Vol.4 , No. 2, Publication Date: Sep. 6, 2019, Page: 8-11
[1] | Md. Marfudul Hoque, Bangladesh Jute Research Institute, Dhaka, Bangladesh; Department of Agricultural Extension Kaptai, Rangamati, Bangladesh. |
[2] | Md. Saheb Ali, Bangladesh Jute Research Institute, Dhaka, Bangladesh. |
[3] | Md. Abdul Alim, Bangladesh Jute Research Institute, Dhaka, Bangladesh. |
[4] | Bornali Mostofa, Bangladesh Jute Research Institute, Dhaka, Bangladesh. |
[5] | Md. Mahbubul Islam, Bangladesh Jute Research Institute, Dhaka, Bangladesh; Bangladesh Jute Research Institute, Dhaka, Bangladesh. |
A fertilizer assessment trial was conducted to observe growth and yield of advanced olitorius breeding line O-0412-9-4 at Jute Agriculture Experimental Station, Manikganj and Rangpur districts of Bangladesh under Bangladesh Jute Research Institute. Results showed that N rates affected yield and yield contributing characters over the control. N 100kg/ha (T3) produced highest fibre at both Manikganj (2.93t/ha) and Rangpur (2.88t/ha) Highest dose of N 125kg/ha showed lower yield than the dose N 100kg/ha. Plant height (3.17m) and base diameter (18.45mm) were obtained highest by N 100kg/ha at Manikganj. The dose P 10Kg/ha contributed maximum yield of fibre. Results also showed that the longest plant and highest base diameter were found with 10kg P/ha. The dose 20kg S/ha showed significantly highest fibre yield and yield contributing characters. The results suggested that the combination dose of N100P10K30S20kg/ha could be considered for producing the breeding line O-0412-9-4.
Keywords
Fertilizer, Fibre Production, Growth, Yield
Reference
[01] | Islam, M. M. and Ali, M. S. (2017). Economic Importance of Jute in Bangladesh: Production, Research Achievements and Diversification. International Journal of Economic Theory and Application, 4 (6): 45-57. |
[02] | Islam, M. M. and Ali, M. S. (2018). Industrial Research Advances of Jute in Bangladesh. International Journal of Agricultural and Biosystems Engineering, 3 (1): 1-9. |
[03] | Islam, M. M. and Ali, M. S. (2017). Agronomic Research Advances in Jute Crops of Bangladesh. AASCIT Journal of Biology, 3 (6): 34-46. |
[04] | Ali, M. S., Hoque, M. M., Gani, M. N. and Islam, M. M.(2017). Variation in Inorganic Fertilizer Is an Important Regulator of Yield Potential in BJRI Mesta-3. American Journal of Environmental Engineering and Science, 4 (6): 78-84. |
[05] | Ali, M. S., Gani, M. N. and Islam, M. M. (2017). Nutrient Management on Growth and Yield of BJRI Tossa Pat 6. Nutr Food Technol Open Access 3 (3): doi http://dx.doi.org/10.16966/2470-6086.147. |
[06] | Ali, M. S., Gani, M. N. and Islam, M. M. (2017). Efficiency of BJRI Kenaf-4 Yield under Different Fertilizer Levels. American Journal of Agriculture and Forestry, 5 (5): 145-149.doi: 10.11648/j.ajaf.20170505.12. |
[07] | Ali, M. S., Hossen, M., Ahmed, B., Gani, M. N. and Islam, M.M. (2017). Jute Seed Yield Response to Irrigation and Nitrogen Fertilization in Field-Grown Environment. American Journal of Agricultural Science, 4 (6): 149-153. |
[08] | Gani, M. N., Ali, M. S. and Islam, M. M. (2017). Nutrient Requirement of NPK&S on Advance Capsularis Breeding Line BJC-5105. International Journal of Agricultural and Biosystems Engineering, 2 (5): 44-47. |
[09] | Islam, M. M. and Rahman, M. M. (2008). In: Hand book on agricultural Technologies of Jute, Kenaf and Mesta crops. Bangladesh Jute Research Institute, Manikmia Avenue, Dhaka-1207, Bangladesh. |
[10] | Alam, A. K. M. M., Khandker, S., Gani, M. N., and Ahmed S.A. (2000). Uptake addition and balance of nutrients under integrated fertilizer management in jute based cropping patterns. B. J. Sci. and Tech., 2 (2): 147-153. |
[11] | Sarker, A. K. and Bandopaddhay, P. K. (2000). Effect of potassium, boron and crop age on the yield and quality ofwhite jute (Corchorus capsularis). Indian Agr., 26: 212-216. |
[12] | Das, K., Guha, B. and Pathak, D. (1996). Response of Capsularis to potassium fertilization. Ann. Agril. Res., 17 (2): 188-189. |
[13] | Sarkar, S. K., Ghosh, R. K., Sounda, G., Maitra, S., Rux, D.K. and Ghosh, K. (1997). Effect of levels of nitrogen, potassium and soil moisture tension on growth, nutrient uptake and water use efficiency of jute. J Inter academia, 1 (3):183-188. |
[14] | Zheng, Z H., Huang, Y. X. and Peng, X. J. (1984). Effects of additional K application to jute. China’s Fiber Crops., 2: 14-15. |
[15] | Chew, W. Y., Malek, M. A. A. and Ramli, K. (1982). Nitrogen and potassium fertilization of congo jute (Urenalobata) and kenaf (Hibiscus cannabinus) on Malaysian peat. MARDI-Res. Bulletin, 10 (3): 317-322. |
[16] | Gani, M. N., Alam, A. K. M. M., Khandker, S. and Ahamed,S. A. (1999). Biomass estimation of jute and its effect on soil.Bangladesh J. Sci. Res., 17 (2): 157-162. |
[17] | Das, N. R. and Roy, M. (1999). Effect of N and seed rate on biomass production of rainfed jute (Corchorus olitorius L.).Ad. Plant Sci. Res. India., 9: 15-18. |
[18] | Gomez, K. A. and Gomez, A. A. (1984). Statistical procedure for Agricultural Research. Second edn. John Wiley and Sons.Inc. New York. Pp. 304-307. |