Effect of different Nitrogen levels on the growth of Chrysanthemum cultivars

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Research Paper 01/05/2016
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Effect of different Nitrogen levels on the growth of Chrysanthemum cultivars

Naveed Malik, Gohar Ayub, Mohammad Ilyas, Abdul Mateen Khattak, Manzoor Ahmad, Zahid Hussain, Gulzar Ullah, Luqman
Int. J. Biosci.8( 5), 202-211, May 2016.
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Abstract

Effect of different nitrogen levels on the growth of Chrysanthemum cultivars” was determined at Horticulture farm, The University of Agriculture, Peshawar during spring 2014. The experiment was laid out in Randomized Complete Block Design (RCBD) having split plot arrangement with three replications. Four levels of nitrogen (0, 50, 100 and 150 kg ha-1) and four cultivars of Chrysanthemum (Candy Floss, Lillian Jackson, Elizabeth Lawson and Harry Revill) were used during the study. Both cultivars and nitrogen levels were significantly different among most of the growth parameters. Among nitrogen levels, the maximum number of days to sprouting of lateral shoot (20.89) was observed in control treatment. Maximum growth rate week-1 (4.88 cm), number of lateral shoots plant-1 (43.73), number of leaves plant-1 (205.96), leaf area (17.35 cm2), number of roots plant-1 (55.07), root length (15.63 cm) and root diameter (4.87 mm) was recorded at 150 kg N ha-1. In case of cultivars, maximum number of days to sprouting of lateral shoot (19.94) was recorded in cultivar Candy Floss. The maximum growth rate week-1 (5.09 cm), number of lateral shoots plant-1(42.62), number of leaves plant-1 (192.71), leaf area (17.15 cm2), number of roots plant-1 (52.74), root length (16.05 cm) and root diameter (5.04 mm) was observed in cultivar Elizabeth Lawson. It was concluded that the best performance were recorded at 150 kg N ha-1 in cultivar Elizabeth Lawson. Hence cultivar Elizabeth Lawson is recommended to be grown for good growth at 150 kg N ha-1 in Peshawar region.

VIEWS 10

Alam SM, Naqui MH. 2003. Nitrogen and potassium andits role in crop growth. Dawn newspaper.Dec.10.

Arora JS.1990. Introductory Ornamental Horticulture. Kalyani Publishers, New Delhi. 48 P.

Avari RF. 1993. Effect of spacing and nitrogen levels on growth, flowering and yield of African marigold (Tagetes erecta L) cultivar Lemon. MSc Thesis submitted to Gujrat Agriculture University Navsari Campus Gujrat.

Belgaonkar DV, Bist MA, Wankade MB. 1996. Effect of levels of nitrogen and phosphrous with different spacing on growth and yields of annual Chrysanthemum. Journal of soil and crop 6(2), 154-158.

Beniwal BS, Sukhbir VP, Singh, Dahiya SS. 2006. Influence of Nitrogen and Phosphrous application on flower yield and nutrient content of Chrysanthemum. Cv Flirst. Haryana Journal of Horticulture Science 35(1), 780-790.

Bergmann W. 1992. Nutritional Disorders of plants development. Visual and analytical diagnosis. Gustav Fischer, Jena and New York.741.

Boase V. 1997. Chrysanthemum. The Ball Red Book. West Chicago, IL.

Chen W, Luo JK, Shen QR. 2005. Effect of NH4+NO3 ratio on growth and some physiological parameters of Chinese cabbage cultivars. Pedosphere, 15(3), 310-318.

Collins RA, Ng TB, Fong WT, Wan CC, Yeung HW. 1997. A comparision of human immunodeficiency virus type 1 inhibition by partially purified aqueous extracts of Chinese medicinal herbs. Life Science 60(23), 45-51.

Crater GD. 1992. Introduction to floriculture. Academic press New York. Potmums. 261-285.

Dorageerao AVD, Mokashi AN, Patil VS, Venugopal CK, Lingaraju S, Koti RV. 2012. Effect of graded levels of nitrogen and phosphrous on growth and yield of garland Chrysanthemum. Karnataka Journal of Agriculture Science. 25(2), 224-228.

Gokongwei J. 2009. Growing Chrysanthemum. Pinoy Bisnes, 1-2 P.

Hu CQ, Chen K, Shi Q, Kilkuskie RE, Cheng YC, Lee KH. 1994. Anti-AIDS agents, 10. Acacetin-7-O- beta-D- galactopyranoside, ananti HIV principle from (Chrysanthemum morifolium) and a structure activity correlationwith some related flavonoid. Journal of Natural Production. 57(1), 42-51.

Huang L, Paparozzi ET, Gotway C. 1997. The effect of altering nitrogen and sulphure supply on the growth of cut Chrysanthemum. Journal of American Society Horticulture secience 122(4), 559-564.

Hugar AH. 1997. Influence of spacing, nitrogen and growth regulators on growth, flower yield and seed yield in gaillardia (Gaillardia pulchella) Var. Picta fouger. PhD. Thesis, University of Agriculture Science Dharwad.

John AQ, Paul TM, Tanbi MI. 1991. Effect of nitrogen and spacing on growth and flower production of zinnia. Advance plant science. 4, 1-7.

Joshi NS, Barad AV, Pathak DM. 2013. Response of Chrysanthemum varieties to different levels of nitrogen and phosphrous. Journal of chemical, Biological and Physical science. 3(2), 1593-1594.

Kessler JR. 1996. Chrysanthemum commercial green house productin. Auburn University. 1-3.

Khan GA, Sajid M, Amanullah.2007. Response of Dhalia ( Dhalia pinnata) to different levels of nitrogen alone and in combination with constant doses of phosphorous and potassium. American Eurasian Journal of sustainable Agriculture 1(1), 25-31.

Khan MA, Zaif K, Ahmad I. 2004. Influence of Nitrogen on the growth and flowering of zinnia( Zinnia elegans) cv. Meteror. Asian Journal of Plant Science 3(5), 571-573.

Lawlor DW.2002. Carbon and nitrogen assimilation in relation to yield mechanisms are the key to understanding production systems. Journal Of Experimental Botany 53, 773-787.

Li Y, Jiang Y, Li Z, Zhao L. 2009. A study of phosphrous uptake kinetic characteristic of four terrestrial economic plants. Bejing International Environmental Technology Conference Beijing. 140-145.

Liu W, Zhu DW, Liu DH, Geng MJ, Zhou WB, Mi WJ, Yang TW, Hamilton D. 2010. Influence of nitrogen on the primary and secondary metobalisim and synthesis of flavonoids in (Chrysanthemum morifolium). Journal of Plant Nutrition. 33, 240-254.

Macz O, Paparozzli ET, Stroup WW. 2001. Effect of nitrogen and sulfur application on pot Chrysanthemum (Chrysanthemum morifolium) production and post harvest performance. Leaf nitrogen and sulfur concentrations. Journal of Plant Nutrition 24, 111-129.

Maheshwar DL. 1997. Influence of nitrogen and phosphrous on growth and flower production in Chrysanthemum (Chrysanthemum morifolium). MSc Thesis. University of Agriculture Science Bangalore.

Navale MU, Akalade SA, Desai JR, Nannavare PV. 2010. Influence of plant growth regulators on growth, flowering and yield of Chrysanthemum (Chrysanthemum morifolium). International Journal of Pharmacy and Biological Science 1(2), 396-399.

Rachayanavar CS. 1987. studied on the influence of intra spacing with different levels of nitrogen and phosphrous on growth and flower production in Chrysanthemum. Thesis Abstract 11(4), 279-80.

Schuch UK, Redak RA, Bethke JA. 1998. Cultivar fertilizer and irrigation effect vegetative growth and susceptibility of Chrysanthemum to Western flower thrips. Journal of American Society of Horticulture Science 123(4), 727-733.

Shafi M, Ishtiaq M, Rehman N. 2001. Response of (Gaillardia pulchellal) cv.Picta to different levels of nitrogen with constant doses of Phosphrous and potassium. MSc. Thesis. Department of Horticulture University of Agriulture Peshawar.

Singhlodhi AK, Tiwari GN. 1993. Nutritional requirement of Chrysanthemum (Chrysanthemum morifolium) under field conditions. Fertilizer News 38, 39-45.

Spaargaren JJ. 2002. Cultivation of year round cut Chrysanthemum.

Verma SK, Angadi SJ, Patil VS, Mokashi AN, Mathad JC, Mummigati UV. 2012. Growth, yield and quality of Chrysanthemum (Chrysanthemum morifolium Ramat) Cv.Raja as influenced by integrated nutrient management. Karnataka Journal of Agriculture Science 24(5), 681-683.

Welfret J, Raulston JC. 1973. Garden mums for Florida landscapes. Proc. Florida State Hort.Soc. 86, 474-477.

Yoon HS, Goto T, Kageyama Y. 2000. Mineral uptake as influenced by growing seasons and developmental stages in spray Chrysanthemum grown under a hydrophonic system. Journal of Japanees Society of Horticulture Science 69, 255-260.