University of Guilan Iranian Journal of Seed Sciences and Research 2476-3780 3 2 2016 06 21 Effect of seed deterioration on germination parameters and growth seedling of two maize varieties Effect of seed deterioration on germination parameters and growth seedling of two maize varieties 1 11 2092 FA Amin Nahofte Esterabad Ali Rahemi Karizaki Ali Nakhzari Moghadam Journal Article 2017 02 22 In this study investigated the effects of seed quality on germination parameters and heterotrophic seedling growth in two maize varieties including single cross 640 and 704. For seed deterioration treatments we used accelerated aging test in 41⁰C for 24, 48, 72 and 96 h. A factorial experiment in a completely randomized design with four replications was conducted in the laboratory. Results showed that the seed deterioration effects on all traits studied included speed germination, germination percent, germination uniformity, normal seedling percent, plomule length, allometric growth ratio and seedling length vigor index were significant for but there was no significant effect on heterotrophic seedling growth traits. The varieties also have significant effects at 1% level on all the traits except allometric growth ratio, final seed and root dry weight. Seed deterioration had no significant effects on shoot length, allometric growth ratio, seedling length vigor index in 704 and on germination growth rate in 640. With increasing of seed deterioration were decreased germination percent and uniformity. Seed deterioration was more intense on seed germination percent in 640. Heterotrophic growth parameters such as seed reserves use efficiency, fraction of seed reserves mobilization and final seed dry weight has higher averages to larger cotyledon in 640. At the end of the day increasing the seed aging caused decreases on germination and normal seedlings percentage in both varieties but 704 was more resistant to decay. In this study investigated the effects of seed quality on germination parameters and heterotrophic seedling growth in two maize varieties including single cross 640 and 704. For seed deterioration treatments we used accelerated aging test in 41⁰C for 24, 48, 72 and 96 h. A factorial experiment in a completely randomized design with four replications was conducted in the laboratory. Results showed that the seed deterioration effects on all traits studied included speed germination, germination percent, germination uniformity, normal seedling percent, plomule length, allometric growth ratio and seedling length vigor index were significant for but there was no significant effect on heterotrophic seedling growth traits. The varieties also have significant effects at 1% level on all the traits except allometric growth ratio, final seed and root dry weight. Seed deterioration had no significant effects on shoot length, allometric growth ratio, seedling length vigor index in 704 and on germination growth rate in 640. With increasing of seed deterioration were decreased germination percent and uniformity. Seed deterioration was more intense on seed germination percent in 640. Heterotrophic growth parameters such as seed reserves use efficiency, fraction of seed reserves mobilization and final seed dry weight has higher averages to larger cotyledon in 640. At the end of the day increasing the seed aging caused decreases on germination and normal seedlings percentage in both varieties but 704 was more resistant to decay. https://jms.guilan.ac.ir/article_2092_5b933d3bc7fae2c42ebbaf597a77ffe7.pdf

University of Guilan Iranian Journal of Seed Sciences and Research 2476-3780 3 2 2016 06 21 Study of genetic diversity of tolerance to drought stress in chicory ecotypes (Cichorium intybus L.) via multivariate analysis Study of genetic diversity of tolerance to drought stress in chicory ecotypes (Cichorium intybus L.) via multivariate analysis 13 25 2093 FA Farzaneh Asakereh Zahra Khodarahmpour Journal Article 2017 02 22 In order to study of genetic diversity chicory ecotypes in drought stress condition via multivariate analysis an experiment was preformed in factorial form using a completely randomized design with 3 replications at Islamic Azad university, Ahvaz branch in 2013. First factor incompasis 26 chicory ecotypes and second factor five levels of drought treatment (0 ,-2 ,-4 ,-6 and -8 bar), were used by using PEG 6000. Traits germaination percent, germination rate, mean of germination time, radicle length, plumule length, seedling length, radicle/plumule length ratio, wet weight of seedling, dry weight of seedling, wet/dry weight ratio and seed vigor index were studied. Results analysis of variance showed that between ecotypes, drought stress and their interaction for all trait, had siginificant difference. The most positive and significant correlation was between the seeding length and root length. The principal components analysis, 11 studied traits divided to 3 components and according to which 79% of the total variation to be justified. In biplot graphic method to basis the first and second components and cluster analysis; ecotypes of third cluster incompasis 36546, 2398, 15008 and 15084 according to all traits better than of other ecotypes were, therefore this ecotypes compare to other ecotypes tolerance to drough. Based on results of this study, use of this ecotypes for future breeding programs tolerance to drought can be recommended. In order to study of genetic diversity chicory ecotypes in drought stress condition via multivariate analysis an experiment was preformed in factorial form using a completely randomized design with 3 replications at Islamic Azad university, Ahvaz branch in 2013. First factor incompasis 26 chicory ecotypes and second factor five levels of drought treatment (0 ,-2 ,-4 ,-6 and -8 bar), were used by using PEG 6000. Traits germaination percent, germination rate, mean of germination time, radicle length, plumule length, seedling length, radicle/plumule length ratio, wet weight of seedling, dry weight of seedling, wet/dry weight ratio and seed vigor index were studied. Results analysis of variance showed that between ecotypes, drought stress and their interaction for all trait, had siginificant difference. The most positive and significant correlation was between the seeding length and root length. The principal components analysis, 11 studied traits divided to 3 components and according to which 79% of the total variation to be justified. In biplot graphic method to basis the first and second components and cluster analysis; ecotypes of third cluster incompasis 36546, 2398, 15008 and 15084 according to all traits better than of other ecotypes were, therefore this ecotypes compare to other ecotypes tolerance to drough. Based on results of this study, use of this ecotypes for future breeding programs tolerance to drought can be recommended. https://jms.guilan.ac.ir/article_2093_f2c08812133e64e9389428bd509bc652.pdf

University of Guilan Iranian Journal of Seed Sciences and Research 2476-3780 3 2 2016 06 21 Study the Efficiency of Three Seed Priming Methods for Salt and Drought Stresses Tolerance of Safflower (Cartthamus tinctorius L.) in Germination and Seedling Stags Study the Efficiency of Three Seed Priming Methods for Salt and Drought Stresses Tolerance of Safflower (Cartthamus tinctorius L.) in Germination and Seedling Stags 27 39 2094 FA Leila Jahanban Omid Lotfifar Samaneh Mottaghi Journal Article 2017 02 22 To study the efficiency of three priming methods to increase salt and drought stress resistant of safflower in germination and early growth, a laboratory experiment was conducted as factorial arranged in completely randomized design with four replications in seed laboratory of Iranian Plant Protection Research Institute. First factor was kind of stress include salt and drought stress, second factor was priming method include hydropriming (treated with water for 6 h), Halopriming (treated with NaCl 100 mM), KNO3 (0.5%) and no priming as control and third factor was water potential include 0.0, -0.3, -0.6, -0.9 and -1.2 MPa. Too, salt and drought conditions caused by NaCl and PEG respectively. Results showed that both stresses inhibited water uptake, germination percentage, radicle and Plumule length and seedling vigour index, but this criteria significantly were higher in NaCl than PEG at the same water potential. All of three used priming treatments increased germination and seedling growth under salt and drought stresses. By increase of stress intensity, efficiency of priming methods increased too. Hydropriming was more effective than other priming to decrease salt and drought damage in germination and early growth stages and it is suitable and low cost strategy. To study the efficiency of three priming methods to increase salt and drought stress resistant of safflower in germination and early growth, a laboratory experiment was conducted as factorial arranged in completely randomized design with four replications in seed laboratory of Iranian Plant Protection Research Institute. First factor was kind of stress include salt and drought stress, second factor was priming method include hydropriming (treated with water for 6 h), Halopriming (treated with NaCl 100 mM), KNO3 (0.5%) and no priming as control and third factor was water potential include 0.0, -0.3, -0.6, -0.9 and -1.2 MPa. Too, salt and drought conditions caused by NaCl and PEG respectively. Results showed that both stresses inhibited water uptake, germination percentage, radicle and Plumule length and seedling vigour index, but this criteria significantly were higher in NaCl than PEG at the same water potential. All of three used priming treatments increased germination and seedling growth under salt and drought stresses. By increase of stress intensity, efficiency of priming methods increased too. Hydropriming was more effective than other priming to decrease salt and drought damage in germination and early growth stages and it is suitable and low cost strategy. https://jms.guilan.ac.ir/article_2094_6f6ba9b9bb960f26c7926ca120888373.pdf

University of Guilan Iranian Journal of Seed Sciences and Research 2476-3780 3 2 2016 06 21 Evaluation of the allelopathic properties effect of two medicinal plant, Lallemantia royleana and Echinacea angustifolia extracts on germination and early seedling growth of Sinapis arvensis and Avena fatua Evaluation of the allelopathic properties effect of two medicinal plant, Lallemantia royleana and Echinacea angustifolia extracts on germination and early seedling growth of Sinapis arvensis and Avena fatua 41 52 2095 FA Arezoo Paraver Saeideh Maleki Farehani Alireza Rezazadeh Journal Article 2017 02 22 Some phytochemical compounds medicinal plants as allelopathic compounds added thephenomenainvolved, germination, growth and reproduction of other plants are affected Thatis whyin recent years the use of allelopathy in weed management has attracted the attention of manyexperts. To evaluate the effect of aqueous extract of Echinacea angustifolia and <em>Lallemantia royleana</em>on seed germination and seedling growth indices of <em>Sinapis arvensis </em>and <em>Avena fatua </em>factorial experiment in a completely randomized design with 3 replications, in 2015 the Faculty of Agriculture in seed technology laboratory control done .The experiment consisted of two aqueous extract (<em>Lallemantia royleana </em>and <em>Echinacea angustifolia</em>) and two seed <em>(</em><em>Sinapis arvensis and Avena fatua) </em>and fourecon centrations (control,5, 10and 20 percent). Germination percentage, germination rate, seedling length and seedling dry weight were determined.The results showed that the effect ofaqueous extract ofthe plant treated and different concentrations of aqueous extracts on the germination percentage , germination rate,seedling length and seedling dry weight was significantat thelevel ofone percent The results showed that all concentrations of aqueous extract of <em>Lallemantia royleana</em> to <em>Echinacea angusti folia </em>seed germination percentage and speed, seedling length and seedling dry weight <em>Sinapis arvensis </em>and <em>Avena fatua</em> have a deterrent effect, so thatby increasing the concentration of the extract, the inhibition rate increase the increase was greater for <em>Sinapis arvensis to Avena fatua</em> Some phytochemical compounds medicinal plants as allelopathic compounds added thephenomenainvolved, germination, growth and reproduction of other plants are affected Thatis whyin recent years the use of allelopathy in weed management has attracted the attention of manyexperts. To evaluate the effect of aqueous extract of Echinacea angustifolia and <em>Lallemantia royleana</em>on seed germination and seedling growth indices of <em>Sinapis arvensis </em>and <em>Avena fatua </em>factorial experiment in a completely randomized design with 3 replications, in 2015 the Faculty of Agriculture in seed technology laboratory control done .The experiment consisted of two aqueous extract (<em>Lallemantia royleana </em>and <em>Echinacea angustifolia</em>) and two seed <em>(</em><em>Sinapis arvensis and Avena fatua) </em>and fourecon centrations (control,5, 10and 20 percent). Germination percentage, germination rate, seedling length and seedling dry weight were determined.The results showed that the effect ofaqueous extract ofthe plant treated and different concentrations of aqueous extracts on the germination percentage , germination rate,seedling length and seedling dry weight was significantat thelevel ofone percent The results showed that all concentrations of aqueous extract of <em>Lallemantia royleana</em> to <em>Echinacea angusti folia </em>seed germination percentage and speed, seedling length and seedling dry weight <em>Sinapis arvensis </em>and <em>Avena fatua</em> have a deterrent effect, so thatby increasing the concentration of the extract, the inhibition rate increase the increase was greater for <em>Sinapis arvensis to Avena fatua</em> https://jms.guilan.ac.ir/article_2095_5d6256cd99263176fcc245d6d72687fa.pdf

University of Guilan Iranian Journal of Seed Sciences and Research 2476-3780 3 2 2016 06 21 Grouping of some canola genotypes in various drought stress treatment in Germination Stages based on multivariate statistical methods Grouping of some canola genotypes in various drought stress treatment in Germination Stages based on multivariate statistical methods 53 65 2096 FA Mohammad Mohsenzadeh Golfazani Faegheh Mohammad Seyed Hasan Hasani Kumleh Habibollah Samizadeh Lahiji Journal Article 2017 02 22 This study was conducted to grouping of 10 genotypes of canola via ISSR and IRAP markers and genotype resistance to drought. Eighty five polymorphic bands were produced using 19 individuals and combinations of ISSR and IRAP, and polymorphism varied between 50 to 100. Cluster analysis with UPGMA method placed the 10 genotypes in tree cluster, which includes 5, 3 and 2 respectively. Cluster analysis of germination results based on Euclidean distance with UPGMA method assigned treatment in four different groups consists of 11, 5, 9, and 15 genotypes respectively. Fisher’s linear Discriminant Function Analysis confirmed validity clustering analysis with 95%. The second group had the highest value, for most economical traits. SLM046 genotype could be introduced as resistant genotype by placing different treatments of its in one group. The fourth group included genotypes that had low value for most characteristics. Factor analysis results based on principal components showed that three factors named plumule, radicle and germination percentage, which determined 88.31 percent of total variation. First region was detected as good region on the base first and second factor evaluation. Genotypes in this area were favorable response to drought stress and could be introduced as resistant genotype at germination stage. This study was conducted to grouping of 10 genotypes of canola via ISSR and IRAP markers and genotype resistance to drought. Eighty five polymorphic bands were produced using 19 individuals and combinations of ISSR and IRAP, and polymorphism varied between 50 to 100. Cluster analysis with UPGMA method placed the 10 genotypes in tree cluster, which includes 5, 3 and 2 respectively. Cluster analysis of germination results based on Euclidean distance with UPGMA method assigned treatment in four different groups consists of 11, 5, 9, and 15 genotypes respectively. Fisher’s linear Discriminant Function Analysis confirmed validity clustering analysis with 95%. The second group had the highest value, for most economical traits. SLM046 genotype could be introduced as resistant genotype by placing different treatments of its in one group. The fourth group included genotypes that had low value for most characteristics. Factor analysis results based on principal components showed that three factors named plumule, radicle and germination percentage, which determined 88.31 percent of total variation. First region was detected as good region on the base first and second factor evaluation. Genotypes in this area were favorable response to drought stress and could be introduced as resistant genotype at germination stage. https://jms.guilan.ac.ir/article_2096_8ba408fd0f3bf2d30f796be1b9e88fbf.pdf

University of Guilan Iranian Journal of Seed Sciences and Research 2476-3780 3 2 2016 06 21 The response of Arabidopsis mutants associated with senescence to the precursor of ethylene (ACC) The response of Arabidopsis mutants associated with senescence to the precursor of ethylene (ACC) 67 80 2097 FA Sara Rooyan Reza Shirzadian Payam Talebi Journal Article 2017 02 22 Ethylene is involved in many developmental and processes including plant senescence. Senescence is the final step of plant development resulting in death of plants. 1-aminocyclopropane 1-carboxylic acid) ACC) is produced in the last step of the ethylene biosynthesis. The Morphological characteristics of treated plants by ACC induce a phenotype called triple response including root and hypocotyl shortness and thickness. The occurrence of these symptoms indicates that plant system sense ethylene and its biosynthesis is activate. In this project, we examined the response of the wild type seedlings L<em>er-0</em>, <em>Col-0</em> and several mutants including <em>old-3, old-9, old-14,</em> <em>etr1-3</em> and <em>ko-5</em> to various concentration of ACC in <em>Arabidopsis thaliana</em> following evaluation of triple response characteristics. <em>OLD</em> genes in Arabidopsis are known as senescence involved genes. According to the obtained results, it shown that with increasing ACC concentrations, the triple response has been detected in most mutants, while in mutant <em>etr1-3</em> none of those responses were observed  meaning that <em>etr1-3 </em>is not able to sense and signal ethylene. These results suggest that change in <em>OLD9</em>, <em>OLD3</em> and <em>OLD14</em> function doesn't cause any significant impact on ethylene biosynthesis and signaling, while change in gene activity <em>ETR</em> in <em>Arabidopsis</em> led to the loss of the triple response in <em>etr-3</em> plants. Thus, the genes controlling ethylene biosynthesis is different from genes regulating plant senescence. Ethylene is involved in many developmental and processes including plant senescence. Senescence is the final step of plant development resulting in death of plants. 1-aminocyclopropane 1-carboxylic acid) ACC) is produced in the last step of the ethylene biosynthesis. The Morphological characteristics of treated plants by ACC induce a phenotype called triple response including root and hypocotyl shortness and thickness. The occurrence of these symptoms indicates that plant system sense ethylene and its biosynthesis is activate. In this project, we examined the response of the wild type seedlings L<em>er-0</em>, <em>Col-0</em> and several mutants including <em>old-3, old-9, old-14,</em> <em>etr1-3</em> and <em>ko-5</em> to various concentration of ACC in <em>Arabidopsis thaliana</em> following evaluation of triple response characteristics. <em>OLD</em> genes in Arabidopsis are known as senescence involved genes. According to the obtained results, it shown that with increasing ACC concentrations, the triple response has been detected in most mutants, while in mutant <em>etr1-3</em> none of those responses were observed  meaning that <em>etr1-3 </em>is not able to sense and signal ethylene. These results suggest that change in <em>OLD9</em>, <em>OLD3</em> and <em>OLD14</em> function doesn't cause any significant impact on ethylene biosynthesis and signaling, while change in gene activity <em>ETR</em> in <em>Arabidopsis</em> led to the loss of the triple response in <em>etr-3</em> plants. Thus, the genes controlling ethylene biosynthesis is different from genes regulating plant senescence. https://jms.guilan.ac.ir/article_2097_b6e41367599521f95bb249eae990db58.pdf

University of Guilan Iranian Journal of Seed Sciences and Research 2476-3780 3 2 2016 06 21 Effect of seed coating with growth promoting bacteria and micronutrients on germination characteristics of corn Effect of seed coating with growth promoting bacteria and micronutrients on germination characteristics of corn 81 94 2098 FA Fatemeh Saadat Seyed MohammadReza Ehteshami Journal Article 2017 02 22 This experiment carried out in order to investigate the effect of seed coating with growth promoting bacteria (<em>Azotobacter </em>and <em>Pseudomonas</em>) and micronutrients (Zn, B, Mo, Cu, Fe and Mn) on germination characteristics of corn (<em>Zea mays </em>L. SC. 640) . Experiment was conducted as complete randomized design (CRD) with four replications at agronomy laboratory in faculty of Agricultural Science, University of Guilan in July 2014. Experimental Treatments in this research were including seed without coating, seed coating without bacteria and micronutrients, seed coating with micronutrients and without bacteria, seed coating with (<em>Pseudomonas fluorescens </em>strain 169) and without micronutrients, seed coating with <em>Pseudomonas </em>and micronutrients, seed coating with (<em>Azotobacter chroococcum </em>strain 12) and without micronutrients, seed coating with <em>Azotobacter </em>and micronutrients, seed coating with (<em>Azotobacter </em>and <em>Pseudomonas</em>) and without micronutrients, seed coating with (<em>Azotobacter </em>and <em>Pseudomonas</em>) and micronutrients. Traits that were studied including: percentage germination, rate germination, radicule length, plumule length, radicule fresh weight, plumule fresh weight, radicule dry weight , plumule dry weight, Water absorption rate, uniformity of germination and Alpha amylase activity. The results obtained showed that seed coating with a mixture of <em>Pseudomonas </em>and <em>Azotobacter </em>and micro-nutrients and seed coating with <em>Pseudomonas </em>and micro-nutrients had the highest of content in most of the traits between investigated treatments. This experiment carried out in order to investigate the effect of seed coating with growth promoting bacteria (<em>Azotobacter </em>and <em>Pseudomonas</em>) and micronutrients (Zn, B, Mo, Cu, Fe and Mn) on germination characteristics of corn (<em>Zea mays </em>L. SC. 640) . Experiment was conducted as complete randomized design (CRD) with four replications at agronomy laboratory in faculty of Agricultural Science, University of Guilan in July 2014. Experimental Treatments in this research were including seed without coating, seed coating without bacteria and micronutrients, seed coating with micronutrients and without bacteria, seed coating with (<em>Pseudomonas fluorescens </em>strain 169) and without micronutrients, seed coating with <em>Pseudomonas </em>and micronutrients, seed coating with (<em>Azotobacter chroococcum </em>strain 12) and without micronutrients, seed coating with <em>Azotobacter </em>and micronutrients, seed coating with (<em>Azotobacter </em>and <em>Pseudomonas</em>) and without micronutrients, seed coating with (<em>Azotobacter </em>and <em>Pseudomonas</em>) and micronutrients. Traits that were studied including: percentage germination, rate germination, radicule length, plumule length, radicule fresh weight, plumule fresh weight, radicule dry weight , plumule dry weight, Water absorption rate, uniformity of germination and Alpha amylase activity. The results obtained showed that seed coating with a mixture of <em>Pseudomonas </em>and <em>Azotobacter </em>and micro-nutrients and seed coating with <em>Pseudomonas </em>and micro-nutrients had the highest of content in most of the traits between investigated treatments. https://jms.guilan.ac.ir/article_2098_24e05ceb52b41470143603bbf2662b71.pdf

University of Guilan Iranian Journal of Seed Sciences and Research 2476-3780 3 2 2016 06 21 Effects of different concentrations of heavy metals application on germination indices and seed vigor of Pinto bean (Phaseolus vulgaris L.) Effects of different concentrations of heavy metals application on germination indices and seed vigor of Pinto bean (Phaseolus vulgaris L.) 95 105 2099 FA Fatemeh Amini Hamidreza Balouchi Mohsen Movahhedi Dehnavi Mahmood Attarzadeh Journal Article 2017 02 22 Heavy metals of biosphere rise since the beginning industrial revolution and the toxicity of heavy metals cause to impair in the process of germination and growth of plants. In order to evaluate the effects of heavy metals on the germination of pinto bean (cv. Sadri) an experiment was conducted at Seed Technology Laboratory of Yasouj University in 2013. The experiment was conducted as CRD in five replications include different concentration of Cd(NO₃)₂, Pb(NO₃)₂, Ni(NO₃)₂ and CuSO₄ (25, 50, 75 and 100 mg/l) and a control treatment. Germination characteristics include the rate and percentage of germination, seedling weight and length and seed vigor index were studied .Results showed that the highest rate and percentage of germination was belonged to control, and least in the 100 mg/l of Pb(NO₃)₂. With the increase in concentrations of Pb, percentage and rate of germination and root and shoot dry weight showed a downward trend. 100 mg/l concentration of Cadmium nitrate decreased the rate germination of pinto bean seeds in compare with control. Increasing the concentration of cadmium impairs the growth of seedling root; shoot and vigor index of bean. Toxic concentration of copper compared to nickel had more negative effect on germination, root and shoot length, root and shoot dry weight and seedling vigor. In general, the results of this study showed that cadmium and Pb may give to plants allows germination, but increased in their concentration impaired the some seed germination indices of pinto been seed. Heavy metals of biosphere rise since the beginning industrial revolution and the toxicity of heavy metals cause to impair in the process of germination and growth of plants. In order to evaluate the effects of heavy metals on the germination of pinto bean (cv. Sadri) an experiment was conducted at Seed Technology Laboratory of Yasouj University in 2013. The experiment was conducted as CRD in five replications include different concentration of Cd(NO₃)₂, Pb(NO₃)₂, Ni(NO₃)₂ and CuSO₄ (25, 50, 75 and 100 mg/l) and a control treatment. Germination characteristics include the rate and percentage of germination, seedling weight and length and seed vigor index were studied .Results showed that the highest rate and percentage of germination was belonged to control, and least in the 100 mg/l of Pb(NO₃)₂. With the increase in concentrations of Pb, percentage and rate of germination and root and shoot dry weight showed a downward trend. 100 mg/l concentration of Cadmium nitrate decreased the rate germination of pinto bean seeds in compare with control. Increasing the concentration of cadmium impairs the growth of seedling root; shoot and vigor index of bean. Toxic concentration of copper compared to nickel had more negative effect on germination, root and shoot length, root and shoot dry weight and seedling vigor. In general, the results of this study showed that cadmium and Pb may give to plants allows germination, but increased in their concentration impaired the some seed germination indices of pinto been seed. https://jms.guilan.ac.ir/article_2099_0aaa385890b8cbc12d57b7295ef60306.pdf

University of Guilan Iranian Journal of Seed Sciences and Research 2476-3780 3 2 2016 06 21 Effect of hormone priming and hydro priming on Stevia (Stevia rebaudiana Bertoni) seed germination under salt stress Effect of hormone priming and hydro priming on Stevia (Stevia rebaudiana Bertoni) seed germination under salt stress 97 108 2100 FA Mehdi Aghighi Shahverdi Heshmat Omidi Journal Article 2017 02 22      In order to evaluate effect of time period of hormone and hydro priming on <em>Stevia</em> seed germination indices under salt stress a factorial experiment based on completely randomized design (CRD) with three replications was conducted in Seed Science and Technology Laboratory of Shahed University of Tehran in 2015. The studied factors consisted of seed pre-treating by gibberellic acid and distilled water for 0, 16, 24 and 48 hours and salt stress (2.5, 5, 7.5 and 10 dS.m^-1). Germination percentage and speed, mean time of germination, mean of daily germination, daily germination speed and germination value was measured. Results showed that salinity× hormone priming interaction significantly influenced germination percentage and germination speed, mean daily germination and germination value. The highest germination percentage and germination speed was seen in 5 dS.m^-1 and 48 hours hormone priming interaction and 2.5 dS.m^-1 and 48 hours hormone priming interaction respectively. The highest daily germination speeds was seen in 0 dS.m^-1 and 16 hours hydro priming interaction and 0 dS.m^-1 and 16 and 24 hours hormone priming interaction respectively. Hormone priming of stevia seed by gibberellic acid for 24 and 48 hours could improve stevia seed germination parameters. Some of germination parameters (rate and percentage of germination) were reduced by salinity stress.      In order to evaluate effect of time period of hormone and hydro priming on <em>Stevia</em> seed germination indices under salt stress a factorial experiment based on completely randomized design (CRD) with three replications was conducted in Seed Science and Technology Laboratory of Shahed University of Tehran in 2015. The studied factors consisted of seed pre-treating by gibberellic acid and distilled water for 0, 16, 24 and 48 hours and salt stress (2.5, 5, 7.5 and 10 dS.m^-1). Germination percentage and speed, mean time of germination, mean of daily germination, daily germination speed and germination value was measured. Results showed that salinity× hormone priming interaction significantly influenced germination percentage and germination speed, mean daily germination and germination value. The highest germination percentage and germination speed was seen in 5 dS.m^-1 and 48 hours hormone priming interaction and 2.5 dS.m^-1 and 48 hours hormone priming interaction respectively. The highest daily germination speeds was seen in 0 dS.m^-1 and 16 hours hydro priming interaction and 0 dS.m^-1 and 16 and 24 hours hormone priming interaction respectively. Hormone priming of stevia seed by gibberellic acid for 24 and 48 hours could improve stevia seed germination parameters. Some of germination parameters (rate and percentage of germination) were reduced by salinity stress. https://jms.guilan.ac.ir/article_2100_dd466b0f8563840d427c6407c63bf404.pdf

University of Guilan Iranian Journal of Seed Sciences and Research 2476-3780 3 2 2016 06 21 A review of drought stress on mother plant effect on soybean seed germination and vigour improvement by some beneficial soil microorganisms treatment assessment A review of drought stress on mother plant effect on soybean seed germination and vigour improvement by some beneficial soil microorganisms treatment assessment 109 124 2101 FA Aidin Hamidi Jahanfar Daneshian Research Professor, Agricultural Research Education Extension Organization (AREEO), Seed and Plant Improvement Institute (SPII), Karaj, Iran Ahmad Asgharzadeh Research Associate Professor, Agricultural Research Education Extension Organization (AREEO), Soil and Water Research Institute (SWRI), Karaj, Iran Journal Article 2017 02 22 Environmental stresses occur during seed formation on the parent plant has a considerable effect on seed germination and vigor. Even when all required factors for growth, development and seed formation on the parent plant are provided by growers, parent plants can still be affected by environmental stresses, especially drought stress. Soybean one of the most important oil seed crops which seed germination and vigour affected by drought stress occur on parent plant. In many regions of Iran where soybean seed produced, limited precipitation and irrigation water and severe evapo transpiration conditions often occur during seed formation which causes seed deterioration on parent plant before harvest. Therefore, study on this effect and soybean seed produced under drought stress germination and vigor improvement and rehabilitation have especial importance. Beneficial soil microorganisms like as plant growth promoting rhizobacteria and mycorrhizae fungi have potential ability for seed germination and vigour improvement and seed treatment by those one of the probable methods for seed quality improvement and rehabilitation. Based on, conducted researches by soybean cultivars and genotypes production under drought stress effect as irrigation after 50, 100 and 150 mm evaporation of A class evaporation pan and seeds treated by <em>Bradyrhizobium japonicum</em>,<em> Azotobacter chroococcum,</em><em>Azosprillium lipoferum</em>,<em> Azosprillium brasilensets</em>,<em>Pseudomonas fluorescens </em>and <em>Glomus mossae</em> mycorrhizae fungus. Review of those researches results revealed that, by drought occur, in all studied soybean cultivars and genotypes, normal seedling percent and seedling length and dry matter decrease and mean germination time increased, but soybean cultivars and genotypes have difference for those traits and Williams, Linford and Zalta Zalha cultivars had more tolerance. Also, among studied beneficial soil microorganisms, seed treatment by <em>Bradyrhizobium japonicum</em> have more potential capability for studied soybeans cultivars and genotypes seeds germination and vigour improvement and rehabilitation. Environmental stresses occur during seed formation on the parent plant has a considerable effect on seed germination and vigor. Even when all required factors for growth, development and seed formation on the parent plant are provided by growers, parent plants can still be affected by environmental stresses, especially drought stress. Soybean one of the most important oil seed crops which seed germination and vigour affected by drought stress occur on parent plant. In many regions of Iran where soybean seed produced, limited precipitation and irrigation water and severe evapo transpiration conditions often occur during seed formation which causes seed deterioration on parent plant before harvest. Therefore, study on this effect and soybean seed produced under drought stress germination and vigor improvement and rehabilitation have especial importance. Beneficial soil microorganisms like as plant growth promoting rhizobacteria and mycorrhizae fungi have potential ability for seed germination and vigour improvement and seed treatment by those one of the probable methods for seed quality improvement and rehabilitation. Based on, conducted researches by soybean cultivars and genotypes production under drought stress effect as irrigation after 50, 100 and 150 mm evaporation of A class evaporation pan and seeds treated by <em>Bradyrhizobium japonicum</em>,<em> Azotobacter chroococcum,</em><em>Azosprillium lipoferum</em>,<em> Azosprillium brasilensets</em>,<em>Pseudomonas fluorescens </em>and <em>Glomus mossae</em> mycorrhizae fungus. Review of those researches results revealed that, by drought occur, in all studied soybean cultivars and genotypes, normal seedling percent and seedling length and dry matter decrease and mean germination time increased, but soybean cultivars and genotypes have difference for those traits and Williams, Linford and Zalta Zalha cultivars had more tolerance. Also, among studied beneficial soil microorganisms, seed treatment by <em>Bradyrhizobium japonicum</em> have more potential capability for studied soybeans cultivars and genotypes seeds germination and vigour improvement and rehabilitation. https://jms.guilan.ac.ir/article_2101_9ca264e866ed69b75412711795b6f6a6.pdf