Sahereh Hashemian; Alireza Abdali Mashhadi; Amin Lotfi jalal-abadi; Ahmad Kochekzadeh
Abstract
Thanks to its palatability and high digestibility, chicory plays an effective role in increasing domestic animals’ products. In order to study the effect of sowing data and nitrogen fertilizer levels on some characteristics of chichory (Cichorium intybus L.), an experiment has been conducted in ...
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Thanks to its palatability and high digestibility, chicory plays an effective role in increasing domestic animals’ products. In order to study the effect of sowing data and nitrogen fertilizer levels on some characteristics of chichory (Cichorium intybus L.), an experiment has been conducted in a split plot design, using randomized complete blocks design with three replications at the Agricultural Sciences and Natural Resources University of Khuzestan in 2016-2017. The factors include four sowing data (22 October, 5 November, 21 November, and 5 December) as the main plots and four levels of nitrogen (zero (non-application), 75, 150, and 225 kg / ha) as subplots. Results show that the sowing dates have only affected chlorophyll meter index, dry matter digestibility, and digestible energy, whereas nitrogen has had a significant effect on all studied traits. Increasing the application of nitrogen to 225 kg / ha increases plant height, chlorophyll meter index, leaf area, and branch number, not to mention both fresh and dry weights of the plant. The treatment of 225 kg / ha nitrogen raises the fresh weight of shoots and the percentage of forage protein by 66.35% and 6.44%, respectively, compared to non-application. But in these two traits, no significant difference has been observed among nitrogen application levels in different planting dates. In this study, late planting date led to better conditions for most physiological, morphological yield, and quality characteristics. Accordingly, it is turned out that October 22 till November 5 sowing date with 150 kg ha-1 fertilizer has been the best treatment for chicory cultivation in Ahvaz.
Majid Gholamhoseini; farhad habibzadeh; parisa hemmati
Abstract
In dry regions, root systems play a major role in controlling plant growth and yield, thanks to their importance in water absorption. In order to investigate the effect of irrigation regimes on root and shoot traits of sesame (Sesamum indicum L.) genotypes, a field experiment has been conducted in Karaj, ...
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In dry regions, root systems play a major role in controlling plant growth and yield, thanks to their importance in water absorption. In order to investigate the effect of irrigation regimes on root and shoot traits of sesame (Sesamum indicum L.) genotypes, a field experiment has been conducted in Karaj, at Seed and Plant Improvement Institute, during 2017 and 2018. A factorial experiment has been laid out in a completely-randomized design with four replications. This study deals with five genotypes of sesame in two irrigation regimes, including full and low (drought stress) irrigation treatments in terms of root and shoot-related traits. Results show that there have been significant differences between genotypes and irrigation regimes for root and shoot traits. In all genotypes, root length density is higher in full irrigation treatment as well as the upper soil layer (0 to 30 cm deep), compared to stress treatment. In addition, under drought stress conditions root depth increases (by 30% in average) in all genotypes. In contrast, root dry weight has decreased in Dashtestan 2 (15 %), Darab 1 (16 %), and Naz (22 %), and increased in Oltan (1 %), USA-ns 96 (7 %), and Sodan 94 (10 ) genotypes. On the other hand, the highest amount of shoot dry weight belongs to the USA-ns 96 genotype (39 g), and the lowest to Naz cultivar (22 g). Finally, results show that USA-ns 96 genotype, being superior in terms of root characteristics such as root depth and root length density compared to other genotypes, in addition to having more shoot dry weight, show the least dry weight loss under stress conditions.
Mohammad Safari; Masoud Arghavani; Azizolah Kheiri
Abstract
This experiment was conducted in order to investigate the morphological and physiological responses of vetiver grass (Chrysopogon zizanioides L. Roberty), to water deficit stress and salicylic acid application at Department of Horticultural Sciences, University of Zanjan in 2015. After 6 months of planting ...
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This experiment was conducted in order to investigate the morphological and physiological responses of vetiver grass (Chrysopogon zizanioides L. Roberty), to water deficit stress and salicylic acid application at Department of Horticultural Sciences, University of Zanjan in 2015. After 6 months of planting transplants into pots, three soil available water levels (40, 70 and 100%) and salicylic acid concentrations (0, 1 and 2 mili Molar) were applied in a factorial experiment based on completely randomized design with three replications for six weeks. Salicylic acid applied through foliar spray weekly. Generally, water deficit reduced root and shoot dry weight and leaf chlorophyll content. Root length, total phenol, proline and electrolyte leakage of leaves were increased by reducing the amount of available water. Salicylic acid application improved negative effects of water deficit in all attributes and its effect was more pronounced in 40% available water treatment. In all available water levels, there was no significant difference between 1 and 2 mili Molar salicylic acid treatments in root dry weight and leaves total phenol whereas in other factors. 2 mili Molar salicylic acid application had better result and plants in this treatment had higher shoot dry weight, proline and chlorophyll content and less electrolyte leakage than 1 mili Molar salicylic acid treatment, suggesting that in order to increase water deficit tolerance of vetiver grass, higher concentration of this plant growth regulator must be evaluated.