Ali Akbar Shokouhian; Gholamhossein Davarynejad; Ali Tehranifar; Ali Imani; Ali Rasoulzadeh
Abstract
Introduction: One of the microbiological preparations used for this study was Effective Microorganisms (EM), being a commercial mixture of photosynthesizing bacteria, Actinomycetes, lactic acid bacteria, yeasts and fermenting fungi. The microbiological composition of the EM concentrateincludesStreptomyces ...
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Introduction: One of the microbiological preparations used for this study was Effective Microorganisms (EM), being a commercial mixture of photosynthesizing bacteria, Actinomycetes, lactic acid bacteria, yeasts and fermenting fungi. The microbiological composition of the EM concentrateincludesStreptomyces albus, Propioni bacterium freudenreichil, Streptococcus lactis, Aspergillus oryzae, Mucor hiemalis, Saccharomycescerevisiae and Candida utilis. Moreover, EM also contains an unspecified amount of Lactobacillus sp. Rhodo pseudomonas sp. and Streptomyces griseus. Effective Microorganisms have a positive effect on the decomposition of organic matter, limiting putrefaction, increasing nitrogen content in the root medium of plants, phosphorus, improving soil fertility and as a result contributing to the growth and development of the root systems of plants.
Selection of almond vegetative rootstocks for water stress tolerance is important for almond crop production in arid and semi-arid regions. The study of the eco-morphological characteristics that determine the success of a rootstock in a particular environment is a powerful tool for both agricultural management and breeding purposes. The aim of this work was to select the new rootstocks for water shortage tolerance, impact of water stress as well as Effective Microorganism (EM) on morphological characteristics of almond rootstocks.
Materials and Methods: In order to select the new rootstocks for water shortage tolerance, impact of water stress as well as EMonmorphologicalcharacteristics of almondrootstocks were studiedin thedepartment ofHorticulture, Ferdowsi University of Mashhad, in 2011-2012. The experiment was carried out with four replications in a completely random blockdesign to study the effects of two concentrations of EM (0 and 1%), three irrigation levels (normal irrigation 100%-control-and irrigation after depletion of 33 and 66% of available water), and four almond rootstocks including GF677 and selected natural hybrid of peach × almond (H1and H2), and almond vegetative rootstock (local control).In this study,EMtreatments for 60 days before stress treatments were applied so that in each irrigation, EM solution to a concentration of one percent was given to half of the experiment pots. Other pots were irrigated equally with normal water. Stress levels were applied from July as follow: full irrigation, watering after unloading 33% and 66% soil moisture availability. In order to evaluate the performance, seedling survival, plant growth, number of leaves, leaf area, root fresh and dry weight and leaves and root length were measured.
Results and Discussion: Analysis of variance showed that between rootstock levels across all treatments were significantly differences at 0.01 level of probability. Comparison of means showed that the highest fresh and dry weight and leaf are awere observed forGF677and H1.Rootstockannualgrowth rate was also different. Most of the growth was related to the H1 Rootstocks. Thes urvival ratewas significantly different from the Rootstocks ofGF677,andH1showedthe highestpercentage of survival. The degree of adaptation to drought in varieties of almonds is different. The results showed that changes ingrowthparametersinGF677and H1were observed less often than other rootstocks. Because of strong roots,GF677and H1continue to attract more minerals under stress conditions.
Analysis of variance showed that the between irrigation levels for all treatments were significantly different at 0.01 level of probability. Comparison of means showed that among the study traits, the highest amount was obtained from complete irrigation, while irrigationat66 percenthad the least amount. Water stress may directly affect photosyn thesis, through leaf photochemicalprocessorindirectly,byclosing stomata, reducingleaf area and growth.
The results showed that the levels of(EM) on the leaf surface, leaf number, annual growth, root dry weight and volume were significantly different (p
Ali Akbar Shokouhian; Gholamhossein Davarynejad; Ali Tehranifar; Ali Rasoulzadeh
Abstract
The base of nut production in almond is flower buds set with best quality and quantity. Although the process of flower buds set is controlled by genetic characteristics, however it affected with inside and outside diverse factors. To understand relationship between these factors for achieve to annual ...
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The base of nut production in almond is flower buds set with best quality and quantity. Although the process of flower buds set is controlled by genetic characteristics, however it affected with inside and outside diverse factors. To understand relationship between these factors for achieve to annual and regular nut production economically. An experiment was conducted in order to evaluate effects of effective microorganisms (EM) under water stress conditions on bud flower formation in two genotypes of almond trees in Department of Horticultural Science, Faculty of Agriculture, Ferdowsi University of Mashhad, in 2011. In this research effects of two different concentrations (0 and 5%) of EM and three levels of aridity stress treatments (100, 66, and 33% of FC) on number of flower buds in two genotypes (H1and H2) of almond was evaluated. This experiment was arranged as a factorial experiments based on a randomized complete blocks design with four replications. Results showed that the EM increased amount of leaf area, chlorophyll, storage protein, N, K and P in leaves. In this research, effects of different genotypes, EM and irrigation levels on number of flower bud set were significantly different at the %1 level. Number of flower bud formation increased by treatments of EM application, H1 genotype and irrigation level of FC% 100. There was significant interaction between treatments for this trait at %1 level. The best result was obtained from interaction between H2 genotype and irrigation using level of FC% 100 and EM application.