Introduction The black seed is scientifically known as Nigella sativa L. from the family Ranunculaceae, which is susceptible to deficiencies in micro elements, including iron and poor soils. The concentration of Fe and Zn in soil solution is usually very low and is mostly mixed with organic matter. The solubility of Zn and Fe is strongly dependent on soil acidity. Managing nutrient intake can improve plant growth and product quality. Inappropriate nutrient management in today's common practice results in degraded agricultural ecosystems and endangered human health, and these problems have necessitated rethinking ways to increase crop production. Rezaei et al. (2016) reported increasing yield traits in stevia plant through using nano iron and zinc and manganese solution. Foliar application of micronutrients can improve grain and oil yield by improving yield components. In the present study, the effect of iron and zinc nanoparticle foliar application on morphophysiological and phytochemical changes of black seed has been evaluated. Materials and Methods The experiment was carried out as a factorial experiment based on a randomized complete block design with three replications in the research field of Gonbade-Kavous University of Agriculture and Natural Resources University of Tarbiat Modares University in 2018-2019. Experimental treatments included control (no foliar application), iron nutrient (iron nano chelates at 1.5 and 4 in a thousand + 3 iron per thousand chelate) and zinc nutrient (zinc nano chelate at 1.5 and 3 in a thousand) and chelate (3 in a thousand) which was used as foliar application. Treatments were applied at 8-10 leaf stage and at the time of capsule filling. The experimental plots were two meters wide with four rows of 50 cm and the length of each plot was 6 m. There was a distance of one meter between each trial unit and a distance of 2 meters between each block. Midlines were used for sampling. Data were analyzed using SAS ver 9.3 statistical software and LSD test was performed at 5% level. Results and Discussion The results showed that the studied traits such as plant height, number of lateral branch, number of pods per plant, number of seed per pods, seed weight per pods, capsule diameter, 1000-seedweight, yield seed, biologicalyield and harvestindex were affected by main effects and interactions of the treatment compounds in Tehran and Goonbade-Kavus fields. Application of iron and zinc chelates in the form of nano-chelates had the highest effect on yield and yield components of the black-seeded medicinal plant in comparison to the chelate form. Maximum grain yield (217.44 g.m-2 in Goonbade-kavus and 288.66 g.m-2 in Tehran), biological yield (582 g.m-2 in Goonbade-kavus and 352.93 g.m-2 in Tehran) and harvest index (37.43% in Goonbade-kavus and 76.467% in Tehran) were observed in the nano-treatment of iron chelate 4 per thousand and the lowest value of seedyield (25.2 g.m-2 in Goonbade-kavus and 20.05 g.m-2 in Tehran), biological yield (260.67 g.m-2 in Goonbade-kavus and 130.67 g.m-2 in Tehran) and harvest index (25.2% in Goonbade-kavus and 11.81% in Tehran) were observed in iron and zinc chelates. Conclusions Based on the results obtained and considering the different measured properties, the application of iron and zinc in the form of nano will have a positive effect on the quantitative performance of black seed. given the role of micronutrients in some enzymes and their effective role in protein synthesis, this increase in yield can be justified compared to control.
Abdelkader, M. A., Fatma, R. I., and Metwaly, E. E. 2019. Growth and productivity of fennel (Foeniculum vulgare) Plants as Affected by Phosphorus Rate and Nano-Micronutrients Concentration. Journal ournal of Plant Production 10 (7): 483- 488.
Aghdasi, S., Modarres-Sanavy, S. A., Agha Alikhani, M., and Keshavarz, H. 2018. The effect of dehydration and foliar application of Fe and Mn on some physiological and quantitative and qualitative traits of green mungbean forage (Vigena radiate L.). Journal of Plant Process and Function 7: 101-115. (in Persian).
Al-Juthery, H. W. A., Habeeb, K. H., Altaee, F. J. K., AL-Taey, D., and Al-Tawaha, M. 2018. Effect of foliar application of different sources of nanofertilizers on growth and yield of wheat. Bioscience Research 15 (4): 3988-3997.
Barua, D., and Saikia, M. 2018. Agronomic biofortification in rice varieties through zinc fertilization under aerobic condition. Indian Journal of Agricultural Research 52 (1): 89-92.
Davazdah Emami, S., and Majnoon Hoseini, N. 2003. Agriculture and production of some herbs and spices. University of Tehran Publications: 300.
El-Metwally, I. M., Doaa, M., Abo-Basha, R., and Abd El-Aziz, M. 2018. Response of peanut plants to different foliar applications of nano iron, manganese and zinc under sandy soil conditions. Middle East Journal of Applied Sciences 8 (2): 474-482.
Gomaa, M. A., Kandil, E. E., Amera, M., and Ibrahim, M. 2020. Response of maize to organic fertilization and some nano-micronutrients. Egyptian Academic Journal of Biological Sciences 11 (1): 13-20.
Hafez, B., Khanif, Y. M., and Saleem, M. 2013. Role of zinc in plant nutrition. American Journal of Experimental Agriculture 3: 374-391.
Hayyawi, W., Al-juthery, A., Abdulkareem, H., Fadhil, K., Radhi, F., Hussein, M., and Khaeim, M. 2019. The response of wheat to foliar application of nano micro nutrients. Plant Archives 19: 827-831.
Izadi, Y., and Modares-sanavi, S. A. M. 2018. Effect of nano iron and manganese fertilizers on mung bean growth and yield in water deficit stress condition. Iranian Journal of Field Crops Research 16 (3): 651-664. (in Persian).
Jam, A., Ebadi, A., and Parmon, G. 2015. The role of iron and zinc on tuber yield and yield components of potato. Journal of Crop Ecophysiology 7: 177-190. (in Persian).
Kopittke, P. M., Lombi, E., Wang, P., Schjoerring, J., and Husted, S. 2019. Nanomaterials as fertilizers for improving plant mineral nutrition and environmental outcomes. Environmental Science 6: 3513-3524.
Monica, R. C., and Cremonini, R. 2009. Nanoparticles and Higher Plants. International Journal of Cytology, Cytosystematics and Cytogenetics 62: 161-65.
Morovat, G., Pasari, B., and Rokhzadi, A. 2019. Effect of Pluramin and iron and zinc nano-fertilizer on rainfed chickpea (Cicer arietinum L.) at on-farm conditions 20 (2): 647-656.
Rameshraddy, P. G. J., Mahesh, S., Geetha, K. N., and Shankar, A. G. 2019 Seed priming and foliar spray with nano zinc improves stress adaptability and seed zinc content without compromising seed yield in ragi (Finger millet). International Journal of Pure Applied Bioscience 5 (3): 251-258.
Ramroudi, M., Keikhajaleh, M., Golvi, M., Seghateslami, M. J., and Baradaran, R. 2011. Effect of micronutrient soluble irrigation and irrigation regimes on quantitative and qualitative yield of psyllium. Journal of Agricultural Ecology 3: 226-219.
Rezaee chapane, A., Salmasi, S., Pirzad, A. R., and Rahimi, A. 2015. Effect of foliar application of iron, zinc and mn on nutrients, yield components and seed oil calendula officinalis L. Journal of Horticultural Science 102: 29-52. (in Persian).
Seyed Jamal, Z. A., Astaraei, R., and Emami, H. 2014. The effect of humic acid and compost on the absorption of some micronutrients in basil (Ocimum basilicum L.). First National Conference on Sustainable Farming of Medicinal Plants: 1-8.
Sher, A., Naveed, Kh., Ahmad,G., and Khan, A. 2020. Grain zinc and iron enrichment through foliar application augments wheat yield under varying nitrogen regimes. Pakistan Journal of Botany 52 (1): 85-94.
Sudhagar, G. B., Immanuel, R., Ramesh, S., Baradhan, G., and Sureshkumar, S. M. 2019. Effect of zinc and iron fertilizartion on growth and development of rice. Plant Archives 19: 1877-1880.
Yarnell, E., and Abascal, K. 2011. Nigella sativa holy herb of the middle east. Alternative and Complementary Therapy 17: 99-105.
Davoodi, S. H., Biabani, A., Rahemi karizaki, A., Modarres-Sanavy, S. A. M., Gholamalipour Alamdari, E., & Zarei, M. (2020). Effect of Iron and Zinc Nano Chelates on Yield and Yield Components of Black Cumin Medicinal Plant (Nigella sativa L.). Iranian Journal of Field Crops Research, 18(3), 267-278. doi: 10.22067/gsc.v18i3.85072
MLA
S. H Davoodi; A Biabani; A Rahemi karizaki; S. A. M Modarres-Sanavy; E Gholamalipour Alamdari; M Zarei. "Effect of Iron and Zinc Nano Chelates on Yield and Yield Components of Black Cumin Medicinal Plant (Nigella sativa L.)". Iranian Journal of Field Crops Research, 18, 3, 2020, 267-278. doi: 10.22067/gsc.v18i3.85072
HARVARD
Davoodi, S. H., Biabani, A., Rahemi karizaki, A., Modarres-Sanavy, S. A. M., Gholamalipour Alamdari, E., Zarei, M. (2020). 'Effect of Iron and Zinc Nano Chelates on Yield and Yield Components of Black Cumin Medicinal Plant (Nigella sativa L.)', Iranian Journal of Field Crops Research, 18(3), pp. 267-278. doi: 10.22067/gsc.v18i3.85072
VANCOUVER
Davoodi, S. H., Biabani, A., Rahemi karizaki, A., Modarres-Sanavy, S. A. M., Gholamalipour Alamdari, E., Zarei, M. Effect of Iron and Zinc Nano Chelates on Yield and Yield Components of Black Cumin Medicinal Plant (Nigella sativa L.). Iranian Journal of Field Crops Research, 2020; 18(3): 267-278. doi: 10.22067/gsc.v18i3.85072
)
Send comment about this article