فهرست مطالب k. shahbazi

Due to limited water resources in the country, irrigated wheat cultivars in cold and temperate cold regions are faced with lack of irrigation or limited irrigation at the end of the season. In these areas, most farmers who cultivate irrigated wheat due to lack of sufficient water in the spring cannot perform enough irrigation and therefore do not get the desired result from cultivating high-yielding cultivars. Development of new cultivars with high grain yield under terminal drought stress conditions is one of the major goals of wheat breeding program for cold regions of country. Heyran new bread wheat cultivar introduced from International Research Center for Maize and Wheat (CIMMYT) to Iran through an international nursery in 2010 and was evaluated in a primary trial in four research stations (Karaj, Jolge-Rokh, Ardabil and Mashhad), and due to its favorable characteristics was selected for further evaluation in preliminary yield trials in cold regions. This line showed grain yield of 8417 kgha-1 under normal irrigation compared to the check cultivars Orum, Zareh and Mihan (with average yields of 7679, 6828 and 7772 kgha-1, respectively), and under terminal drought conditions with an average seed yield of 4653 kgha-1, compared to the check cultivars Orum, Zareh and Mihan (with average yields of 4375, 3544 and 4358 kgha-1, respectively) and was selected in both conditions. Aforementioned line showed grain yield of 8340 kgha-1 in advanced yield trial of cold regions breeding program under normal conditions compared to check cultivars Orum, Zareh and Mihan (with average yields of 7518, 7613 and 8205 kgha-1, respectively) in five locations, selected for final evaluation in adaptability test. Grain yield of this line which was presented as CD-92-6 at the adaptability test was 4470 kgha-1 against 3711 and 3743 kgha-1 of Zareh and Mihan checks cultivars under water stress conditions, respectively, during two cropping seasons 2013-14 and 2014-15. This line showed overall mean grain yield, of 5143 kgha-1 under terminal drought stress conditions in extensional farmer’s fields. For these conditions checks cultivars Hydari and Mihan showed grain yields of 4808 and 4758 kgha-1, respectively. Grain yield potential of this line was recorded as 6323 kgha-1 in Khorasan Razavi farmers' field. According to the latest evaluations the response of this line to yellow rusts was resistant to semi sensitive under severe artificial infection. Wheat line CD-92-6 has considerable cold tolerance and good bread making quality and based on its good agronomic characteristics in 2019 this line was released as Heyran, for cultivation under terminal drought stress conditions in the cold agro-climatic regions.

The new bread wheat cultivar Tirgan with spring growth habit type received from the International Maize and Wheat Improvement Center (CIMMYT) was evaluated in 2009-10 in international Nurseries. In the cropping season 2010-11, this cultivar was cultivated in preliminary regional wheat yield trials (PRWYT) of the northern climate. In the cropping season 2011-12 in advanced regional wheat yield trials (ARWYT) Tirgan cultivar was selected with an average yield of 5.731 tha-1 compared to the average yield of the control cultivars (Morvarid and Gonbad) with 5.372 tha-1. Also, in the cropping season 2012-13 and 2013-14, in the elit regional wheat yield trial (ERWYT), yield, grain yield and other traits were investigated in four stations of the northern climate (Gorgan, Moghan, Sari and Gonbad). The average yield of this cultivar in ERWYT traits was 5.893 tha-1, and the average of the check cultivars, Morvarid and Gonbad, was 5.401 and 5.356 tha-1 respectively. Due to the acceptable resistance of this variety over several years, to fusarium head blight, powdery mildew and high resistance to yellow and leaf rusts, high and stable grain yield potential with very good baking quality compared to the control varieties, this cultivar is a good substitute for the old varieties in the plains of the Caspian coast, including the Moghan plain in Ardabil province, Golestan and Mazandaran provinces, and it can increase wheat production in the region along with other varieties and have an effective role and act as one of the tools to manage and control various diseases by increasing diversity in this fully stressed climate in terms of various diseases.

In crop season 2012-2013 wheat genotype "Frncln/Rolf07" was introduced to Iran within an international nursery received from CIMMYT and was studied in experiment of evaluation of yield and agronomic characteristics of spring wheat genotypes in international nurseries in temperate regions. Then in 2013-2014 crop season, it was selected in a preliminary regional wheat yield trial under normal irrigation with an average yield of 8114 kgha-1 compared to the check cultivars Parsi, Sirvan, Pishtaz and sivand, respectively, with grain yield of 8.035, 8.022, 6.914 and 7.985 kgha-1. This cultivar was further investigated in the advanced regional wheat yield trial of temperate regions of the country during 2014-2015 and with average grain yield of 7093 kgha-1 compared to 6495 and 6423 kgha-1 yield of check cultivars Parsi and Sirvan, respectively, and was selected for adaptation evaluation. The average yield of M-94-15 line in temperate climate adaptation experiment during the 2015-2017 crop season under normal conditions was 7231 kgha-1 verses 6688 kgha-1 of Parsi cultivar and 6574 kgha-1 of Baharan cultivar and in general, total mean grain yield was 3% higher than the average of whole genotypes. Due to the good condition of M-94-15 line reaction to stripe rust (O-30MR) and leaf rust (O-30MSS) diseases, as well as the resistance to grain shattering and good bread making quality, this line was selected for study at the level of farmers' fields. Wheat line M-94-15 based on its favorable agronomic characteristics, suitable earliness and good bread making quality was released in 2019 as Farin for cultivation in temperate agro-climatic regions.

Salinity stress is a major constrain of plant growth and limiting factor of crop production in arid and semi-arid regions in the world. Wheat cultivar Barzegar is derived from the cross between an Iranian highly adapted wheat, Pishtaz cultivar and Karchia cultivar (salt tolerant cultivar from India) as female and male parents, respectively, at Seed and Plant Improvement Institute, Cereal Research Department in Karaj. Subsequent selection among segregating populations of this hybrid was done at experimental field of Yazd station. Results of yield trials and on-farm evaluations in the temperate zone showed that under salinity stress conditions (EcSoil =8-12 dsm-1 & EcWater =8-13 dsm-1), Barzegar exhibited a superior performance compared to the check cultivars Bam and Arg, and its average grain yield was 659 kg (16.5%) higher than average grain yield of check cultivars. Based on ranking method Barzegar had high stability and adaptability under saline conditions compared to the check cultivars. Under farmer's conditions trials its average grain yield was 4381 kgha-1, nearly 20% higher than average grain yield of check cultivars (3648 kgha-1). Barzegar exhibits lodging resistance and has non-shattering spikes, but has moderately resistant susceptible infection responses to rusts. However, under dry conditions of saline areas of Iran no susceptibility to these diseases is observed. Based on good agronomic performance consist of resistance to lodging and shattering, and high adaptability and stability and good quality in saline condition compared to checks (Bam, Arg and Ofogh), Barzegar released for cultivation in the saline areas (with saline water/soil) farms of temperate zone, in Iran.

The new durum wheat cultivar, Sana (line DM-93-8) was initially introduced as a breeding line through 43rd International Durum Screening Nursery (IDSN) received from the International Maize and Wheat Improvement Center (CYMMIT) and was evaluated in Seed and Plant Improvement Institute (SPII) in Karaj. Sana was selected for further evaluations based on its high grain yield (7750 kgha-1) at the subsequent years. This line had average grain yield of 9675 kgha-1 in the regional preliminary yield trial in 2012-2013 cropping season. Line DM-93-8 had average grain yield of 6827 kgha-1 in the advanced yield trial, with no considerable difference with Dena check cultivar having grain yield of 6973 kgha-1 in 2013-2014, therefore this line was selected for the further evaluations. The regional elite yield trials were conducted in four stations of Isfahan, Karaj, Kermanshah and Neishabour in 2014-15 and 2015-16.  This line with 9025 kgha-1 had 16% higher grain yield than Dena check cultivar, with grain yield of 7779 kgha-1, and therefore was selected as superior line based on its grain yield and yield stability. Sana also has high quality of semolina, high protein content (12.2%) and high percentage of wet gluten (27%). The results of on-farm trials showed that this cultivar exhibited a 6% higher grain yield than newly released variety, Hana, as a local check in Kermanshah. Therefore, based on its high grain yield, yield stability, quality of semolina and its good level of resistance to yellow and leaf rusts, line DM-93-8 was released as a new durum wheat cultivar with the name of Sana for moderate agro-climate zone of Iran.

A bread wheat breeding line that led to release of Tallaei cultivar introduced from International Research Center for Maize and Wheat (CIMMYT) to Iran through an international nursery in 2009 and was evaluated in a primary trial in Islam Abad-Gharb research station and due to its favorable characteristics was selected for further evaluation. This line showed grain yield of 6967 and 5370 kgha-1 under normal irrigation and terminal drought conditions, respectively, while mean grain yields of four check cultivars: Parsi, Sivand, Bahar and Pishtaz for those two conditions were 6857 and 3850 kgha-1, respectively, Aforementioned line showed grain yield of 4851 kgha-1 in advanced yield trial of temperate regions breeding program under water deficit conditions compared to 4631 khha-1 of drought tolerant check cultivar "Sirvan" in three locations, hence selected for final evaluation in adaptation trial. Grain yield of this line which was presented as M-91-18 at the adaptation trial was 7563 and 6385 kgha-1 against 8022 and 6200 kgha-1 of Parsi check cultivar under normal and water stress conditions, respectively, during two cropping seasons 2012-13 and 2013-14. This line showed overall mean grain yield, of 9583 and 8042 kgha-1 in normal irrigation and water deficit conditions under extensional farmer fields, respectively. For these two conditions check cultivar Parsi showed 7875 and 6828 kgha-1 records. Grain yield potential of this line was recorded as 10070 and 10670 kgha-1 in Alborz and Kermanshah farmers' fields, respectively. According to the latest evaluations the response of this line to yellow and leaf rusts was moderately resistant under severe artificial infection. Wheat line M-91-18 has considerable earliness and good bread making quality and based on its good agronomic characteristics in 2017 this line was released as Tallaei, for cultivation under normal and terminal moisture stress conditions in temperate agro-climatic regions.

Wheat leaf rust caused by Puccinia triticina Eriks is one of the most important wheat disease due to its wide distribution and yield loss in the world. Racial variation and emergence of new races leads to break the resistance of resistant wheat cultivars. To study these changes and to identify the virulence of P. triticina Erkis., a research project was carried out by planting trap nurseries in four cropping seasons (2017-2021) in Karaj, Gorgan, Gharakhil, Kalardasht, Ardebil, Moghan, Boroujerd, Ahvaz and Dezful. At flag leaf stage and when maximum disease infection on susceptible check was observed, the disease severity and infection type were scored based on the Modified Cobbs Scale and Rolfes et al. method, respectively. According to the results of this study, during four growing seasons in different locations, no virulence was observed on varieties with Lr2a, Lr2b, Lr19, Lr34 gene(s) and the Lr10/Lr27+/Lr31 gene combination, and these genes were identified as effective for wheat leaf rust disease in Iran. Virulence was observed on varieties carrying other resistance gene(s), at least in one test location, and indicated that the above genes were ineffective in those region. Differential lines carrying Lr22a and Lr21 genes, with resistance reaction in most seasons, were effective genes, following the aforementioned genes, for resistance to wheat leaf rust in Iran, respectively.

Torabi wheat cultivar introduced to iranian wheat breeding program through an international nursery from CIMMIT (28th SAWSN) in 2010 and was evaluated under terminal drought stress implemented from the flowering stage in 2010-2011 cropping season. Then in 2011-2012 cropping season it was tested in the preliminary regional wheat yield trial under terminal drought stress in Karaj and was selected based on its average grain yield of (4878 kgha-1) compared to the average grain yield of (3939 kgha-1) Parsi check cultivar. This cultivar was further studied in the advanced regional wheat yield trial in the temperate regions of the country during 2012-2013 and with average grain yield of 6634 kgha-1 under drought stress condition compared to 6073 and 6768 kgha-1 yields of check cultivars Parsi and Sirvan, respectively, was selected for evaluation in the adaptability and yield stability. The average grain yield of Torabi (line M-92-20) in adaptability experiment during the years 2013-2015 under drought stress conditions was 6516 kgha-1 compared to 6110 kgha-1 of Sirvan check cultivar and 5697 kgha-1 of Parsi check cultivar and also its total grain yield mean was 3% higher than the average grain yields of all genotypes. Due to the resistant reaction of the line M-92-20 to stripe and leaf rust diseases, as well as the early maturity and very good bread making quality, this line was selected for evaluation in the on-farm trials in farmer’s fields. Overall in farmer’s fields, this line had grain yield mean of 8637 kgha-1 under normal irrigation, and 5672 kgha-1 under water deficit conditions compared to the average yield of check cultivars with 6150 kgha-1 under optimal conditions and 5104 kgha-1 under water deficit conditions.

Today, many industries, including the aerospace industry, have been influenced by materials technology development. Aircraft wing structures are generally designed using pure aluminum. Still, in recent years, due to their light weight, composites are used to reduce the overall weight of the structure and lower the consumption of fossil fuels in an aircraft. In this study, the design and analysis of aluminum and composite aircraft wings were done using ANSYS software and are compared. The results show that by using the composite wing instead of the aluminum one, fuel consumption was reduced, bringing positive effects on environmental impacts. According to the results, a 37% reduction in the weight of the composite structure compared to that of aluminum leads to increased aerodynamic efficiency, improved wing performance, reduced fuel consumption and emissions, positive environmental impacts, and reduced construction costs. This is due to the unique properties of composite materials, such as the good power to air ratio and their high flexibility.

Animal manures are valuable organic sources for soil organic matter and crop nutrition. To evaluate the residual effects of two sources of animal manure on growth and yield of winter wheat (Triticum aestivum L) Zarin variety, a field experiment was conducted at Miandoab Research Station, Agricultural and Natural Resource Research and Educational Center of West Azerbaijan, Iran. Manures were used in 2014. In the next three years, no animal manure was applied. Residual effects of manures were determined during winter growing season of 2017-19. The treatments included T1= control, T2= 50 t ha-1 cow manure, T3= 100 t ha-1 cow manure, T4= 50 t ha-1 sheep manure, and T5= 100 t ha-1 sheep manure and were used in a randomized complete block design (RCBD) with three replications. None of the plots received mineral fertilizers. The results showed that the sheep manure was more efficient than the cow manure. Plots receiving 50 t ha-1 sheep manure showed higher grain yield and harvesting index of 36% and 17%, respectively, compared to control plots, whereas, 100 t ha-1 sheep manure did not show significant yield increase compared to the T4. Significantly higher nitrogen (1.84%), potassium (0.41%), magnesium (0.12%), iron (126.40 mg.kg-1), copper (16.4 mg.kg-1), zinc (45.7 mg.kg-1) and manganese (33.35 mg.kg-1) content in grain and highest potassium (1.76%), iron (269.3 mg.kg-1), zinc (9.16 mg.kg-1) and manganese (24.08 mg.kg-1) content in wheat straw were recorded under treatment T4. The overall results indicate that organic carbon and availability of nutrients, particularly P, Zn, and Fe in the soil surface layer were significantly higher in plots receiving manures compared to the control. Before the experiment, soil organic carbon (SOC) was 0.88%. After harvest, SOC in treatments of 50 and 100 t ha-1  of cow manure increased to 0.99% and 1.36%, and in treatments of 50 and 100 t ha-1 of sheep manure, it increased to 0.94% and 1.26%, respectively. The Results demonstrated that manure application, due to its role in soil fertility improvement, is an effective strategy for efficient production of wheat and enrichment of its grain.

Eight promising lines of bread wheat which had been selected through the preliminary and advanced traits, together with two check cultivar Shiroudi and Tajan were evaluated for yield, adabtability and response to cereal diseases in an on farm experiment conducted in two sites in Moghan. Combined analysis of variance on yield and yield components showed significant differences of lines in yield and other traits. Lines Sw89.3064/Star… and Attila/Milan with 5.7/8 and 5.709 tonha-1 had the highest yield in both sites. Although other lines produced yield as high as the check cultivar Shiroudi, but due to high resistance or tolerance to yellow rust, leaf rust, fusarium head blight and powdery mildew which are prevalent diseases in the region, two lines Sw89.3064/Star… and Sha4/Chil were selected as superior lines in this experiment.