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.
Abdolhamid Zahedian; Abolhossein Aboutalebi Jahromi; Abdolrasol Zakerin; Vahid Abdoosi; Ali Mohammadi Torkashvand
Abstract
In order to study the effect of different irrigation regimes, and application of biological and chemical fertilizers on morphological characteristics, antioxidant enzyme activity, and sugar content of melon fruit cv. Ahlam, an experimental split-factorial plots has been done in a randomized complete ...
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In order to study the effect of different irrigation regimes, and application of biological and chemical fertilizers on morphological characteristics, antioxidant enzyme activity, and sugar content of melon fruit cv. Ahlam, an experimental split-factorial plots has been done in a randomized complete block design with three replications in Khuonj County in 2018-19. The main factor has been irrigation at 3 levels including 50%, 75%, and 100% of water requirement, with the sub-factor including NPK chemical fertilizer at 0, 60, 120, and 180 kg/ha as well as non-application of Nitroxin biofertilizer along with application of 100% of the recommended amount. Results show that different irrigation regimes, different fertilizer treatments, and their interaction have had a significant effect on some of the studied traits. The combined application of chemical fertilizers with biofertilizers show a significant effect on the number of sub-branches, total plant weight, length and diameter of the most branch, total soluble solids (TSS), the quantity of xylose and fructose sugars and activity of catalase, superoxide dismutase, and peroxidase enzymes. The highest number of sub-branches and plant fresh weight, branch length and diameter are obtained in the chemical fertilizer treatment of 120, and 180 kg/ha with the utilization of Nitroxin fertilizer under 100% water stress. However, it has been observed that biofertilizers has had no significant effect on sugars and enzyme activity in fruit, so that the very best levels of catalase, superoxide dismutase, and peroxidase are obtained within the treatment of 50% of field capacity with 120 and 180 kg/ha of chemical fertilizer without using Nitroxin. In general, it can be concluded that the application of biofertilizers reduce the adverse effects of water stress and the application of chemical fertilizers with biofertilizers hasa significant impact on increasing the studied traits.
Babak Peikarestan; Mehrdad Yarnia; Hamid Madani; Hossein Heidari Sharif Abad
Abstract
This experiment was carried out on the effect of deficit irrigation and zinc foliar application on chase and challenger sweet corn hybrids in Arak, Islamic Azad University, Agriculture Research Station as a split-plot factorial experiment based on randomized complete block design with three replications ...
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This experiment was carried out on the effect of deficit irrigation and zinc foliar application on chase and challenger sweet corn hybrids in Arak, Islamic Azad University, Agriculture Research Station as a split-plot factorial experiment based on randomized complete block design with three replications during 2014 and 2015. Different levels of water irrigation included full irrigation (control), every furrow irrigation and alternative furrow irrigation were measured assigned to main plot and foliar treatment included non-application of zinc (water sprayed (control), application of drop zinc sulfate (2/1000 lit. ha-1) and fast zinc sulfate (2/1000 lit. ha-1) and two sweet and super sweet corn hybrids by factors in sub plot. Results showed that irrigation patterns, application of the zinc and hybrids and their interaction were significant at 1% of probability in grain yield, grain protein, grain oil content, grain moisture content and proline content in leaves. The highest leaf proline content was observed in every furrow irrigation by 30.21 mg/g which it had 39.86% significant difference with full irrgiation by 21.60 mg/g. The highest grain content was observed in zinc fast foliar application by 28.50 mg/g, while in none zinc spray (control), this amount was reduced to 18.09 mg/g by 57.54% reducing. According to research, alternative irrigation and fast zinc spray on Challenger hybrid is recommendable in deficit water conditions.
Maryam Jafari; Abdolhossein Rezaei Nejad; Mohammad Feizian
Abstract
This research was carried out to evaluate the effect of super-absorbent and manure on growth, yield, physiological and biochemical characteristics of geranium under deficit irrigation at research greenhouse of Faculty of Agriculture, Lorestan University, Iran, in 2014. The experiment was arranged factorially ...
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This research was carried out to evaluate the effect of super-absorbent and manure on growth, yield, physiological and biochemical characteristics of geranium under deficit irrigation at research greenhouse of Faculty of Agriculture, Lorestan University, Iran, in 2014. The experiment was arranged factorially based on a completely randomized design with six replications. Factor A was substrate consisted of control, 1 and 2 percent super-absorbent, or 25 percent manure and factor B was irrigation with 3, 5 or 7 d interval. The results showed that as irrigation frequency decreased, plant growth and oil yield decreased and oil content, malondialdehyde, proline, peroxidase and ascorbate peroxidase increased. Both manure and super-absorbent improved plant growth, physiological and biochemical characteristics under deficit irrigation. However, the effects of manure were more pronounced, so that the values for most characteristics, like, leaf area, plant fresh and dry weight and oil content of plants grown in substrate including manure irrigated with 7d interval were the same as those of control plants irrigated with 3d interval. The highest water use efficiency for oil production was found in plants grown in substrate including manure in all irrigation frequencies as well as plants grown in substrate including two percent super-absorbent irrigated with 7d interval. According to these results and due to abundance, cheapness and environmental sustainability, using 25 percent in volume manure in substrate could be recommended to increase water use efficiency.
Saeideh Maleki Farahani; Daryoush Mazaheri; Mohammad Reza Chaeichi
Abstract
To evaluate the effects of fertilizing and deficit irrigation regimes on some chemical properties of soil and plant, an experiment was conducted during 2007 and 2008 growing seasons. Experimental design was a split plot based on a randomized complete block design with four replications. The treatments ...
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To evaluate the effects of fertilizing and deficit irrigation regimes on some chemical properties of soil and plant, an experiment was conducted during 2007 and 2008 growing seasons. Experimental design was a split plot based on a randomized complete block design with four replications. The treatments consisted of three deficit irrigation regimes (main plots) and six soil fertilizing systems (sub-plots). The irrigation treatments were included non-stressed, medium stress and severe stress. Fertilizing systems consisted of no fertilizing as control, phosphorous and nitrogen biofertilizers, 100% chemical fertilizer, vermicompost, 50% chemical fertilizer + 50% vermicompost, and 50% chemical fertilizer + biofertilizer as the sub plots. Integrated application of chemical and organic fertilizers increased soil P more than the other fertilizing systems. Integrated fertilizers increased plant N in compare with other fertilizing systems. Fertilizers containing vermicompost had more soil organic carbon, nitrogen and phosphorus or plant N and P under water stress rather than the others. Biofertilizer increased soil and plant P content under normal irrigation.
Davood Akbari Nodehi; Hassan Khademi Shormasty; Ali Cherati Araei; Fazl Shirdel Shahmiri; Reza Rezaei Sokht Abandani; Nadia Fahimi borkhali
Abstract
To investigate the effects of deficit irrigation and different levels of nitrogen fertilizer on somequantitative and qualitative properties of Melissa, a pot experiment was conducted for one year (2011) inMazandaran province. Experiment was carried out as a factorial based on randomized complete blockdesign ...
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To investigate the effects of deficit irrigation and different levels of nitrogen fertilizer on somequantitative and qualitative properties of Melissa, a pot experiment was conducted for one year (2011) inMazandaran province. Experiment was carried out as a factorial based on randomized complete blockdesign with three replications. Irrigation treatments (25, 52 and 75 percent field capacity, FC) andnitrogen fertilizer (0 and 2.5 percent ammonium nitrate) were allocated to main and sub-plots,respectively. The results showed that the effect of different levels of deficit irrigation were significant onquantitative and qualitative properties of Melissa. Fertilizer treatments were significant on dry weight,leaf area, shoot number and fresh weight, percent citronellal, caryophyllene oxide percent, geranial andneral percent. Interaction of treatments was significant only on leaf number, dry weight of shoot, freshweight of plant and geranial percent. Results showed that maximum plant height, leaf area, number ofstems, number of leaves and dry and fresh weight was obtained in 75 percent FC treatment. Percent ofcitronellal, caryophyllene oxide, geranial and neral with 6.14 percent, 11.61 percent, 20.09 percent and17.38 percent, respectively, had a maximum amounts in 75 percent FC treatment. Also, application ofnitrogen fertilizer caused 5.33 and 9.15 percent reduction of citronellal and caryophyllene oxiderespectively and increased geranial and neral percent by 17.64 and 15.56, respectively.