S.H. Davoudi; A. Biabani; A. rahemi-karizaki; S.A.M. modares sanavi; E. Gholamalipor Alamdari; M. Zarei
Abstract
To investigate the effect of iron and zinc chelates on some quantitative and qualitative characteristics of medicinal plant black cumin (Nigella sativa L.), a factorial experiment was conducted in a randomized complete block design with three replications in two areas (the research farm of 1- Gonbad ...
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To investigate the effect of iron and zinc chelates on some quantitative and qualitative characteristics of medicinal plant black cumin (Nigella sativa L.), a factorial experiment was conducted in a randomized complete block design with three replications in two areas (the research farm of 1- Gonbad Kavous University in Golestan province and 2- Agriculture Faculty of Tarbiat Modares University in Tehran province). Experimental treatments included control )spray with pure water), and separate foliar spray of iron: iron nano-chelate at two levels of 1.5 and 4 per 1000 and iron chelate at 3 per 1000 and zinc: zinc nano-chelate at two levels of 1.5 and 3 per 1000 and zinc chelate at 3 per 1000. The treatments were applied in the 8-10 leaf stage and at the time of filling the capsules. The application of nano forms of iron and zinc chelates compared to the common forms had a significant relationship with yield and yield components and qualitative characteristics and increased them. Concentrations of 4 per 1000 of iron nano-chelate and 3 per 1000 of zinc nano-chelate caused the highest increase in seed yield (217.47 g m-2 in Gonbad and 288.67 g m-2 in Tehran), biological yield (582 g m-2 in Gonbad and 337.2 g m-2 in Tehran), harvest index (37.43% in Gonbad and 76.46% in Tehran), and oil percentage and yield. The highest numerical values for cell leakage (57.70 µmol g-1FW in Gonbad and 64.72 µmol g-1FW in Tehran) and prolin (13.40 mg g-1FW in Gonbad and 11.51 mg g-1FW in Tehran) were related to iron and zinc chelate treatments (common forms). Based on the results, the application of the nano form of iron and zinc, even at low concentrations, could positively affect the quantitative and qualitative yield.
A. Rahemi Kahrizaki; R. Rahimi; A. Gholizadeh; E. Gholamalipour Alamdari; H. Saboori; S.H. Davoodi
Abstract
In order to investigate the effects of different levels of vermicompost and nitroxin on the qualitative properties of medicinal plant marigold (Calendula officinalis L.), an experiment was conducted as factorial based on a completely randomized design with four replications in the greenhouse of Gonbad-e-Kavos ...
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In order to investigate the effects of different levels of vermicompost and nitroxin on the qualitative properties of medicinal plant marigold (Calendula officinalis L.), an experiment was conducted as factorial based on a completely randomized design with four replications in the greenhouse of Gonbad-e-Kavos University during 2014-2015. The first factor was vermicompost fertilizer treatment at six levels (0%, 10%, 20%, 40%, 70% and 100%) and the second factor was biological nitroxin fertilizer at two levels of inoculation (25 ml/kg soil) and no inoculation with nitroxin. The results of analysis of variance showed that the effects of nitroxin, vermicompost and their interaction on all traits studied were significant. However, the total phenol content was only significant in the vermicompost treatment. The results showed that the highest total phenol content, chlorophyll a, and total chlorophyll were obtained in 10% vermicompost treatment with nitroxin inoculation. The highest chlorophyll b content was related to 10% vermicompost treatment without nitroxin inoculation. The highest nitrogen content in the plant and catalase content were obtained from 100% vermicompost treatment with nitroxin inoculation, and 100% vermicompost without nitroxin inoculation, respectively. The highest amount of essential oil was obtained from 100% vermicompost treatment with nitroxin inoculation and the lowest was obtained from control treatment without nitroxin inoculation. According to the results, 100% and 70% vermicompost with nitroxin inoculation could be suggested as a suitable treatment for the production of marigold essential oil.