Z. Hassanzadeh; H. Hassanpour
Abstract
Introduction: Oleaster (Elaeagnus angustifolia L.), belonging to the Elaeagnaceae family, is usually a shrub or small spiny tree with a height of 2– 5 m. Branches of oleaster are silvery green and the leaves are egg-shaped or bayonet and the flowers are bell -shaped, very fragrant, cream color, and ...
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Introduction: Oleaster (Elaeagnus angustifolia L.), belonging to the Elaeagnaceae family, is usually a shrub or small spiny tree with a height of 2– 5 m. Branches of oleaster are silvery green and the leaves are egg-shaped or bayonet and the flowers are bell -shaped, very fragrant, cream color, and single or clustered. The fruits are oval-shaped with a length of 1.5 –2 cm and their colors are reddish-brown. Oleaster (Elaeagnus angustifolia L.) is one of the most valuable fruit tree is grown wildly in northwestern of Iran. The oleaster was distributed in East Asia, Southeast Asia, and Queensland in northeastern Australia. This tree was extended along the rivers in many arid and semi-arid regions. It also plays a very important role in maintaining the ecosystem of dry areas, due to high drought tolerance and high salinity and alkalinity tolerance in soil. The evaluation of fruit and seed properties can be useful in selection of superior genotypes for commercially culture. Therefore, the aim of this study was to investigate the physical properties of seed and fruit of some Elaeagnus angustifolia genotypes in east and west Azerbaijan provinces.
Materials and Methods: In this study, thirty-eight genotypes of Elaeagnus angustifolia L., according to free of pest and disease characteristics were selected and labeled from east and west Azerbaijan provinces, Iran. The fully matured fruits were collected from studied genotypes and then transferred to the lab and different parameters such as physicochemical characterizations of fruit and seed such as weight, length and width of fruit and seed and fruit color parameter were measured. Fruit color was determined by Chroma meter CR-400 (Konica Minolta, Japan). After collected data, to calculate descriptive statistics, correlation and cluster analysis based on Ward’s method was used SPSS Software (Version 22). The factor analysis was also performed using varimax rotation method.
Results and Discussion: The results showed that there was high diversity in some of the attributes such as leaf width, leaf length/leaf width ratio and flesh weight. The highest diversity was observed in leaf width (37.56 %) and the fruit surface area had lowest diversity (2.09 %). The mean of fruit length, fruit width and fruit width, fruit geometric mean diameter and sphericity were 22.99, 16.09 cm, 1.69 g, 18.09 mm and 79.22 %, respectively. Ersoy et al. (2013) revealed that length, width, thickness and weight of fruit were 2.86 cm, 1.88 cm, 1.87 cm and 2.90 g respectively. The mean of seed length, width, thickness and weight were 2.42 cm, 0.508 cm, 0.503 cm and 0.38 g, respectively. Leaf length was positively correlated with leaf width, fruit length/fruit width ratio, and seed length and seed length/seed width ratio and negatively with fruit sphericity. In the present study, the mean of traits related to fruit color including L*, a*, b*, hue and chroma were 48.09, 13.99, 18.51, 52.18, and 28.23, respectively. In the study of Zare et al. (2012), the mean of L*, a*, b* were 12.42, 2.73 and 2.39, respectively. In the present study, the mean of traits related to fruit color was higher than the mean mentioned in Zare et al. (2012) study, and this discrepancy can be due to different environmental conditions and studied genotypes. In this study, based on factor analysis, the eight main factors were explained a total of 85.92 % of the variance, which 20.59% were related to the first factor and 18.69% to the second factor. The two-dimensional scatter plot was constructed for graphical overview of the relationships among genotypes. According to scatter plot created by two first factors, all studied genotypes were located in two groups. The scatter plot revealed geometrical distances among genotypes reflecting phenotypic and in this regard presumably genetic dissimilarity among them. According to the cluster analysis, genotypes were divided into two main groups. Genotypes in group first had the highest average fruit and seed length, width and weight. The traits related to color such as L*, a*, b*, hue, chroma had a significant role in separation of second group. Therefore, the presence of genotypes in different clusters represented high diversity in terms of evaluated traits among the all genotypes.
Conclusions This research is a preliminary study that can be based to select the desired genotypes. The study also provides important information on the physical characteristics and fruit color of some Elaeagnus angustifolia genotypes in the east and west Azerbaijan provinces. In general, the results of this study showed that there is high diversity among the studied genotypes.The results obtained might be helpful for breeding programs and introducing of cultivar in Elaeagnus angustifolia.
amirhasan hossini; A. Tehranifar; L. Samiei; M. Shoor; F. Memariani
Abstract
Introduction: Allium is one of the greatest genera in Amarylidaceae family with more than 900 species distributed in northern hemisphere from temperate region to tropical and subtropical areas. There are more than 135 Allium species in Iran, many of which have the ornamental potential and can be exploited ...
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Introduction: Allium is one of the greatest genera in Amarylidaceae family with more than 900 species distributed in northern hemisphere from temperate region to tropical and subtropical areas. There are more than 135 Allium species in Iran, many of which have the ornamental potential and can be exploited in floriculture industry. Northeast of Iran with more than 35 species especially in Razavi and North Khorassan provinces is regarded as one of the main centers of diversity of Alliums. The species of Allium have the great potential to be used either as cut flower and potted plant or as outdoor plant in urban landscape. There are indeed a rich germplasm of Allium in Iran with diverse characteristics of flower colour, size and form. For the utilization of the wild species, it is necessary to identify and fully assess their main morphological and phenotypic characteristics as the initial step. Morphological markers are one of the commonly used tools which are applied in phenotypic evaluation, taxonomic classification and collection management of plant species. The aim of present study was to evaluate morphological traits and genetic diversity of some of the native Allium species of Razavi khorassan in Iran.
Materials and Methods: In this study the Allium species were collected from diverse regions of Khorassan, Iran and were cultured as a collection in Research Center for Plant Sciences (RCPS) of Ferdowsi University of Mashhad in a completely randomized block design. Following the establishment of the Allium species, 29 qualitative and 13 quantitative traits were recorded during the growing season in two successive years. Analysis of variance and comparison of all traits were performed using JMP8 software and simple correlation and factor analysis was calculated using SPSS software. Principal component analysis as well as maximum variance was also performed on the collected data.
Results and Discussion: The results exhibited that the species and genotypes were significantly different in their morphological characteristics. Some of the traits like scape length, leaf colour, flower diameter and length and width of perianth were more diverse among the species and consequently were considered as the most discriminating traits whereas some qualitative traits like perianth segment form, ovary form and perianth tip form remain uniform amongst the species. There are number of studies indicating the existence of high genetic diversity in phenotypic characteristics of some species of Allium like garlic, onion and shallot .The traits having the higher coefficient of variance bring the opportunity for the wider range of selection. Correlation analysis revealed the significant correlations among some of the studied traits. High positive correlation observed among leaf length with scape length, scape diameter with perianth length, leaf width with scape diameter and scape diameter with flower diameter. In garlic, similar positive correlation was reported on leaf length and width with scape length. Considering the quantitative traits, various parameters like environmental conditions are also effective in correlation between traits along with the corresponding genetic controlling. Factor analysis is used to identify the most important factors involving in discriminating among the species and genotypes. Based on the results, the 42 morphological characters were classified into five main factors which could justify 91.62% of total variance. Characters like inflorescence diameter, scape diameter, flower form, pedicel length, filament length and ovary and style length were placed in the first factor and expressed 30.03% of the variation. The second factor that could explain 24.9% of variation was included scape form and length, leaf length and pedicel colour. The selected discriminating traits of this study were similar to the ones of Allium roseum which had been earlier introduced by Zammuri et al (2009). The first two factors explained the highest amount of diversity while the 3rd to fifth factors could define 16.10%, 12.265% and 9.19% of variance, respectively. Traits like scape length, leaf form and colour and inflorescence diameter are amongst the main factors for the selection of ornamental plants.
Conclusion: In overall, substantial valuable information obtained for some of the native species of Alliums of Iran for the first time. This information can help in selection of desired species for specific landscape designing however characterization of the native germplasm can also be a very beneficial task in future breeding program as well as the conservation strategies for preserving the endangered species.
