Effects of benzyl adenine and potassium nitrate on some morpho-physiological traits of Narcissus (Narcissus tazetta L.)

Document Type : Full Paper

Authors

1 Former M. Sc. Student, Faculty of Agriculture, University of Zanjan, Iran

2 Assistant Professor, Faculty of Agriculture, University of Zanjan, Iran

3 Associate Professor, Ramin Agriculture and Natural Resources University, Khuzestan, Iran

Abstract

Several plant growth regulators are used to improve the quality of cut flower in bulb plants, but their effectiveness depends on genotype and plant growth conditions such as nutrition status. A pot experiment was conducted under farm condition to study Benzyl Adenine (BA) and potassium nitrate interaction on floret diameter, stem diameter, flower height, flower number per bulb, fresh and dry weight of flower, cut flower vase life and soluble carbohydrates and proteins in leaves of Narcissus. Different levels of BA (0, 100, 200 and 500 mgl-1) were applied by two approaches of soaking bulbs for 24 hours before planting and spraying at early stages of inflorescence emerge. Potassium nitrate levels of (0, 1, 2 and 4 gKg-1 soil) were applied in two stages of trifoliate and swelling of the inflorescence among leaves as soil application. The results showed that all evaluated traits affected significantly by Benzyl Adenine treatments, which indicated Narcissus plants were positive sensitive to cytokinines. There were no statistically-significant difference between control plants and those undergoing potassium nitrate treatments in terms of flower number per bulb, fresh and dry weight of flower and cut flower vase life. Interaction of Benzyl Adenine and potassium nitrate at high levels caused significant increase in floret diameter, stem diameter, fresh and dry weight of flower, cut flower vase life, soluble carbohydrates and proteins. Results showed that the alteration in morphological and biochemical characters because of Benzyl Adenine and nitrogen positively affected cut flower quality of Narcissus.

Keywords

References

  1. Abdoul, K.S. (1991). Advanced plant physiology. The first part, the Ministry of Higher Education and Scientific Research, the University of Salahaddin, Iraq.
  2. Albalasmeh A.A., Berhe, A.A. & Ghezzehei, T.A. (2013). A new method for rapid determination of carbohydrate and total carbon concentrations using UV spectrophotometry. Carbohydrate Polymers, 97(2), 253-261.
  3. Argueso, C.T., Ferreira, F.J. & Kieber, J.J. (2009). Environmental perception avenues: the interaction of cytokinin and environmental response pathways. Plant Cell Environmental, 32, 1147-1160.
  4. Bagheri, F., Mortazavi, S.N. & Amiri, M. (2011). Effect of gibberelic acid some physiological and morphological characteristics on Tuberose (Polianthes tuberosa). In: Proceeding of Seventh Congress of Horticultural Sciences, Isfahan University of Technology, p 468. (in Farsi)
  5. Ballantyne, D. J. (2000) Senescence of Daffodil (Narcissus pseudonarcissus) Cut flowers treated with benzyladenine and Auxin. Natureal Sciences, 27(3), 62-65.
  6. Boshra, A. & Sayed, El. (2012). Effect of potassium fertilization sources, bulb size and their interactions on growth and flowering of Tuberose (Polianthus tuberosa L.), Research Journal of Agriculture and Biological Sciences, 8(2), 250-255.
  7. Bradford, M. M. (1976). A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Annual Biochemical, 72, 248-59.
  8. Bufler, G., Mor, Y., Reid, M. S.  & Yang S. F. (1980). Changes in 1-aminocyclopropane-1-carboxylic acid content of cut Dianthus caryophyllus flowers in relation to their senescence. Planta, 150, 439-448.
  9. Capdeville, G., Maffia, L. A., Finget, F. L. & Bayista, U. G. (2003). Gray mold severity and vase life of rose buds after pulsing with citric acid, salicylic acid, calcium sulfate, sucrose and silverthiosulfate. Fitopatologia Brasileira, 28(4), 380-385.
  10. Chehrazi, M., Naderi, R., Shah Nejat Boshehri, A.A. & Esmail Hasani, M. (2007). Genetic variation native flowers of Narcissus spp using RAPD markers. Journal of Horticultural Science and Technology, 8(4), 2225-236. (in Farsi)
  11. Daneshkhah, M., Kafi, M., Nikbakhat, A. & Mirjalili, M. (2007). Effect of nitrogen and potassium on performance indicators Rose flowers Barzoki Kashan, Iran. Journal of Horticultural Science and Technology, 8(2), 83-90. (in Farsi)
  12. Daneshvar, M. & Heidari, M. (2011). Effects of planting density and depth of cut flowers narcissus bulbs (Narcissus tazetta) on quantitative traits in weather conditions Khuzestan (Mollasani). Journal of Horticultural Science, 3(25), 304-309. (in Farsi)
  13. Davis, P.H. (1998) Flora of turkey and the east aegan Island. Edinburgh University Press. 590 p.
  14. Davis, P.J. (1988). Plant hormones and their role in plant growth and development. Kluwer Academic Poblishers. 432 p.
  15. Faraji, E., Klatebari, S., Mostafavi, U. & Moradi, F. (2010). Effect of benzyladenine and gibberellic acid, cold and dry storage shelf life of cut flowers of Lilium (Lilium ledebourii). Modern Agricultural Knowledge (knowledge of modern, sustainable agriculture), 6(21), 75-84. (in Farsi)
  16. Fathi, Gh. A. & Esmailpuor, B. (2010) Plant growth substsnces, principles and applications. Jehad-e-Daneshghahee Mashhad Press. 85-90. (in Farsi)
  17. Fernando, F., campanha, M. M., Barbosa, J. G. & Paulo, C. R. (1999). Influence of ethephon, silver thiosulfate and sucrose pulsing on bird of paradise (Strelitzia reginae) vase life. Journal of Plant Growth Regulation, 11, 119-122
  18. Julio, C. (2003). Effect of GA3 and BA on two cultivar of Achimenes longiflora under two levels of irradiance. Symposium on Growth Regulature in Floriculture, 77, 521-528.
  19. Karagozel, O, S., Alatan, I., Doran, Z. & Sogut, F. (1999). The effects of GA3 and additional KNO3 fertilisation on flowering and quality characteristics of Gladiolus garndiflorus, Improved Crop Quality by Nutrient Management. Springer Netherlands. 259-262.
  20. Kheiry, A. (2006). Effects of GA3 and 6-BA on the quality and essence of tuberose (Polianthus tuberosa L.). M.Sc. thesis, University of Tehran.
  21. Pal, P. & Chowdhury, T. (1998). Effect of growth regulators and duration of soaking on sprouting, growth, flowering and corm yield of Gladiolus cv. Tropic Sea Horticultural Journal, 11(2), 69-77.
  22. Rahimi, M., Heidari, M. & Daneshvar, M. (2011). Effects of potassium nitrate and bulb weight on quantitative and qualitative cut flowers narcissus (Narcissus tazetta L.) grown in a hydroponic system. In: Proceeding of Second National Congress of hydroponic greenhouse. Mahalat. Arak. Iran. (in Farsi)
  23. Sakakibara, H., Takei, K. & Hirose, N. (2006). Interactions between nitrogen and cytokinin in the regulation of metabolism and development. Trends in Plant Science, 11(9), 440-448.
  24. Satoh, S., Kosugi, Y., Kenichi, S., Hideki, N. & Keisuke, W. (2003). Senescence mechanism of Dianthus caryophyllus flowers. Procceding of 8th international symposium on post harvest pHysiol of ornamental plants. August 10-14, 2013. The Netherlands, PP. 67.
  25. Shur, M. (2004). Effects of hormones and cold storage rooms on vase life of cut flowers tuberose (Polianthus tuberosa L.). Ph.D. Thesis, Faculty of Agriculture, Department of Horticultural Sciences, Tarbiat Modarres University. Iran.
  26. Skutnik, E.W., Lukaszewska, A.L. & Margrethe, S. (2003). Effect of growth regulators on postharvest characteristics of Zantedeschia aethiopica. Postharvest Biology and Technology, 21, 241-246.
  27. Tabatabaei, S. J. & Fakhrzad, F. (2008). Foliar and soil application of potassium nitrate affects the tolerance of salinity and canopy growth of perennial ryegrass (Lolium perenne var Boulevard). Journal Agricultural Biological Sciences, 3(3), 544-550.
  28. Tonecki, J. (1979). Effect of the growth substances on plant growth and shoot apex differentiation in gladiolus (Gladiolus hortorum cv. Acca laurentia). Acta Horticulturea, 91, 201- 206.
  29. Trinklein, D. (2002). Spring flowering Bulbs: Daffodils. Flowers and houseplants. Published by mu extension, university of Missoury-Columbia. P: 4.
  30. Turkoglu, N., Alp, S. & Cig, A. (2008). Effect of diamonium phoshate (DAP) fertilization in different doses on bulb and flower of Narcissus (Narcissus tazetta). American- Eursian Journal Agricultureal & Environmental Sciences, 4(5), 595-598.
  31. Wasfi, E.A. (1995). Growth regulators and flowering and their use in agriculture, the academic liberary, Cairo.
  32. William, E. (2001). Role of cytokinins in Dianthus caryophyllus flower senescence. Plant Physiology, 59, 707-709.
  33. Zhang, A., Huang Dan, F. & Hou, Z. (2002). Effect of potassium nutrient on development and photosynthesis of ornamental plant. Journal of Shanghai Agricultural College, 20(1), 13-17.
Iranian Journal of Horticultural Science
Volume 47, Issue 3 - Serial Number 3
December 2016
Pages 521-529

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History

  • Receive Date: 26 December 2014
  • Revise Date: 17 April 2015
  • Accept Date: 17 May 2015

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