Farzad Fardin; Behzad Sani; payam moaveni; Gholam Reza AfsharManesh; hamid mozaffari
Abstract
This experiment was conducted in order to evaluate the effect of water deficit irrigation on the agronomic characteristics of fodder sorghum cultivars in Kerman province. This experiment was carried out as a strip split-plot in a complete randomized block design with four replications in a research farm ...
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This experiment was conducted in order to evaluate the effect of water deficit irrigation on the agronomic characteristics of fodder sorghum cultivars in Kerman province. This experiment was carried out as a strip split-plot in a complete randomized block design with four replications in a research farm of agricultural research center of Jirof and Kahnooj, Kerman province, in 2019 and 2020. Drought stress as a vertical factor in four levels including without stress (irrigation after 80 mm evaporation from evaporation pan) as control, mild stress (irrigation after 110 mm evaporation from the evaporation pan), medium (irrigation after 140 mm evaporation) and sever (irrigation after 180 mm evaporation) and four sorghum cultivars including Spidfeed, Sugar graze, Jumbo and Pegah as a horizontal factor. The highest yield of fresh forage yield under non-stressed conditions (control) was observed in Spidfeed and Pegah (121.60 and 118.79 ton.ha-1, respectively). Also, Spidfeed and Pegah had the highest dry forage yield under non-stressed conditions (control) as 22.50 and 20.69 ton.ha-1, respectively. Also, the highest yield of dry forage in mild drought stress was observed in Pegah and Speedfeed varieties (15.30 and 14.88 ton.ha-1, respectively) and under medium drought stress in Pegah (11.12 ton.ha-1), whereas Spidfeed variety was superior to others for dry forage yield (7.42 ton.ha-1), in severe drought stress. Based on MP and STI indices, Spidfeed and Pegah cultivars with higher average of dry fodder yield were selected as the most suitable genotypes under drought stress conditions in Jiroft region of Kerman province.
Kambiz Kharazmi; Reza Amirnia; Jalal Jalilian; Mehdi Tajbaksh
Abstract
Due to the high requirement of alfalfa to water, research on the role of organic-biofertilizer and chemical fertilizers in adjustment of low irrigation stress is important, thus, this experiment was conducted as a factorial based on a randomized complete block design with three replications in Agricultural ...
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Due to the high requirement of alfalfa to water, research on the role of organic-biofertilizer and chemical fertilizers in adjustment of low irrigation stress is important, thus, this experiment was conducted as a factorial based on a randomized complete block design with three replications in Agricultural and Natural Resources Research of Khoy in two years (2015-2016). Experimental treatments included irrigation {irrigation at field capacity (control), irrigation at 80% and 60% field capacity} and various fertilizer resources at six level {Mycorrhiza, Nitroxin, Vermicompost, Chicken manure, NPK chemical fertilizer and treatment without fertilizer consumption (control)}. The results of combined analysis showed that irrigation treatment had a significant effect on forage yield, chlorophyll a, b and total chlorophyll, proline, carotenoids, soluble carbohydrates and peroxidase enzyme activity. Regarding the importance of forage production in alfalfa, the results showed that the plant treated with mycorrhiza biofertilizer under full irrigation condition had the similar forage yield as the application of chemical fertilizer, but in both low irrigation conditions, mycorrhiza increase the forage yield by 10.18% in comparison to chemical fertilizer application. Other fertilizer treatments showed different trends in irrigation levels in terms of effect on forage yield, so that under irrigation at 60% field capacity, vermicompost, chicken manure, chemical and control treatments were in a same statistical group. Therefore, considering the disadvantages of using chemical fertilizers, mycorrhiza which has ecological and environmental benefits, can be used in alfalfa cultivation.
Ayoob Amiri; Ali Reza Sirousmehr; Parviz Yadollahi; Mohammad Reza Asgharipour; Sedigheh Esmaeilzadeh Bahabadi
Abstract
In order to evaluate the effects of drought stress and spraying of salysilic acid and chitosan on photosynthetic pigments and antioxidant enzymes of safflower an experiement was conducted as split plot randomized complete block design at the Zabol University research farm in Zabol, south Iran during ...
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In order to evaluate the effects of drought stress and spraying of salysilic acid and chitosan on photosynthetic pigments and antioxidant enzymes of safflower an experiement was conducted as split plot randomized complete block design at the Zabol University research farm in Zabol, south Iran during 2012. Treatments were drought stress at three levels; irrigation when the soil moisture level dropped to 25, 50 and 75 percent of available water as the main treatments, and four combinations of sprayings including non-spraying, salicylic acid (0.424 g.l-1), chitosan (5 g.l-1) and combination of salicylic acid and chitosan as sub-treatments that were applied with three replications. The results indicated that drought stress significantly decreased chlrophyl a, b, total and chlrophyl flueorecense. Also drought stress increased anti-oxidant enzymes, but this increasing effect was significant in case of peroxidase enzyme. In addition, drought stress did not influence carotenoid, protein yield, and ascorbate, guaiacol peroxidase and catalase. Spraying treatments increased all traits compared to the control. Combination of salicylic acid and chitosan was more effective than sole application. Interaction of drought stress by spraying was significant on chlorophyll a and protein yield, therefore spraying of salyclic acid and chitosan could be recommend for increase the stability of cell membranes in plants and reduce the damage caused by H2O2 of limited irrigation in safflower.
Afsaneh Badalzadeh; Mohammad Rafieiolhossaini; Abdolrazzagh Danesh Shahraki; Mehdi Ghobadinia
Abstract
In order to evaluate the effect of water deficit and different fertilizer levels on yield and some agro-morphological characteristics of Moldavian balm, a split plot experiment was conducted in a randomized complete block design with three replications at the research farm of Shahrekord University during ...
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In order to evaluate the effect of water deficit and different fertilizer levels on yield and some agro-morphological characteristics of Moldavian balm, a split plot experiment was conducted in a randomized complete block design with three replications at the research farm of Shahrekord University during 2013-2014 growing season. Main factor was three levels of irrigation regimes including: 100 (control), 75 and 50 percent of water requirement while 6 levels of manure application including: 1) no amended fertilizer (control), 2) 25 percent urea + 75 percent cattle manure, 3) 50 percent urea + 50 percent cattle manure, 4) 75 percent urea + 25 percent cattle manure, 5) 100 percent urea and 6) 100 percent cattle manure, were used as subplot. The maximum plant height and number of flowering branch was observed for 100 percent urea and the maximum flowering branch dry yield was related to 50 percent urea + 50 percent cattle manure. The maximum plant height and number of flowering branch was achieved from 100 percent plant water requirement. The maximum leaf, shoot dry weight and dry matter yield was related to 50 percent urea + 50 percent cattle manure with 100 percent plant water requirement. In total, in order to obtain the maximum dry matter yield, application of 50 percent urea with 50 percent of cattle manure and full irrigation is recommended.