Roqia Adeli; Elias Soltani; Gholam Abbas Akbari; Hossein Ramshini
Abstract
Identification of cultivars with tolerance to water stress has important for crop production in arid and semi-arid areas. In order to, a factorial experiment was conducted based on completely randomized design with two factors of 20 genotypes of canola and 5 water potentials of 0, -0.15, -0.3, -0.5, ...
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Identification of cultivars with tolerance to water stress has important for crop production in arid and semi-arid areas. In order to, a factorial experiment was conducted based on completely randomized design with two factors of 20 genotypes of canola and 5 water potentials of 0, -0.15, -0.3, -0.5, and -0.8 MPa in 4 replications in Seed Technology Laboratory of College of Aburaihan, during 2015-16. Seed germination of different genotypes was recorded twice in a day for each water potential at 20oC. Thereafter, hydrotime model was fitted to time course germination. Results indicated that Karaj 1 and Opera had the lowest value of base water potential with -1.23 and -1.2 (MPa) and they were the most tolerant genotypes to drought. Genotypes of 203 and Likord had the highest value of base water potential with -0.27 and -0.22 and the most sensitive genotypes to water stress. The lowest hydrotime constant belonged to Zarfam and Talaye with 22.67 and 23.73 MPa-hours and the highest hydrotime constant belonged to 389 and Opera with 50.93 and 48.07 MPa-hours. The base water potential with 95% had the highest broad sense heritability. Using this information it is possible to identify genotypes with higher efficiency and more tolerate to water stress in future breeding programs to breed new genotypes with tolerance to water stress.
Zeinab Fathi Manesh; Abdolhossein Rezaie Nejad; Sadegh Mosavi Fard; Gholamhasan Veikarami
Abstract
In order to evaluate the adaptation and ornamental potential of Allium spp endemic to Iran, an experiment was conducted in Agricultural Research Station of Lorestan University under Khorramabad climatic conditions during 2014-2015. A completely randomized design was used for the experiment with 21 treatments ...
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In order to evaluate the adaptation and ornamental potential of Allium spp endemic to Iran, an experiment was conducted in Agricultural Research Station of Lorestan University under Khorramabad climatic conditions during 2014-2015. A completely randomized design was used for the experiment with 21 treatments (species-location) with three replications. Phonological and morphological characteristic at growth stage was recorded. Analysis of variance showed significant (p<0.01) differences among species on all traits indicating genetic diversity of the studied species. Cluster analysis and principle component analysis were used to assess the ornamental potential of the studied species and the most important ornamental characteristics i.e. scape length, the diameter of the inflorescence, flower longevity and flower color were evaluated. Biplot were depicted on the basis of both the first and second component that showed 54% of variations. In the biplot and cluster analyses, the species were placed into distinct groups associated with their potential ornamental value. According to the results, Allium iranicum collected from the Alborz-Dizin with large inflorescence (63.28 mm), beautiful flower color (purple) and being green in winter, and Allium oschaninii species collected from Khorasan-Chenaran with great flower longevity (54 d), beautiful form and large scape length (95 cm) were identified as good potent ornamental species.
Masoumeh Pouresmael; Jalal Rastegar; Mehdi Zangiabadi
Abstract
In this study, salinity tolerance of 51 Kabuli chickpea genotypes was investigated at vegetative growth phase using 4.5 and 6.5 ds/m salt solution (by adding NaCl to 1/2 Hoagland solution) and 1/2 Hoagland solution (EC= 1.7 ds/m) as control treatment. A split plot design was used in this experiment where ...
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In this study, salinity tolerance of 51 Kabuli chickpea genotypes was investigated at vegetative growth phase using 4.5 and 6.5 ds/m salt solution (by adding NaCl to 1/2 Hoagland solution) and 1/2 Hoagland solution (EC= 1.7 ds/m) as control treatment. A split plot design was used in this experiment where the main plot was salinity treatments and the sub plot was genotypes. Treatments continued until 40 days and after that, shoot length, leaf area, chlorophyll content and biomass ratio were measured. Genotypes responded differently to saline condition. Based on vegetative biomass production under salt treatments in comparison with control treatment, different salinity tolerance indices calculated. Ranking of genotypes based on these indices indicated that, the genotypes number 5620, 6364, 5941, 5280, 6142, 6356, 5843 and Hashem cultivar were more tolerant to salinity. Under 6.5 ds/m NaCl, genotype 6142 was the most tolerant genotype. Sowing the genotypes at saline soil generally affected by Na+ and Cl- with electrical conductivity of 9.8 ds/m at Neishabur (Feiz abad) field caused strong damages on all the genotypes and 60 days after planting none of the genotypes could survive at saline field. High salinity level in the field in comparison with salinity tolerance threshold of the chickpea genotypes might be the reason for this reaction
Seyed Siamak Alavi - Kia; Alireza pour aboughadareh; Mohammad Moghadam vahed; Ali Ashraf Mehrabi; Mohammad Amin Mazimani
Abstract
In order to evaluate the effect of water deficit stress on agronomic and morpho-physiological traits in eight populations of the Triticum urartu species an experiment was experiment was conducted using a split plot design based on a randomized complete block design with three replications at Research ...
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In order to evaluate the effect of water deficit stress on agronomic and morpho-physiological traits in eight populations of the Triticum urartu species an experiment was experiment was conducted using a split plot design based on a randomized complete block design with three replications at Research Station of Faculty of Agriculture, Tabriz University in 2010-2011. Analysis of variance indicated significant differences among populations in approximately all traits except of number of total tillers per plant, total weight of spike, harvest index, chlorophyll index, and duration of grain filling, indicating the existence of genetic variation among populations. Genetic coefficient of variation were high for most traits such as leaf area, biomass, harvest index and grain yield per plant under both stress and control conditions. Based on yield related traits, populations collected from Marivan and Songhor were more drought tolerant. Cluster analysis grouped populations in two clusters that tolerant populations were placed in one separate cluster. In general, results of this study showed that wild einkorn populations (Triticum urartu) of Iran, especially populations from Kermanshah and Kurdistan provinces were more tolerant to water deficit regarding morpho- physiological and agronomic traits.