups in all traits (except flag leaf width). In this study, high genetic diversity and high heritability for evaluated traits showed the potentials of genetic improvement.
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