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Growth, yield and crop quality performance of sugarcane cultivar Co 957 under different rates of application of nitrogen and potassium fertilizers

Published online by Cambridge University Press:  27 March 2009

A. Y. Abayomi
Affiliation:
Sugar Research Institute, University of llorinIlorin, Nigeria

Summary

Screen house and field experiments at the Sugar Research Institute, University of Ilorin, Nigeria were carried out to evaluate the effects of various amounts of nitrogen and potassium fertilizers singly and in combinations on growth, yield and crop quality of sugarcane cultivar Co 957. Growth rate, number of green leaves per mother shoot, leaf area, plant height, stalk length and tiller density were significantly affected by nitrogen application but were not significantly affected by potassium. Similarly, cane tonnage was significantly affected by nitrogen but not by potassium. In the screen house trial, responses to N were linear from 0 to 160 kg N/ha. However, in the field, while the measured variables also increased linearly with N application from 0 to 160 kg N/ha, they decreased at 200 kg N/ha.

Cane quality decreased with increased nitrogen and potassium. However, these reductions were significant only at the highest level of nitrogen and potassium. There were no significant nitrogen and potassium interactions on any of the variables studied.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1987

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References

Azeredo, D. F. De, Robina, A. A. & Manhales, M. S. (1980). Mineral fertilizing (NPK) of plant cane in the States of Rio de Janeiro and Minas Gerais. Plana/sucar (Brazil) 95, 1928.Google Scholar
Borden, R. J. (1936). Some interesting cane-tonnage, purity, soil-analyses, juice analyses relationships. Hawaiian Planters' Record 40, 1119.Google Scholar
Borden, R. J. (1937). Cane growth studies. The effect of sunlight on the utilization of nitrogen and potash by H 109 cane. Hawaiian Planters' Record 41, 35.Google Scholar
Borden, R. J. (1944). A search for guidance in the nitrogen fertilization of the sugarcane crop. II. The first ratoon crop. Hawaiian Planters' Record 48, 271306.Google Scholar
Borden, R. J. (1945). The effect of nitrogen fertilization upon the yield and composition of sugarcane. Hawaiian Planters' Record 49, 259312.Google Scholar
Castellanos, A., Gerret, J. L. & Lopez, E. (1978). Study of different N.P.K. levels in sugarcane (Saccharum officinarum) Var. CP 5243. Agrotecnia de Cuba (Cuba) 10, 3549.Google Scholar
Castellanos, A., Gerret, J. L., Reyes, R. & Pimentel, B. (1980). Study on four nitrogen levels in four sugarcane varieties. Abstracts on Tropical Agriculture, vol. 6, no. 6, 129 (abstract no. 30940).Google Scholar
Chaudhry, B. A. (1983). Low sugarcane productivity in Negros – Why? Sugarland 20 (6), 47.Google Scholar
Chaudhry, B. A. & Corpuz, I. T. (1984). Profitability of fertilizers and dolomite application to sugarcane in Philippines. Sugar y Azucar 79 (3), 2144.Google Scholar
Clements, H. F. (1964 a). Foundations for objectivity in tissue diagnosis as a guide to crop control, in plant analysis and fertilizer problems. IV. American Society of Horticultural Science, pp. 90110.Google Scholar
Clements, H. F. (1964 b). Interaction factors affecting yield. Annual Review of Plant Physiology 15, 409442.CrossRefGoogle Scholar
Clements, H. F. (1970). Crop logging of sugarcane: nitrogen and potassium requirement and interactions using two varieties. Hawaii Agricultural Experimental Station Technical Bulletin 81, p. 48.Google Scholar
Clements, H. F. (1980). Sugarcane Crop Logging and Crop Control: Principles and Practices in Honolulu, 520 pp. The University Press of Hawaii.CrossRefGoogle Scholar
Clements, H. F. & Kubota, T. (1943). The primary index, its meaning and application to crop management with special reference to sugarcane. Hawaiian Planters' Record 47, 257297.Google Scholar
Clements, H. F., Shigeura, G. & Akamine, E. K. (1952). Factors affecting the growth of sugarcane. Hawaii Agricultural Experimental Station Technical Bulletin 18, pp. 6370.Google Scholar
Degade, V. G. (1976). Effect of potassium fertilization on yield and quality of sugarcane. Indian Sugar 26 (4), 195197.Google Scholar
Elwali, A. M. O. & Gascho, G. J. (1983). Sugarcane response to phosphorus and potassium and DRIS corrective treatments on Florida Histosols. Agronomy Journal 75, 7583.Google Scholar
Evans, H. (1936). Some data on the effect of late heavy dressing of nitrogenous fertilizer on the growth and metabolism of sugarcane in Mauritius. Sugar Research Station, Mauritius Bulletin 10, p. 9.Google Scholar
Fasihi, Shahab-Ud-Din & Malik, K. B. (1980). Studies on the effects of various nitrogen and irrigation levels on the yield of sugarcane varieties BL.4 and L. 116. Proceedings of the 17th Congress of the International Society of Sugarcane Technologists, pp. 5267.Google Scholar
Gascho, G. J. & Kidder, G. (1979). Response to phosphorus and potassium and fertilizer recommendations for sugarcane in South Florida. University of Florida Agricultural Experimental Station Technical Bulletin No. 809, p. 29.Google Scholar
Golden, L. E. & Abdol, I. B. (1977). Effect of nitrogen and potassium fertilizers and soil type on yield components and nutrient uptake of four sugarcane varieties. Bulletin Agricultural Experimental Station No. 700, p. 60.Google Scholar
Gregory, F. G. & Baptiste, E. C. D. (1936). Physiological studies in plant nutrition. V. Carbohydrate metabolism in relation to nutrient deficiency and to age in leaves of barley. Annals of Botany 50, 579.Google Scholar
Humbert, R. P. (1968). The Growing of Sugarcane, 780 pp. Amsterdam: Elsevier.Google Scholar
Innes, R. F. (1959). The potash manuring of sugarcane. Proceedings of the 10th Congress of the International Society of Sugarcane Technologists, pp. 441450.Google Scholar
Innes, R. F. (1960). The nitrogen, phosphorus and potassium requirements of sugarcane. Journal of the Science of Food and Agriculture 11, 299309.Google Scholar
Innes, R. F. & Chinloy, T. (1951). The effects of fertilizers on sugarcane. Proceedings of the 1st Congress of British West Indies Sugar Technologists, pp. 5672.Google Scholar
Innes, R. F. & Chinloy, T. (1953). The effects of fertilizers on sugarcane. I. Potash. Jamaica Association of Sugar Technologists Journal 15, 1.Google Scholar
Le Grand, F., Burdine, H. W. & Thomas, F. H. (1961). Phosphorus and potassium requirements for growing sugarcane on organic soils in South Florida. Sugar Journal 24, 2226.Google Scholar
Ledon, A. C. & Gonzales, F. A. Z. (1950). Factors affecting sugarcane growth. Proceedings of Cuban Sugar Technologists Association 24, 563572.Google Scholar
Naidu, K. M., Venkataramana, S. & Gururaja Rao, P. N. (1983). Varietal variation in stomata inductanse and diffusion resistance during moisture stress and recovery in sugarcane. Proceedings of the 18th Congress of the International Society of Sugarcane Technologists, pp. 567584.Google Scholar
Odofin, J. A. (1980). Field Technical Annual Report, Bacita Estate.Google Scholar
Pal, B. P. (1971). Fertilizer use and strategy. Indian Farming 20 (4), 5.Google Scholar
Parashar, K. S., Hukkeri, S. B., Sadaphal, M. N. & Sharma, R. P. (1980). Studies on the effect of soil water stress and level of nitrogen on spring planted sugarcane. Proceedings of the 17th Congress of the International Society of Sugarcane Technologists, pp. 494503.Google Scholar
Saint, S. J. (1933). Fertilizer trials with sugarcane. Barbados Agricultural Journal 2, 2.Google Scholar
Samuels, G., Hugo-Lopez, M. A. & Landrau, P. Jr (1952). Influence of fertilizer on sucrose content of sugarcane. Sugar 11., 49.Google Scholar
Singh, S. & Reddy, M. S. (1980). Growth, yield and juice quality performance of sugarcane varieties under different soil moisture regimes in relation to drought resistance. Proceedings of the 17th Congress of the International Society of Sugarcane Technologists, pp. 541555.Google Scholar
Tanimoto, T. & Burr, G. O. (1959). The growth of sugarcane as influenced by nitrogen fertilization. Proceedings of the 10th Congress of the International Society of Sugarcane Technologists, pp. 450562.Google Scholar
Watson, D. J., Thorne, G. N. & French, S. A. W. (1958). Physiological causes of differences in grain yield between varieties of barley. Annals of Botany 22, 321352.Google Scholar
Williams, C. N. (1975). The Agronomy of the Major Tropical Crops, pp. 5065. Kuala Lumpur: Oxford University Press.Google Scholar
Yuen, Q. H. & Borden, R. J. (1937). Chemical analyses as an aid in the control of nitrogen fertilization. Hawaiian Planters' Record 41, 353383.Google Scholar