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Showing 2 results for Chemical Fertilizer

Solmaz Khosravi, Parisa Koobaz, Davood Naderi, Narges Mojtahedi, Akram Sadeghi,
Volume 6, Issue 1 (5-2019)
Abstract

The availability of iron for roots has been demonstrated as a critical factor in plant production. The addition of synthetic iron chelates to soil is a common practice in agriculture, which is not economically beneficial. Besides, chemical iron fertilizers cause many problems such as food contamination and environmental pollution. Development of natural Ferrioxamine B as an efficient and safe iron source may be the best strategy to overcome plant iron deficiency and prevention of synthetic agent pollution. The present study investigates the ability of a hydroxamate type siderophores (Ferrioxamine B) as a substitute Fe source during tissue culture of chickpea plants. For this purpose, embryo axes from chickpea seeds were surface sterilized and cultured in 1/2MS and MS culture media including 3% sucrose and 0.8% agar with Ferrioxamine B or Fe–EDTA. The root and shoot length, shoot and root dry weight, total fresh and dry weight, as well as chlorophylls a and b were analysed. Results indicated that Ferrioxamine B did not increase chlorophylls a and b in comparison with Fe-EDTA. However, rooting (22%), total dry weight (38%) and root (75%) and shoot (22%) dry weight significantly (p≤0.05) increased in MS containing Ferrioxamine B in comparison with Fe-EDTA. Consequently, Ferrioxamine B is introduced as a cost-effective and applicable Fe source to favour iron deficiency in vitro.


َabolfazl Baghbani-Arani, Seyed Ali Mohammad Modarres-Sanavi, Masoud Mashhadi Akbar Boojar, Zohrab Adavi, Hamid Dehghanzade-Jezi,
Volume 6, Issue 2 (8-2019)
Abstract

In order to determine the effects of water deficit stress, nitrogen fertilization and zeolite on chlorophyll fluorescence, pigments, trigonelline content and seed yield in, a split factorial experiment was laid out in a randomized complete block design with three replications. Five irrigation regimes were randomly applied to the main plots. Subplots included six treatments and consisted of a factorial combination of three nitrogen fertilization (untreated plots, vermicompost at a rate of 2.7 ton ha-1 and nitrogen chemical fertilizer at a rate of 11 kg.ha-1) and two zeolite rates (0 and 9 ton.ha-1). The results demonstrated that (Fm), (Fv), (Fv/Fm), chl a, b, total chl content and also seed yield were significantly reduced by water deficit stress, wheras minimum fluorescence (F0), carotenoid and trigonelline concentrations were increased. In addition, the highest Fv/Fm, chl a+b content and the lowest F0 and carotenoids were observed when irrigation was done after unloading 40% of ASW. In most treatments vermicompost increased the yield (by 25.51% and 98.32% in 2014 and 2015, respectively) and grain trigonelline concentration (7.46% in 2014) in Fenugreek. Mild water stress with vermicompost treatment is recommended for the production of trigoneline from Fenugreek seeds.


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