Taher Saghali; Mohamd Esmail Amiri; Ali Imani; Hamed Rezaei; Ali Momenpour
Abstract
Almond has a high sensitivity to salt stress. Selection of a tolerant rootstock/scion is one of the ways to reduce the negative effects of salinity stress. In this experiment, the effects of salinity stress on some morphological, physiological and nutritional traits of some almond rootstocks was investigated ...
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Almond has a high sensitivity to salt stress. Selection of a tolerant rootstock/scion is one of the ways to reduce the negative effects of salinity stress. In this experiment, the effects of salinity stress on some morphological, physiological and nutritional traits of some almond rootstocks was investigated in a factorial experiment based on completely randomized design with two factors (8 levels of rootstock/scion compositions and five levels of salinity) in three replications at Horticultural Research Institute in 2017. The results showed that by increasing salinity from zero to 8 ds/m, the highest and lowest amount of reduction in root dry weight was observed in ‘Shahrood 12’/Tetra (37.8%) and GN15 (14.5%), respectively. The lowest and highest dry weight loss in the main branch was observed in the bitter almond seedling (38.2%) and ‘Shahrood 12’/ GN15 (47.9%), respectively. The highest amount of necrosis was observed in bitter almond seedling (28.98%) and the lowest value was in ‘Shahrood 12’/GF677 (9.9%). The lowest and highest changes in electrolyte leakage occurred at the rootstock of GF677 (30.74%) and GN15 (42.93%). The lowest and the highest changes in sodium were observed in the ‘Shahrood 12’/GF677 (51.2%) and in the bitter almond seedling (82%), respectively. The results also showed that by increasing salinity stress, the amount of root and leaf nutrient elements increased initially and then decreased with increasing salinity levels. Based on the results, ‘Shahrood 12’/GF677 is the most tolerable combination and the ‘Shahrood12’ grafted on bitter almond seedling is the most sensitive to salt stress.
Ali Momenpour; Davod Bakhshi; Ali Imani
Abstract
The types of scion-rootstock compound and level of salinity affect on almond biochemical reactions. In order to evaluate the effect of salinity stress on biochemical reactions of almond genotypes, a experiment was carried out with 2 factors; cultivar in 4 levels including Shahrood 12, Touno, 1- 16 budded ...
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The types of scion-rootstock compound and level of salinity affect on almond biochemical reactions. In order to evaluate the effect of salinity stress on biochemical reactions of almond genotypes, a experiment was carried out with 2 factors; cultivar in 4 levels including Shahrood 12, Touno, 1- 16 budded on GF677 rootstock and GF677 and water salinity in five levels including 0, 1.2, 2.4, 3.6 and 4.8 g/l of sodium chloride salt (that electrical conductivity equal to 0.5, 2.5, 4.9, 7.3 and 9.8 ds/m, respectively). The result showed that in the total genotypes studied, with increasing salinity concentration to treatment 4.8 gr/lit, were increased content of hydrogen peroxide, malondialdehyde, others aldehyde. Also, content of total phenolics, antioxidant capacity, soluble carbohydrate, prolin, total soluble proteins, enzymes activity of catalase, ghayacol peroxidase and ascorbat peroxidase in the total genotypes studied, in begging, with increasing salinity concentration, were increased but with more increasing salinity concentration, those contents were reduced. Overall, the highest content of total soluble proteins, enzymes activity of catalase, ghayacol peroxidase and ascorbat peroxidase in level of salinity 3.6 gr/lit and the highest content of total phenolics, antioxidant capacity, soluble carbohydrate and prolin in level of salinity 4.8 gr/lit and lowest content of hydrogen peroxide, malondialdehyde, others aldehyde and total non-soluble carbohydrate in levels of salinity 3.6 and 4.8 gr/lit were observed in ‘Shahrood 12’ cultivar. Overall, of between total genotypes studied, Shahrood 12’ was recognized as the most tolerant cultivar to salinity stress.
Razieh Rostami; Ahmad Ershadi; Hasan Sarikhani
Abstract
In order to evaluate tolerance of four Prunus rootstocks to Fe-deficiency-induced Chlorosis, an experiment was carried out in Bu-Ali Sina University in 2012 using a RCBD design with four replications. Four rootstocks were used, including GF677, GN15, bitter almond and peach and nutritional treatments ...
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In order to evaluate tolerance of four Prunus rootstocks to Fe-deficiency-induced Chlorosis, an experiment was carried out in Bu-Ali Sina University in 2012 using a RCBD design with four replications. Four rootstocks were used, including GF677, GN15, bitter almond and peach and nutritional treatments were: Hoagland solution without Fe (pH = 6), Hoagland solution containing 90µM Fe as control (pH = 6), and Hoagland solution containing 90 µM Fe + 10 mM KHCO3 (pH = 8). At the end of experiment, total and active content of iron in leaves and roots, chlorophyll content, hydrogen peroxide levels as well as catalase and ascorbate peroxidase enzyme activity were measured. Based on the results, peach was the most sensitive rootstock to iron deficiency and bicarbonate treatments, while almond was the most tolerant rootstock. Comparing two peach × almond hybrid rootstocks showed that GF677 had better performance under iron deficiency and in the presence of bicarbonate rather than GN15. Bicarbonated nutrient solution inhibited the Fe absorption and transport by peach roots, whiles other rootstocks uptake high amount of iron and transferred it to shoots. In this condition, on both peach-almond hybrids, GF677 and GN15, large amounts of iron in leaves were in inactive form but on bitter almond rootstock in addition to high iron uptake and transport, large amounts of this element was active and utilizable by leaves.
Ali Momenpour; Davood Bakhshi; Ali Imani; Hamed Rezaie
Abstract
The types of scion-rootstock compound and level of salinity affect on growth characteristics and concentration of nutrition elements of almond leaves and roots. In order to evaluate the effect of salinity stress on vegetative traits and concentration of nutrition elements of leaves and roots almond genotypes, ...
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The types of scion-rootstock compound and level of salinity affect on growth characteristics and concentration of nutrition elements of almond leaves and roots. In order to evaluate the effect of salinity stress on vegetative traits and concentration of nutrition elements of leaves and roots almond genotypes, a experiment was carried out with two factors; cultivar in four levels including ‘Shahrood 12’, ‘Touno’, ‘1-16’ budded on GF677 rootstock and GF677 and water salinity in five levels including zero, 1.2, 2.4, 3.6 and 4.8 g/l of sodium chloride salt (with the electrical conductivity of 0.5, 2.5, 4.9, 7.3 and 9.8 ds/m, respectively). The result showed that with increasing salinity concentration, branch height, branch diameter, and number of produced leaves and percentage of green leaves have been reduced but percentage of necrotic leaves and percentage of downfall leave were increased. The result showed that in the total genotypes studied, the highest rate of Na+ (2.12%), Cl- (4.94%), ratio Na+/K+ (2.03%), ratio Na+/Ca++ (1.92%), ratio Na+/Mg++ (6.81%), ratio Na+/P (14.07%), and the lowest rate of Ca++ (1.06%), Mg++ (0.33%), P (0.146%), Zn++ (32.7 ppm), Cu++ (9.33 ppm), in leaves was observed in treatment 9.8 ds/m of NaCl. The result showed that type of scion was affected in obstruction of Na+ absorption by the roots and their transported to leaves. In the total level of salinity studied, ‘Shahrood 12’ was the lowest rate of Na+, Cl-, ratio Na+/K+, ratio Na+/Ca++, ratio Na+/Mg++, ratio Na+/P and the highest ratio Cl-/ Na+. Also, this cultivar can tolerate high level of salinity (7.3 ds/m), by increasing content of K+ (1.65%),Cu++ (9.62 ppm), Fe++ (22.30 ppm), Zn++ (50.45 ppm) more than other genotypes studied in this research, to deal with the devastating effects of Na+. Overall, ‘Shahrood 12’ was recognized as the most tolerant cultivar to salinity stress.
Erfan Sepahvand; Ali Momenpour; Ali Imani; Mahmoud Ghasemnejad
Abstract
This research was conducted to study some vegetative and reproductive traits as well as qualitative andquantitative characteristics and their correlation in 80 almond genotypes. Qualitative traits were studiedaccording to gulcan descriptor. Quantitative traits were analyzed as completely randomized design(CRD), ...
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This research was conducted to study some vegetative and reproductive traits as well as qualitative andquantitative characteristics and their correlation in 80 almond genotypes. Qualitative traits were studiedaccording to gulcan descriptor. Quantitative traits were analyzed as completely randomized design(CRD), with 12 replications. The results showed that genotypes had significant difference in fruit, nut,kernel weight and kernel to nut weight ratio. No169 genotype was very late blooming and had large sizeand moderate quality fruits. Fruit, nut and kernel weight in this genotype were 12.50, 4.75 and 1.28,respectively. Kernel of this genotype was sweet with low shriveling, which are important of consumeracceptance. The traits correlation showed that fruit, nut and kernel weight and size, had significantpositive correlation together. Also, kernel taste had significant negative correlation with pubescence,shriveling and color intensity of kernel. Results of cluster analysis showed that, in Euclidean distance of25, all genotypes were divided into two main branches. With decrease in the Euclidean distance from 25to 5, the genotypes were divided into eight main subclusters. Cluster analysis revealed that the traits oftree high and growth vigor, fruit, nut and kernel size and shell sofftness and hardness were the maincharacteristics separating the genotypes.
Mohammad Ali Baghestani; Delavar Baghestani; Hamid Rahimian mashhadi; Hasan Mohammad Alizade
Volume 11, Issue 2 , November 2009, , Pages 19-27
Abstract
The biology and phenology of broomrape (Orobanche nana) on Almond (Prunus dulcis cv. Mamaei) was studied during the growth season in Shahrekord city of Iran in 2004. Twenty trees which were infested by broomrape, were selected. Results indicated that almonds need 2120.5 growth degree days (GDD) to complete ...
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The biology and phenology of broomrape (Orobanche nana) on Almond (Prunus dulcis cv. Mamaei) was studied during the growth season in Shahrekord city of Iran in 2004. Twenty trees which were infested by broomrape, were selected. Results indicated that almonds need 2120.5 growth degree days (GDD) to complete phenological stages from flowering to fruit ripening. Based on the cardinal temperature of broomrape (9.5°C), the parasite weed needs 209, 1125.5, 1414.5 and 961 GDD for completion of seed germination, stem emergence, flowering and seeding stages, respectively. Maximum seed germination occurred at the depth of 18 cm. Maximum root infection was observed at the depth of 9 to 12 cm. The highest infection to this parasite plant was recorded on roots with 9 to 11.9 mm diameter.
Hamid Moeinrad
Volume 11, Issue 2 , November 2009, , Pages 65-74
Abstract
A study was conducted on six years old trees of almond, Shahroud cv. (No. 18), in a three-year trial (2002-04) at Mashhad Agricultural Research Station. The experiment was done on the basis of completely randomized desigh with four replications. In the first and second years of the experiment, ethephon ...
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A study was conducted on six years old trees of almond, Shahroud cv. (No. 18), in a three-year trial (2002-04) at Mashhad Agricultural Research Station. The experiment was done on the basis of completely randomized desigh with four replications. In the first and second years of the experiment, ethephon was sprayed in 15 and 20 days before the common time of harvesting, respectively. The concentrations of ethephon in 2002 were variable between zero to 600 mg/l; whereas in 2003, they were 0 upto 900 mg/l. Through 2003 and 2004, ethephon spraying (900 mg/l) was carried out in mid fall every year, too. A Khorasanina cultivar (named as No. 1) was also considered for fall treatment. In each year, the percentage of fruits with dehiscent hull increased by higher concentrations of ethephon, significantly. The force (gravitometer figures) over which fruits have been detached from branches decreased significantly by higher concentrations of ethephon. We concluded that, the concentration of ethephon should at least be 500-600 mg/l so that the required results in ripening of almond fruits can be obtained. In order to delay the flowering time, ethephan spraying (900 mg/l) was the most effective treatment, in mid fall, considerably. In the case of summer treatments trees showed gummosis, mostley.