Effect of Different Concentrations of Nitrogen, Phosphorus and Potassium on Growth Indices of Oriental Lily (Lilium spp.) Bulblet

Zarifianffard, Zahra; Ghaemi Ghehsareh, Masood; Barzegar, Rahim

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Volume 23, Issue 3 (Fall 2022)

IJHST 2022, 23(3): 539-554

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Effect of Different Concentrations of Nitrogen, Phosphorus and Potassium on Growth Indices of Oriental Lily (Lilium spp.) Bulblet

Zahra Zarifianffard

, Masood Ghaemi Ghehsareh

, Rahim Barzegar

Abstract: (1285 Views)

Bulblets require suitabale environmental conditions and particularly fertilization to obtain flower size. For this purpose, in a CRD-based factorial experiment with four replications and 6 plants per replication, the effect of different concentrations of nitrogen, phosphorus and potassium on the growth of oriental lily bulbs of cultivar ‘Candy club’ was investigated. Treatments included different concentrations of nitrogen (100 and 160 mg L^-1), phosphorus (40 and 80 mg L^-1) and potassium (150, 225 and 300 mg L^-1). Solutions containing elements with the desired concentrations were added to the hydroponic culture medium and after 10 months, growth indices were measured. The results showed that the highest number of leaves, shoot fresh weight, root fresh and dry weight, leaf potassium content and amount of soluble sugar and starch of bulbs were related to N: P: K treatment equal to 160: 80: 300. The highest leaf nitrogen content was observed in 160 mg L^-1 treatment, the highest leaf phosphorus content in 80 mg L^-1phosphorus treatment and the highest leaf potassium content was observed in the interaction of nitrogen and phosphorus with concentrations of 160 and 80 mg L^-1, respectively. The interaction of nitrogen and phosphorus with a ratio of 160: 80 also caused the highest leaf area, shoot dry weight, bulb fresh weight, bulb diameter, chlorophyll content of the leaf at the active growth stage and at harvest time (onset of dormancy symptoms). The highest bulb weight was observed in nitrogen and potassium treatments with concentrations of 160 and 300 and phosphorus and potassium with concentrations of 80 and 300 mg L^-1, respectively. In general, the largest bulbs were produced at the highest levels of nitrogen, phosphorus and potassium used in the experiment.

Keywords: Soluble sugar, Chlorophyll, Fertilizer, Bulb weight, Lilium

Full-Text [PDF 570 kb] (279 Downloads)

Type of Study: Research | Subject: Plant nutrition
Received: 2020/09/23 | Accepted: 2021/12/11 | Published: 2023/01/11

References

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61. Cao, W. and, T.W. Tibbitts. 1991. Physiological responses in potato plant under continuous irradiation. J. Am. Soc. Hort. Sci. 116: 3. 525-527. [DOI:10.21273/JASHS.116.3.525]

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63. Choi, J.M. and H.G. Kim. 2006. Effect of N, P, K and Ca nutrition on strawberry anthracnose. Plant Pathol. 55: 246-249. [DOI:10.1111/j.1365-3059.2006.01322.x]

64. El-Bassiony, A.M. 2006. Effect of potassium fertilization on growth, yield and quality of onion plants. J. App. Sci. Res. 2: 780-785.

65. El-Naggar, A.H. 2010. Effect of biofertilizer, organic compost and mineral fertilizers on the growth, flowering and bulbs production of Narcissus tazetta L. J. Agr. Env. Sci. Alex. Univ. 9(1): 24-52.

66. El-Rehim, G.H.A. 2000. Effect of phosphorus fertilization on yield and quality of onion bulb under Egypt condition. Assiut J. Agr. Sci. 31: 115-121.

67. Emsweller, S.L., G.O. Randall, , and J.G. Weaver. 1983. Fertilizer for narcissus bulb in North Carolina. Proc. Amer. Soc. Hort. Sci. 36: 791- 795.

68. Epstin, E. 1972. Mineral nutrition of Plants: Principles and Perspectives. New York: Wiley. 189 p.

69. Estefan, G, R. Sommer, and J. Ryan. 2013. Methods of Soil, Plant, and Water Analysis, A Manual for the West Asia and North Africa Region. ICARDA (International Center for Agricultural Research in the Dry Areas), Beirut, Lebanon.. 242 p.

70. Faragasova, A. 1994. The effect of the environment and storage on nitrate content in various potato cultivars from two localities. Biologia, 49:6. 917-922.

71. Field, C. and H.A. Mooney. 1986. The photosynthesis-nitrogen relationship in wild plants. In: Givnish T.J. (ed.) On the economy of plant form and function: Proceedings of the Sixth Maria Moors Cabot Symposium (Vol. 6). Cambridge University Press. pp. 25-55.

72. Fodor, E. and E. Solymos. 1976. Base Fertilization of Narcissus. Kerteszeti Egyetem Kozlemenyei, 39(7): 261-272 (In Hungarian).

73. Ghasemi Ghehsareh, M. and M. Kafi, 2014. Floriculture, Scientific and Practical (Volume I). Author publication. 313 p. (In Persian).

74. Haadi-e-vincheh, M., D. Naderi, and A. Golparvar. 2013. Growth and physiological characteristics of Narcissus pseudonarcissus at different nitrogen levels. Int. J. Food Allied Sci. 2 (2): 1325-1329.

75. Hanks, G.R. 2002. Commercial Production of Narcissus bulbs. In: Hanks, G.R. (ed). Narcissus and Daffodil: The Genus Narcissus. CRC Press. pp. 53-130. [DOI:10.1201/9780203219355]

76. Hartmann, H.T., D.E. Kester, R.L. Geneve, and F.T. Davies. 2014. Hartmann & Kester's Plant Propagation: Principles and Practices. Pearson Educ. limited. 922 p.

77. http://sarafraz-hezarmasjed.ir/2018/02/13. Onion nutrition and fertilizer recommendation of onion farms. (In Persian).

78. Jamil, M.K., M.M. Rahman, M.M. Hossain, M.T. Hossain, and A.S. Karim. 2016. Response of N, P and K on the growth and flowering of hippeastrum (Hippeastrum hybridum Hort.). Bangladesh J. Agr. Res. 41(1): 91-101. [DOI:10.3329/bjar.v41i1.27675]

79. Kamenetsky, R., and H. Okubo. 2012. Ornamental Geophytes: From Basic Science to Sustainable Production. CRC Press. 578 p. [DOI:10.1201/b12881]

80. Kazemi M., H. Hassanabadi, and H. Tavakoli. 2011. Potato Production Management. Publication of agricultural education and extension. 156 p. (In Persian).

81. Kazemi, M., S. Zamani, and M. Aran. 2011. Interaction between glutamin and different chemicals on extending the vase life of cut flowers of 'Prato' lily. Am. J. Plant Physiol. 6: 120-125. [DOI:10.3923/ajpp.2011.120.125]

82. Khalighi, A., M. Hojjati, M. Babalar, and R. Naderi. 2007. Investigation of the effect of N, P and K ratios on quantitative and qualitative traits of bulbs and bulblet in tulips. Iranian J. Agr. Sci. (J. Agr.). 38(1): 39-45 (In Persian).

83. Khosravifar, S., M. Yarnia, M.B. Khorshidi Benam, and A.H. Hosseinzadeh Moghbeli. 2008. Effect of potassium on drought tolerance in potato cv. Agria. J. Food Agr. Environ. 6: 236-241.

84. Koocheki, A. and A. Soltani. 2011. The Sugar Beet Crop. Mashhad University Jihad, Iran. 200 p. (Translated in Persian).

85. Leeds, R. 2000. The Plant Finder's Guide to Early Bulbs. Timber Press Portland. Oregon.UK. 192 p.

86. Lester, G.E., J.L. Jifon, and D.J. Makus. 2006. Supplemental foliar potassium applications with or without a surfactant can enhance netted muskmelon quality. Hort. Sci. 41: 741-744. [DOI:10.21273/HORTSCI.41.3.741]

87. Lichtenthaler, H.K. and A.R. Wellburn. 1983. Determinations of total carotenoids and chlorophylls a and b of leaf extracts in different solvents. Biochemical Society Transactions. https://doi.org/10.1042/bst0110591 [DOI:10.1042/bst0110591.]

88. Lin, D., D. Huang, and S. Wang. 2004. Effects of potassium levels on fruit quality of muskmelon in soilless medium culture. Sci. Hort. 102: 53-60. [DOI:10.1016/j.scienta.2003.12.009]

89. Mahmoodinezhade dezfully, S.H., A. Gholami, A.A. Moezi, and M. Hosseinpour. 2012. Effects of Nitrogen, Potassium and Phosphorus on Quantitative and Qualitative Characteristics of Tuberose cv. Double (Polianthes tuberosa L.). J. Appl. Environ. Biol. Sci. 2(9): 485-491.

90. Malakouti, M.J. and M. Homaei. 2004. Fertility of Soils in Arid and Semi-arid Regions. Trabiat Modares University, Tehran. 508 p. (In Persian).

91. Malakouti, M.J. and M.M. Tehrani. 1999. The Role of Micronutrients in Increasing Yield and Improving the Quality of Agricultural Products (Microelements with Macro Impact). Tarbiat Modares University Pub. Tehran, Iran. 328 p. (In Persian).

92. Maness, N. 2010. Extraction and Analysis of Soluble Carbohydrates. In: Sunkar R. (eds) Plant Stress Tolerance, Methods in Molecular Biology (Methods and Protocols), vol 639. Humana Press. pp 341-370. https://doi.org/10.1007/978-1-60761-702-0_22 [DOI:10.1007/978-1-60761-702-0_22.]

93. Marschner, H. 2011. Marschner's Mineral Nutrition of Higher Plants. 3nd Ed. Acad. Press, London. 672 p.

94. Mengel, K. and W.W. Arneke. 1982. Effect of potassium on the water potential, the pressure potential, the osmotic potential and cell elongation in leaves of Phaseolus vulgaris. Plant Physiol. 54: 402-408. [DOI:10.1111/j.1399-3054.1982.tb00699.x]

95. Miller, W.B. 1993. Lilium longiflorum. In: De Hertogh A., and M. Le Nard (eds.) The Physiology of Flower Bulbs, Elsevier, Amsterdam. pp 391-422.

96. Mortazavi, S.N. and S.F. Talebi. 2009. The effect of silver nitrate and sucrose treatments on the maintenance of cut flowers of ordinary Lilium cultivar, 6th Iranian Congress of Horticultural Sciences, Rasht. https://civilica.com/doc/99841 (In Persian).

97. Muchow, R.C. 1988. Effect of nitrogen supply on the comparative productivity of Maize and Sorghum in a semi-arid tropical environment. I. Leaf Growth and Leaf Nitrogen. Field Crops Res. 18: 393-401. [DOI:10.1016/0378-4290(88)90055-X]

98. Niedziela, C.E., S.H. Kim, P.V. Nelson, and A.A. De Hertogh. 2008. Effects of N-P-K deficiency and temperature regime on the growth and development of Lilium longiflorum 'Nellie White'during bulb production under phytotron conditions. Sci. Hortic. 116(4): 430-436. [DOI:10.1016/j.scienta.2008.02.015]

99. Rani, N., R. Kumar, and K.K. Dhatt. 2005. Effect of nitrogen levels and growing media on growth, flowering and bulb production of Lilium cultivars. J. Ornam. Hort. 8(1):36-40.

100. Ruamrungsri, S., W. Bumphenyoo, R. Sriwichai, and P. Apavatjrut. 2007. Effects of nitrogen, phosphorus and potassium deficiencies on growth and development of Globba rosea Gagnep. Agr. Nat. Resour. 41: 72-83.

101. Salo, T., T. Suojala, and M. Kallela. 2002. The effect of fertigation on yield and nutrient uptake of cabbage, carrot and onion. Acta. Hort. 571: 235-241. [DOI:10.17660/ActaHortic.2002.571.28]

102. Sarmadnia, Gh. and A. Koocheki. 2012. Physiology of Crop Plants. Mashhad University Pub, Iran. 400 p. (In Persian).

103. Shah, A., S.D. Lal, and J.N. Seth. 1984. Effect of different levels of nitrogen, phosphorus on growth, flowering and corm yield of gladiolus cv. Vinks Glory. Prog. Hort. 16(3-4): 305-307.

104. Sharma, R.P. 1992. Effect of planting material, nitrogen and potash on bulb yield of rainy-season onion (Allium cepa). Indian J. Agron. 37(4): 868-869.

105. Sheikh Babaei, M. and M. Esna-ashari, and F. Dashti. 1388. The effect of urea and two biofertilizers of azotobacter and nitroxin on some quantitative and qualitative properties of fenugreek (Trigonella foenumgraecum L.). 6th Iranian Congress of Horticultural Sciences, Rasht. https://civilica.com/doc/100259 (In Persian).

106. Taiz, L. and E. Zeiger. 2006. Plant Physiology. 4th ed. Sinauer Associates, Inc, Sunderland, MA. 764p.

107. Varshney, A., P.S. Srivastava, and V. Dhawan. 2001. Effect of doses of nitrogen, phosphorus and potassium on the performance of In vitro propagated bulblets of Lilium sp. (Asiatic hybrids). Curr. Sci. 81(10): 1296- 1298.

108. Wissuwa, M., G. Gamat and A.M. Ismail. 2005. Is root growth under phosphorus deficiency affected by source or sink limitation? J. Exp. Bot. 56: 1943-1950. [DOI:10.1093/jxb/eri189]

109. Youssef, A.S.M. and M.A. El-Aabdel. 2014. Effect of kinetin and mineral fertilization on growth, flowering, bulbs productivity, chemical compositions and histological features of Hippeastrum vittatum plant. J. Plant Prod. Mansoura Univ. 5(3): 357. [DOI:10.21608/jpp.2014.53652]

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Zarifianffard Z, Ghaemi Ghehsareh M, Barzegar R. Effect of Different Concentrations of Nitrogen, Phosphorus and Potassium on Growth Indices of Oriental Lily (Lilium spp.) Bulblet. IJHST 2022; 23 (3) :539-554
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