The Effect of Application of Nitrogen Fertilizer and Nano-Organic Manure on Yield, Yield Components and Essential Oil of Fennel (Foeniculum vulgar Mill.)

Document Type : Research Article

Authors

1 Mashhad Branch, Islamic Azad University

2 University of Torbat Heydarieh

Abstract

Introduction
Since discovery of food, clothing and shelter, human wanted to improve their physical sufferings, and using experience separated toxic plants from non – toxic ones and medicinal herbs from non – medicine. Medicinal herbs are agricultural products which have a very important role in the health of people in society. Among the medicinal herbs, fennel with scientific name (Foeniculum vulgare Mill.) traditionally was used for treating problems such as Inflammation and Cramping. Now, one of the main objectives of the modern agriculture is decreasing the consumption of fertilizers and greater the use of organic fertilizers especially livestock fertilizers. The use of organic fertilizers in nano-dimensions can absorb the nutrients needed to plant. Better use of nano- technology for producing organic fertilizers, suitable for recruiting plant can help plants in variable environmental conditions and be effective in the growth, quantity and quality performance (Sumner, 2000). By the considering the same management of organic and chemical fertilizers consumption especially nano–organic fertilizers, is of great importance and necessitate further research and consideration in all kinds of plants, medical and aromatic herbs and plants in particular.
Materials and Methods
A factorial experiment, arranged in a randomized complete blocks design with three replications, was conducted in the Saffron Research Institute at Torbat - Heydarieh University in 2014. The geographical location of the experimental station was 35º 20´ N and 59º 13´ E with the altitude of 1450 m. Factors, including utilization of nano-organic fertilizer in four levels (zero, 10, 20 and 30 tons per hectare) and nitrogen fertilizers application in four levels (0, 25 , 50 and 75 kg per hectare). Each experimental plot was 3 m long and 2 m wide and contained 4 rows with 50 cm distance. Seeds were directly sown by hand in late May. First irrigation was done 10 days after seedling emergence. The rest of irrigation was done every 5 days. The spacing between plants were 20 cm that was achieved by thinning plants in 3-4 leaves stage .Weeding was done manually tree times. Fennel harvesting was done in early September at the time of physiological maturity. At the first five plants harvested randomly from each plot for measurement of plant height, the number of lateral branches per plant, the number of umbels per plant, the number of seeds per umbel, the number of seeds per plant, weight of 1000 seed and fresh and dry weight of plant. Then for measurement of biomass, grain yield and harvest index, one m-2 of center of each plot was harvested. Seed and straw essence were measured using distillation method with distilled water by Clevenger apparatus. The data was analyzed using the SAS software. Means comparisons were done with Duncan’s multiple rang test at 5% probability.
Results and Discussion
Results showed that height, the number of lateral branches, the number of umbels per plants, the number of seeds per plant, 1000 seed weight, dry weight, seed yield, straw yield, biological yield, harvest index, and essence yield were affected by nano-organic manure. Nitrogen fertilizers had significant effect on height, the number of seeds per umbrella, the number of seeds per plant, plant fresh and dry weight, seed yield, straw yield, biological yield and essence yields while the number of lateral branches, umbels per plant, seed weight and harvest index was not affected by this factor. The interaction of nano- organic manure and nitrogen fertilizer had not significant effect on the measurement characteristics. While the application of 10 ton ha-1 of nano-organic manure or 25 kg ha-1 of nitrogen fertilizer could increase biological, seed, straw and essential oil yield, higher amount utilization values of each treatment had no effect .Consumption of 25 kg ha-1 of nitrogen fertilizer increased seed yield by increasing the biological yield, while 10 tons ha-1 nano-organic manure increased yield by increasing the number of umbrellas per plant, number of seeds per plant and seed weight.
Conclusions
In general it can be concluded that consumed 10 ton ha-1 of nano-organic manure can be an appropriate alternative for nitrogen fertilizers in fennel and probably has less adverse effects on environment.

Keywords

References

1. Abdallah, N., El- Gengaihi, S., and Sedrak, E. 1978. The effect of fertilize treatment on yield of seed and volatile of fennel (Foeniculum vulgare) .Journal of Medicinal and Aromatic Plants 33(9): 607-608.
2. Ahmadian, A. 2006. Effect of irrigation frequency and manure on the quality and quantity of cumin. MSc thesis. Zabol University. (In Persian with English Abstract).
3. Akbarinia, A., and Tahmasbi sarvestani, A. 2003. Effect of different feeding systems on yield and essential oil content of seeds Ajowan. Journal of Medicinal and Aromatic Plants 18:79-89. (In Persian with English Abstract).
4. Akbarinia, A., Ghalavand, A., Sefidkan, F., Rezayi, M., and Sharifi Ashorabadi, A. 2004. The effect of chemical fertilizer, manure on yield and essential oil content of seeds Ajowan modulator. Research and Development 16(4): 32- 42. (In Persian with English Abstract).
5. Badran, F. S., and Safwat, M. S. 2004. Response of fennel plants to organic manure and bio-fertilizers in replacement of chemical fertilization. Egyptian Journal of Agricultural Research 82: 247-256.
6. Baybordi, Y., Malakoti, J., Amirmakri, H., and Nafisi, M. 2000. Production and consumption of chemical fertilizers in line with the objectives of sustainable agriculture. Publish Agricultural Education 97 PP.
7. Black, I., and Dyson, C. 2008. Thirty years of change in South Australian broadacre agriculture. In Global Issues, Paddock Action Proc. 14th Australian Agronomic Conference Adelaide. South Australia, Australian Societa Agronomic. 21–25 September.
8. Chandhary, G. R. 1989. Effect of nitrogen level and weed control on weed competition, nutrient uptake of Cumin (Cuminum cyminum L.). Indian Journal of Agricultural Science 59(6): 397-399.
9. Darzi, M. T., and Hadj Seyed Hadi, M. R. 2003. Evaluation of agronomic and ecological issues of chamomile and fennel. Olive magazine 152: 42-49. (In Persian with English Abstract).
10. Ehsanipour, A., Razmjoo, K., and Zeinali. H. 2013. Effect of nitrogen rates on yield, yield components and essential oil content of several fennel (Foeniculum vulgare Mill.) populations. Iranian Journal of Medicinal and Aromatic Plants 28 (4) 579-593. (In Persian with English Abstract).
11. Fitzgerald, G., Rodriguez, D., and Leary, G. O. 2010. Measuring and predicting canopy nitrogen nutrition in wheat using a spectral index. The canopy chlorophyll content index (CCCI). Field Crops Research 116: 318-324.
12. Jamshidi, E., Ghalavand, A., Sefidkon, F., and Goltapeh, A. 2010. Positive effect of fungi Piriformospora Indica on fennel yield, yield components under effect organic matter. Journal of Agricultural Science and Sustainable Production 7-14. (In Persian with English Abstract).
13. Kapoor, R., Giri, B., and Mukerji, K. G. 2004. Improved growth and essential oil yield and quality in foeniculum vulgare Mill.‌ on mycorrhizal inoculation supplemented with P-fertilizer. Bioresource Technology 93: 307-311.
14. Khan, M. M., and Azam, Z. M. 1999. Change in the essential oil constituents of Foeniculum vulgare in relation of basal and foliar application of nitrogen and phosphorus. Journal Plant Nutrition 11: 2205-2515.
15. Krishmamoorthy, V., and Madalager, M. B. 2000. Effect of interaction of nitrogen and phosphorus on seed and essential oil of Ajowan (Trachypermum ammi). Journal of Spices and Aromatic Crops 9(2): 137- 149.
16. Mahfouz, S. A., and Sharaf Eldin, M. A. 2007. Effect of mineral biofertilizer on growth, yield and essential oil content of Fennel (Foeniculum vulgare Mill.). International Agrophisics 21(4): 361-366.
17. Manafi Molayosefi, M., and Hayati, B. 2010. Production and export of medicinal plants, advantages, problems and solutions. Proceedings of the First Regional Conference on Marketing Medicinal Plants Kurdistan.145-156 (In Persian with English Abstract).
18. Mirshekari, B., and Farahvash, F. 2009. Irrigation management and Nitrogen fertilization in Fennel in a semi-arid climate quarterly. Journal of Medicinal and Aromatic Plants Research 27(4): 541-550. (In Persian with English Abstract.)
19. Mona, Y., Kandil, A. M., and Swaefy Hend, M. F. 2008. Effect of three different compost levels on Fennel and Salvia growth character and their essential oils. Biological Sciences 4: 34-39.
20. Moradi, R., Rezvani Moghaddam, P., Nasiri Mahallati, M., and Lakzian, A. 2010. The effect of application of organic and biological fertilizers on yield, yield components and essential oil of Foeniculum vulgare (Fennel). Journal of Agricultural Research 7(2): 625-635. (In Persian with English abstract).
21. Movaghatian, A., and Siahposh, A. 2011. Effect of integrated nutrient management and yield components of Fennel. Journal of Agriculture 37(2): 113-126. (In Persian with English Abstract).
22. Omidbaigi, R. 2007. Production and processing of medicinal plants. Volume 2. 4th. Edition. Astan Qods Razavi Publications, Beh Nashr. 438 pp.
23. Picard, D., Ghiloufi, M., Saulas, P., and Tourdonnet, S. 2010. Does undersowing winter wheat with a cover crop increase competition for resources and is it compatible with high yield? Field Crops Research 115: 9–18.
24. Salem, A. G., and Awad, A. M. 2005. Response of Coriander plants to organic and mineral fertilizers fertigated in sandy soils. Egyptian Journal Agricultural Research 83(2): 829-858.
25. Sarmadnia, GH. H., and Kochaki, A. 1999. Crop Physiology. Press Mashhad University Jihad. 400 PP
26. Sharifi, Z., and Haghnia, GH. 2008. Effect Nitroxin biological fertilizer on yield and yield components wheat Sabalan. The National Conference of Ecological Agriculture. Iran. Gorgan.104-108. (In Persian with English Abstract).
27. Sharif Ashor Abadi, A. 2002. Effect of organic and chemical fertilizers on yield Fennel. Journal of Medicinal and Aromatic Plants in Iran.7: 1-26. (In Persian with English Abstract).
28. Singh, R. V., and Chauhan, S. P. S. 1994. Response of barley to the levels and sources of nitrogen with and without zinc in relation to yield and water use under dryland conditions. Bhartiya Krishi Anusandhan Patrika. 6: 43-48.
29. Soltaninejhad, F., Fallah, S., and Heidari, M. 2014. Effect of different sources and rates of nitrogen fertilizer on the growth and biomass production of purslane (Portulaca oleracea). Journal of Crop Production 6(3): 125-143. (In Persian with English abstract).
30. Sumner, M. E. 2000. Beneficial use of effluents, waste and biosolids. Communication in Soil and Plant Analyses 31:1701-1715.
31. Tabrizi, L .2005. The effect of moisture and manure on quantitative and qualitative characteristics of Fleawort. MSc thesis. Faculty of Agriculture. Ferdowsi University of Mashhad.
32. Wagner, H. 1993. Maximizing seed yield and important components of Fennel (Foeniculum vulgare). Seed Science Journal 95: 114-117.
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Iranian Journal of Field Crops Research
Volume 14, Issue 4 - Serial Number 44
January 2017
Pages 775-787

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History

  • Receive Date: 24 November 2015
  • Revise Date: 22 December 2015
  • Accept Date: 10 January 2016
  • First Publish Date: 21 December 2016

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