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IJSTR >> Volume 6 - Issue 1, January 2017 Edition

International Journal of Scientific & Technology Research  
International Journal of Scientific & Technology Research

Website: http://www.ijstr.org

ISSN 2277-8616

Growth Analysis Of Transplanted Sugarcane Bud Chips Seedling In The Dry Land

[Full Text]



Wawan Sulistiono, Taryono, Prapto Yudono, Irham



Sugarcane, bud chips, dry land, growth; CGR, NAR.



Growth of sugarcane transplanted bud chips seedlings in the dry land was assessed during 2014-2015 under different levels of interrow spacing i.e. 30 x 100, 45 x 100, 60 x 100, and 75 x 100 cm. The interrow spacing of 60 and 75 cm resulted in an increase in leaf area significantly compared with 30 and 45 cm interrow spacing. Widening the space of up to 75cm did not significantly decrease the leaf area index (LAI) compared with the row space of 30 cm in the grand growth phase and the maturity phase. Planting at interrow spacing of 60 to 75 cm in rainfed dryland produced the highest the crops growth rate (CGR) and net assimilation rate (NAR) in the clones of PS864, KK, BL, and VMC during the early phase of maturity, i.e. 8-9 months after planting.



[1] F.P Gardner, R. B. Pearce, dan R. L. Mitchell, “Physiology of Crop Plants”, H. Susilo, Eds., Universitas Indonesia Press, Jakarta, pp. 247, 1991.

[2] B.T. Hongwei, D. Chenglin, and Z. Liuqiang, “Effect of Magnesium Fertilizer on sustaining Upland Agricultural Development in Guangxi Province,” Better Crops International, vol.14, no.2, pp.1-3, 2000.

[3] A.K. Gana, “Cowdung: soil amendment agent for the sandy upland sugarcane ecology in Nigeria,” Journal of Agricultural Technologi, vol. 7, no. 2, pp. 497-505, 2011.

[4] M.A. Silva, J.A.G. Silva, J. Enciso, V. Sharma, and J. Jifon, “Yield components as indicators of drought tolerance of sugarcane,” Sci. Agric. (Piracicaba, Braz.), vol. 65, no. 6, pp. 620-627, 2008.

[5] M. Aslam, M.S.I. Zamir, I. Afzal, M. Yaseen, M. Mubeen, A. Shoaib, “Drought Stress, its Effect on Maize Production and Development of Drought Tolerance through Potassium Application,” Cercetări Agronomice în Moldova, vol. 2, no.154, pp. 99-114, 2012.

[6] U. Farooq, S. Mehmood, S. Afghan, A. Shahzad, And M. Asad, “Comparative Study on Agro-Physiology Of Sugarcane (Saccharum Officinarum L.) Genotypes at Different Irrigation Co-Efficient Values,”. Pak. J. Bot., vol. 47, no. 2, pp.527-532, 2015.

[7] J.P. Graca, F.A. Rodigues, J.R.B. Farias, M.C.N. Oliveira, C.B.H. Campo, S.M. Zingaretti, “Physiological parameters in sugarcane cultivarssubmitted to water deficit,” Braz. J. Plant Physiol, vol. 22, no. 3. pp.187-197, 2010.

[8] V.B. Medeiros, E.C. Silva, R.J.M.C. Nogueira, M.M. Teixeira, M.S. Buckeridge, “Physiological limitations in two sugarcane varieties under water suppression and after recovering,” Theoretical and Experimental Plant Physiology, vol. 25, no. 3, pp. 213-222, 2013.

[9] D. Zhao, B. Glaz, and J.C. Comstock, “Sugarcane leaf photosynthesis and growth characters during development of water deficit stress,” Crop Science, no. 53, pp.1066-1075, 2013,

[10] M.S. Islam, M.A.S. Miah, M.K. Begum, M.R. Alam, and M.S. Arefin, “ Growth, Yield and Juice Quality of Some Selected Sugarcane Clones Under, Water-Logging Stress Condition,” World Journal of Agricultural Sciences, vol. 7, no. 4, pp. 504-509, 2008.

[11] P.E.R. Marchiori, R.V. Ribeiro, L. de Silva, R. S. Machado, E.C. Machado, M.S. Scarpari, “Plant growth, canopy photosynthesis and light availability in three sugarcane varieties,” Sugar Tech, vol. 12, no. 2, pp. 160-166, 2010.

[12] P. Ramesh, “Effect of different levels of drought during the formative phase on growth parameters and its relationship with dry matter accumulation in sugarcane,” Sugarcane Breeding Institute, Coimbatore, India, J.Agron.Crop Sci., no.185, pp.83-89, 2000.

[13] S. Singh, and P.N.G. Rao, “Varietal differences in growth characteristics in sugarcane,” J. Agric. Sci., no.108, pp. 245-247, 1987.

[14] D. Zhao, B. Glaz, and J.C. Comstock, “Sugarcane Response to Water-Deficit Stress during Early Growth on Organic and Sand Soils,” American Journal of Agriculture and Biological Science, vol. 5, no. 3, pp.403-414, 2010.

[15] A.P. Tianco, ”Preliminary Observations on Using Single eye Transplants and Hole Planting to Reduce Cost of Conventional Planting,” Proc. of 11th International Society of Sugarcane Technology 21, pp.136 – 142, 1995.

[16] S.P. Saini, A.S. Sidhu, P. Singh, “Economics and yield potential of single bud planted autum and spring sugarcane (Saccharum spp.hybrid) intercropped with pulses,” Indian Journal of Sugarcane Technology, vol. 27, no. 1, pp. 7-10, 2012.

[17] M.B. Gill, “Physio-agronomic studies on flat versus pit plantation of autumn and spring Sugarcane (Saccharum officinarum L),” PhD dissertation, Deptt. Agron., Univ.Agric., Faisalabad, Pakistan, 1995.

[18] A. Ghaffar, Ehsanullah, N. Akbar, N. Habibullah Khan, K. Jabran, R.Q. Hashmi, A. Iqbal, and A.A. Muhammad, “Effect of tranch spacing and micronutrients on growth and yield of sugarcane (Saccharum officinarum L),” Australian Journal of Crop Science, vol. 6, no. 1, pp.1-9, 2012.

[19] E.A. Khan, A.G. Sagoo, And G. Hassan, “Physiological Response of Autumn Planted Sugarcane to Soil Moisture Depletion and Planting Geometry on Different Soils under Arid Conditions,” Pak. J. Bot., vol. 43, no. 4, pp.1965-1969, 2011.

[20] S. Yosida, S.A. Navasera, and E.A. Ramirez, “Effect of silica and nitrogen supply on some leaf charecters of the rice plant,” Plant and soil, no. 31, pp.48-56, 1969.

[21] F.P. Gardner, R.B. Pearce, and R.L. Mitchell, Physiology of Crop Plants, Lowa state University Press, pp.187-208, 1985.

[22] R. Kumar, M.P. Singh, and S. Kumar, “Growth Analysis of Wheat (Triticumaestivum L.) Genotypes Under Saline Condition,” International Journal of Scientific & Technology Research, vol.1, no.6, pp.15- 18, 2012.

[23] I.M. Aboagye, T. Terauchi, and M. Matsouka, “Characterization and Preliminary Evaluation of Factors for Early Growth in Sugarcane,” Ghana Jnl Agric.Sci, no.36, pp.121-131, 2003.

[24] M.A. Silva, J.L. Jifon, C.M. Santos, C.J. Jadoski, and A.G. Silva, “Photosynthetic capacity and water use efficiency in sugarcane genotypes subject to water deficit during early growth phase,” Braz.Arch.Biol. Technol,” vol. 56, no.5. pp.735-748, 2013.

[25] D.A. Teruel, V. Baarbieri, and L.A. Ferraro, “Sugarcane leaf area index modeling under different soil water conditions,” Sci. Agric. Piracicaba, no. 54, pp. 39-44, 1997.

[26] M.S. Simőes, J.V. Rocha, R.A.C.L. Lamparell, “Spectral variables, growth analysis and yield of sugarcane,” Sci. Agric. (Piracicaba, Braz.), vol. 62, no. 3, pp.199-207, 2005.

[27] S.C. Datta, Plant Physiology, Wiley Eastem Ltd. New Age Intl. Ltd, New Delhi, India, 1994.

[28] P. Khatkar, and M.S. Kuhad, “Stage sensitivity of wheat cultivars to short terms salinity stress,” Indian J. Pl. Physiol, vol. 5, no.1, pp. 26-31, 2000.

[29] M.U. Chattha, “Studies on growth, yield and quality of sugarcane (Saccharum officinarum L.) under different planting techniques, irrigation, method, water levels and mulch types,” PhD dissertation, Faculty of Agriculture, University of Agriculture, Faisalabad, Pakistan, 172 p, 2007.

[30] R.P. Patil, “Physiological approaches for drought tolerance in sugarcane (Saccharum officinarum L.),” PhD dissertation in Crop Physiology. Departemant of Crop Physiology College of Agriculture Dharwad, University of Agriculture Sciences, Dharwad, 2008.

[31] R.L. Yadav, “Hight Population Density Management in Sugarcane,” Proc.Indian natn.Sci.Acad.B57, no. 3&4, pp.175-182,1991.