Y. Nasiri; F. Shekari; M. Asadi
Abstract
To study the effect of biofertilizers and zinc sulfate on some morphological and yield characteristics of summer savory (Satureja hortensis L.), an experiment was conducted as a factorial in a randomized complete block design with three replications in the research farm of the Faculty of Agriculture, ...
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To study the effect of biofertilizers and zinc sulfate on some morphological and yield characteristics of summer savory (Satureja hortensis L.), an experiment was conducted as a factorial in a randomized complete block design with three replications in the research farm of the Faculty of Agriculture, Maragheh University in 2013. Treatments included biofertilizers (1: no inoculation (control), seeds inoculated with 2: Nitroxin and 3: Super Nitro Plus) and foliar spray of plants with zinc sulfate (the concentration of 0, 2.5 and 5 per thousand). The results showed that the effect of biofertilizers and zinc sulfate on the number of branches per plant, flowering shoots dry weight per plant, wet and dry weight of aerial parts at 50% flowering stage, biological yield and essential oil yield was significant. The highest values of these traits were obtained in Super Nitro Plus and Nitroxin inoculation treatments, respectively. Plant height was also increased by applying zinc sulfate at concentrations of 2.5 and 5 per thousand compared to the control. Stem diameter reached to the maximum value under Super Nitro Plus + zinc sulfate foliar spray at a concentration of 2.5 per thousand and Nitroxin + zinc sulfate foliar spray at a concentration of 5 per thousand treatments. The treatments of zinc sulfate at a concentration of 5 per thousand + Super Nitro Plus and zinc sulfate at a concentrations of 2.5 and 5 per thousand + Nitroxin with the highest percentage of essential oil, increased the amount of summer savory essential oil by 34.5% compared to the control. In summary, the results of this study showed that Super Nitro Plus, Nitroxin, and zinc sulfate can be used to promote plant growth and increase the essential oil of summer savory.
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. Fallahi; A. Hassani; F. Sefidkon
Abstract
Zinc is an essential micronutrient element and has a number of vital roles in plants. In the recent years, zinc nano-fertilizers have received considerable attention due to their increased uptake by plants as they are small in size and have high rate of penetration through plant cell membrane. To study ...
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Zinc is an essential micronutrient element and has a number of vital roles in plants. In the recent years, zinc nano-fertilizers have received considerable attention due to their increased uptake by plants as they are small in size and have high rate of penetration through plant cell membrane. To study the effect of foliar application of different zinc fertilizers on yield and phytochemical characteristics of basil (Ocimum basilicum L.), a pot experiment was conducted using a factorial based on a randomized complete block design with four replications during 2014 at the experimental greenhouse of the Horticultural Sciences Department of Urmia University. The treatments were three different zinc sources (zinc sulphate, zinc chelate and nano-zinc chelate) in four concentrations (0, 1, 2 and 3g/l). The results showed that foliar application of zinc had significant effect on evaluated parameters. Fresh and dry herb yield, zinc and phenol content of leaves, essential oil content, and yield increased with zinc application and in this regard, foliar application of nano-zinc chelate was more effective than two other zinc fertilizers. The lowest and the highest evaluated parameters were observed at concentrations of 0 and 3g/l, respectively. The results of essential oil analysis by gas chromatography (GC) and gas chromatography-mass spectrometry (GC-MS) showed that 20 components were identified in the basil essential oil. Linalool and eugenol were the main components of essential oil and they showed little variation under zinc application. Overall, the findings of this study showed that the effect of nano-zinc chelate application (especially at a concentration of 3g/l) was more effective than zinc sulphate and zinc chelate in increasing herb yield and active substances of basil.
P. Mohammadzadeh Toutounchi; R. Amirnia
Abstract
This research was aimed to investigate the effects of foliar application of micronutrients on some morphological traits in fenugreek (Trigonella foenum-graecum L.). The study was conducted in a randomized complete block design with eight treatments and three replications in 2012 at the research farm ...
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This research was aimed to investigate the effects of foliar application of micronutrients on some morphological traits in fenugreek (Trigonella foenum-graecum L.). The study was conducted in a randomized complete block design with eight treatments and three replications in 2012 at the research farm of Agriculture and Natural Resources of West Azarbaijan Research Station. Treatments included: control (no spray), foliar application of iron, zinc, manganese, iron + zinc, iron + manganese, zinc + manganese, iron + zinc + manganese. These elements were provided from iron sulfate, zinc sulfate and manganese sulfate and were applied at pre-flowering stage. Results indicated that there was statistically significant difference between control and spraying of micronutrient elements. In addition, results showed that spraying of micronutrient elements significantly affected plant height, number of lateral branches, number of pods per plant, number of grain per pod and fresh forage yield. Iron + zinc+ manganese spraying was superior compared to the other spraying treatments. Thus, results showed that the use of micronutrients could improve the morphological characteristics of Fenugreek.
N. Raesee; S.M.A. Vakili; G. Sarhady; F. Torkynegad
Abstract
This research was aimed to investigate the effects of different levels of manure, iron and zinc fertilizers on yield, yield components and essential oil percentage of cumin (Cuminum cyminum L.) in Jiroft during 2012-2013. The study was performed as factorial in a randomized complete blocks design with ...
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This research was aimed to investigate the effects of different levels of manure, iron and zinc fertilizers on yield, yield components and essential oil percentage of cumin (Cuminum cyminum L.) in Jiroft during 2012-2013. The study was performed as factorial in a randomized complete blocks design with three factors and 18 treatments in three replications. Manure at two levels of zero and 150 ton ha-1, zinc sulfate at three levels of 0, 25, and 40 kg ha-1and iron fertilizer at three levels of 0, 2.5, and 5 kgha-1 were applied. In this study, plant responses consisted of yield, shoot dry weight, plant height, number of seeds per plant, number of umbels, and 1000-seed weight. Results showed that manure, iron and zinc fertilizers at different levels affected shoot dry weight, yield, number of seeds per plant, number of umbels, plant height, 1000-seed weight, and essential oil percentage significantly at 1% level of significance. In addition, the interaction effects of manure and iron and zinc fertilizers were significant on shoot dry weight, yield, number of seeds per plant, and 1000-seed weight. According to the obtained results, a combined treatment of manure (15 ton ha-1), zinc sulfate (25 kg ha-1) and iron fertilizer (5kg ha-1) could be recommended to enhance the yield and yield components of cumin in Jiroft.
S. Zare Dehabadi; Z. Asrar
Volume 24, Issue 4 , February 2009, , Pages 530-540
Abstract
The conditions used for spearmints growth in this work have been adequate for testing range of tolerance and adaptation to excess zinc. For studying oxidative changes, antioxidanic responses and metal accumulation in Spearmint (Mentha spicata L.) in reply to zinc, plants remained in a controlled environment ...
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The conditions used for spearmints growth in this work have been adequate for testing range of tolerance and adaptation to excess zinc. For studying oxidative changes, antioxidanic responses and metal accumulation in Spearmint (Mentha spicata L.) in reply to zinc, plants remained in a controlled environment for 12 weeks in nutrient solutions that contained different doses of zinc. This study showed that Zinc as heavy metal induced oxidative stress as evidenced by an increase in lipid peroxidation (malondialdehyde and other aldehydes). Under Zn treatments, phenolic compounds such as flavonoids and anthocyanins were increased significantly compared to control plants. The total protein content in leaves increased significantly by increment concentration of Zn but decreased with higher Zn supply. Lipid peroxidation (MDA) was increased only in the highest concentration of zinc. High levels of Zn decreased the shoot to root translocation of Zn and Fe which caused accumulation of these metals in root. In general, the results of this investigation proved high antioxidanic capacity in spearmint plants.