Organic Manure, Phosphate and Potassium Fertilization in Relation to Growth, Productivity and Quality of Sugarcane | ||||
Journal of the Advances in Agricultural Researches | ||||
Article 8, Volume 24, Issue 3 - Serial Number 91, September 2019, Page 342-353 PDF (870.71 K) | ||||
Document Type: Research papers | ||||
DOI: 10.21608/jalexu.2019.163455 | ||||
View on SCiNiTO | ||||
Authors | ||||
Mahmoud Gomaa1; Essam Esmael Kandil1; Ashraf Bakry El- Taib2; Ahmed fathy Hashem1 | ||||
1Plant Production Department, The Faculty of Agriculture (Saba Basha), Alexandria University | ||||
2Agronomy Department, The Faculty of Agriculture and Natural Resources, Aswan University | ||||
Abstract | ||||
The present study was carried out at the private farm, Kom-Ombo-Aswan, Upper Egypt, during the two growth seasons of 2017/2018 and 2018/2019 to study the effect of organic, phosphate and potash fertilization on productivity and quality of sugarcane plant crop (Commercial variety, Giza Taiwan = C 9). The experimental design of this study was a split- split plot design in three replicates for both seasons. Three levels of organic manure (10, 20 and 30 m3/fed) were randomly assigned in the main plots, three phosphate fertilizer levels (100, 200 and 300 kg of mono super calcium phosphate/fed) were allocated in the sub plots and three potash fertilizer levels (50, 100 and 150 kg in the form of potassium sulphate/fed) were randomly distribution in the sub- sub plots. Net plot size was 4.5 m x 8.0 m in 75 cm spaced trenches. The results revealed that increasing organic manure from 10 to 30 m3/fed increased productivity of sugarcane. Moreover, increasing the rate of phosphate fertilizer up to 200 kg and potassium sulfate up to 150 kg/fed recorded the highest yield of sugar cane in both seasons under this study. | ||||
Keywords | ||||
sugarcane; Organic manure; phosphate; potassium; fertilizer; growth; productivity; quality | ||||
References | ||||
Abdul Ghaffar, E., N. Akbar, S. H. Khan, K. Jabran,R. Q. Hashmi, A. Iqbal and M. A. Ali (2012). Effect of trench spacing and micronutrients on growth and yield of sugarcane (Saccharum officinarum L.). Austr. J. Crop Sci., 6(1):1-9. Albuquerque, A.W., L. de A. Sá1, W. A. R. Rodrigues, A. B. Moura and M. S. O. Filho (2016). Growth and yield of sugarcane as a function of phosphorus doses and forms of application. R. Bras. Eng. Agríc. Ambiental, 20 (1):29-35. Bokhtiar, S. M., G. C. Paul, and K. M. Alam (2008). Effects of organic and inorganic fertilizer on growth, yield, and juice quality and residual effects on ratoon crops of sugarcane. J. Pl. Nut., 31: 1832–1843. Caione, G., M. T. R. Teixeira, A. Lange, A. F. Silva and F. M. Fernandes (2011). Modos de aplicação e doses de fósforo em cana-de-açúcar forrageira cultivada em Latossolo Vermelho-Amarelo. Revista de Ciências Agro-Ambientais, (9):1- 11. CoStat, Ver. 6.4 (2005). Cohort software798 light house Ave. PMB320, Monterey, CA93940, and USA. email: info@cohort.com and Website: http://www.cohort.com/DownloadCoStatPart2.html FAO (2018). Food and Agriculture Organization Statistics, FAOSTAT. http://www.fao.org/faostat Feltrin, M.S., M.G.D.P Lavanholi., H.S. Silva and R.M. Prado (2010). Adubação potássica na produtividade da soqueira de canade-açúcar colhida sem queima. Nucleus. 7(1): 307-314. Gareau, S.E. (2004). Analysis of Plant Nutrient Management Strategies: Conventional and Alternative Approaches, Agriculture and Human Values, 21: 347-353. Gomez, K. A. and A. A. Gomez (1984). Statistical Procedure for Agricultural Research, (2 eds.), Wiley, New York, USA. pp. 680. Hawkesford, M., W. Horst, T. Kichey, H. Lambers, J. Schjoerring, I.S. Müller and P. White (2012). Functions of macronutrients: Potassium. In: Marschner P. (ed) Mineral Nutrition of Higher Plants, Elsevier, Adelaide Jadoon, M. A., A. U. Bhatti, F. Khan and Q. A. Sahibzada (2003). Effect of farm yard manure in combination with NPK on the yield of maize and soil physical properties. Pakistan Journal of Soil Science 22: 47–55. Korndörfer, G.H. and L. A. Oliveira (2005). Opotássio na cultura da cana-de-açúcar. In: Yamada T, Roberts TL (eds) Potássio na agricultura brasileira. Esalq/USP, Piracicaba. Korndörfer, G.H., A.C.Ribeiro and L.A.B. Andrade (1999). Cana-deaçúcar. In: Ribeiro AC, Guimarães PTG, Alvarez VH (eds) Recomendações para o uso de corretivos e fertilizantes em Minas Gerais: 5th aproximação. CFSEMG, Viçosa Kumar, N. (2012). Productivity, quality and nutrient balance in spring sugarcane (Saccharum spp. hybrid complex) under organic and inorganic nutrition. Ind. J. Agronomy 57 (1): 68-73. Kumar, S., N.S. Rana, R. Chandra and K. Sandeep (2007). Effect of phosphorus and potassium doses and their application schedule on yield, juice quality and nutrient use efficiency of sugarcane ratoon crop sequence. J Indian Soc Soil Sci., 55(4): 122-142. Meyer, J. H. and R.A. Wood (2001). The effects of soil fertility and nutrition on sugarcane quality: A review. South African Sugar Technologists Association,75:242-245. Otto, R., G.C. Vitti and P.H.C. Luz (2010). Potassium fertilizer management for sugarcane. Rev Bras Ci Solo., 34(4):1137- 1145. Page, A. I., R. H. Miller and D. R. Keeney (1982). Methods of soil analysis. Part 2. Chemical and Microbiological properties. Amer. Sci. Agron. Madison. Wisconsin. Pancelli, M. A., R.M. Prado, R. A. Flores, H. J. Almeida, L. R. Moda and J.P. S. Junior (2015). Growth, yield and nutrition of sugarcane ratoon as affected by potassium in a mechanized harvesting system. Aust. J. Crop Sic., 9(10):915-924. Santos, H. Q., D. M. Fonseca, R.B. Cantarutti, V. V. H. Alvarez and D. N. Júnior (2002).Níveis críticos de fósforo no solo e na planta para gramíneas forrageiras tropicais em diferentes idades. Revista Brasileira de Ciência do Solo, 26:173-182. Santos, V. R., G. M. Filho, A. W. Albuquerque, J. P. V. Costa, C. G. Santos and A. C. I. Santos (2009). Crescimento e produtividade agrícola de cana-de-açúcar em diferentes fontes de fósforo. Revista Brasileira de Engenharia Agrícola e Ambiental, v.13, p.389-396, 2009. Shukla, S.K., R.L.Yadav, P.N. Singh, and I. Singh (2009). Potassium nutrition for improving stubble bud sprouting, dry matter partitioning, nutrient uptake and winter initiated sugarcane (Saccharum spp. hybrid complex) ratoon yield. Eur. J. Agron., 30(1):27-33. Silva, F.C., T. Muraoka, P.R.C.Castro, S. Tavares, P.C.O. Trivelin, M.J.L. Brossi, J.V.D. Packer and M.B. Santos (2007). Avaliacão da adubação com nitrogênio e potássio em soqueiras de canade-açúcar sem queima. Embrapa, Campinas. 32 p. Singh, G.B. and A. Swarup (2000). Lessons From Long Term Fertility Experiments, Fertilizer News, 45(2):21-24. Singh, G.K., R.L. Yadav and S.K. Shukla (2010). Effect of planting geometry, nitrogen and potassium application on yield and quality of ratoon sugarcane in sub-tropical climatic conditions. Indian J. Agric. Sci., 80(12):1038-1042. Soumare, M. F., M. G. Tack, and M. G. Verloo (2003). Effects of municipal solid waste compost and mineral fertilization on plant growth in two tropical agricultural soils of Mali. Bioresource Tech. 86: 15–20. Thakur, D.S. and K.D. Sharma (2005). Organic farming for sustainable agriculture and meeting the challenges of food security in 21st century: An Economic Analysis, Indian J. Agric. Econ., 60(2):205-219. Weber, H., E. Daros, J.L.C. Zambon, O.T. Ido and J.D. Barela (2002). Ratoon sugarcane productivity recovering with NPK fertilization. Scientia Agraria., 2(1):73-77. | ||||
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