Rooting and growth of chrysanthemum cultivars in response to different levels of calcium
Paper Details
Rooting and growth of chrysanthemum cultivars in response to different levels of calcium
Abstract
An experiment was conducted at Ornamental Horticulture Nursery, Department of Horticulture, University of Agriculture Peshawar, Pakistan in 2012. The cuttings of four cultivars (Candy Floss, Lilian Jackson, Elizabeth Lawson and Herry Revil) were treated with calcium at the rate of 0, 10, 20, 30 and 40%. Increase in plant height (26.40cm) and number of roots plant-1 (35.92) was observed when calcium was applied at the rate of 30% while the minimum days (16.75) to sprouting and higher sprouting percentage (63.33%) were noted in cuttings treated with no calcium. Cultivar Elizabeth Lawson showed best result pertaining plant height (24.80cm) and number of roots per plant (34.17). Since calcium and cultivars interaction showed significant result among most of the parameters observed hence for good rooting and resultant growth, cuttings of Cultivar Elizabeth Lawson with the application of 30% calcium is recommended.
Anjum MA, Nawaz A, Gul S, Naveed F. 2007. Effect of Various Sucker Sizes and Planting Times on Flowering and Vase-Life of Chrysanthemum. Pakistan Journal of Agriculture science 44(3), 2007.
Gokongwei J. 2009. Growing Chrysanthemum. Pinoy Bisnes. 1-2.
Hepler PK, Wayne RO. 1985. Calcium and Plant development. Annul Review Plant physiology 36, 397-439.
Harper JF, Breton G, Harmon A. 2004. Decoding Ca2+ signals through plant protein kinases. Annul Review Plant Biology 55, 263–288.
Lanteri ML, Pagnussat GC, Limatiina L. 2005. Calcium and calcium-dependent protein kinases are involved in nitric oxide- and auxin-induced adventitious root formation in cucumber. Journal of Experimental Botnay 57(6), 1341-135.
Malvi U. 2011. Interaction of micronutrients with major nutrients with special reference to potassium. Karnataka Journal of Agriculture Science 24(1), (106-109) 2011.
Nawaz A, Gul S, Anjum MA, Naveed F. 2009. Effect of Various Sucker Sizes and Planting Times on Growth and Flower Yield of Chrysanthemum. Pakistan Journal of Agriculture Science 46(1), 2009.
Navale MU, Akalade SA, Desai JR, Nannavare PV. 2010. Influence of plant growth regulators on growth, flowering and yield of Chrysanthemum (Dendranthema grandiflorum). International Journal of Pharma & Bio Science 1(2), 396-399.
Subhendu S, Pal P. 2005. Anthocyanin content of spray Chrysanthemum cultivars under polyhouse and open field conditions. indian Journal of Natural Products and Resources 1(2), June 2010, 236-242.
Schwambach J, Fadanelli C, Fett-neto AG. 2005. Mineral nutrition and adventitious rooting in micro cuttings of Eucalyptus globulus. Tree Physiology 25, 487–494.
Skandari HE. 2011. The Importance of Iron(Fe)in Plant Products and Mechanism of Its Uptake by Plants. Journal of Applied Environmental and Biological Sciences 1(10), 448-452, 2011.
Steel RGD, Torrie JH. 1997. Analysis of covariance, In: Principles and Procedures of statistics: a biometrical Approach, McGraw-Hill, New York. 401-437.
Ali Rahman, Gohar Ayub, Muhammad Shahab, Abbas Jamal, Anwar Rashid, Zubair Aman, Jawad Ali, Khaleeq Ur Rahman (2016), Rooting and growth of chrysanthemum cultivars in response to different levels of calcium; IJB, V8, N2, February, P124-129
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