Conducted experiments on mustard-mungbean-T. aman rice cropping system to measure the system yield, nutrient uptake and apparent balance in terrace soils of Gazipur. Four fertilizer treatments were considered viz. absolute nutrient control (T1); farmer’s practice (T2); AEZ basis fertilizer application (T3) and soil test basis fertlizer application (T4). The treatments were compared in a randomized completely block design with three replications over two consecutive years. The average yields of mustard, mungbean and T. aman rice ranged from 798 to 1543 kg ha-1, 995 to 1489 kg ha-1 and 3270 to 4521 kg ha-1, respectively showing T4 as the best treatment. Soil test basis fertilizer application (T4) exhibited the highest nutrients uptake by all tested crops. The apparent balance of N and K was negative; however it was less negative for T4 treatment. The apparent P balance was positive in T2, T3 and T4 but negative in T1. Positive S balance observed in T4 but negative in T1, T2 and T3. Zinc and B balance in the system was positive in case of T3 and T4. Highest yield, gross margin and soil fertility have been recommended that the soil test basis fertilizer application is profitable for mustard-mungbean-T. aman rice cropping system in terrace soils. The study indicate clearly an opportunity for the re-adjustment of the N, P, K, S and miconutrients (Zn & B) fertilizer doses for the different rice-based cropping systems in Bangladesh.
Published in | Journal of Energy and Natural Resources (Volume 6, Issue 2) |
DOI | 10.11648/j.jenr.20170602.11 |
Page(s) | 14-23 |
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This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
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Copyright © The Author(s), 2017. Published by Science Publishing Group |
System Yield, Nutrient Uptake, Nutrient Balance, Mustard-Mungbean-T. Aman Rice, Terrace Soil
[1] | FRG, (2012). Fertilizer Recommendation Guide. Published by Bangladesh Agricultural Research Council, Dhaka, Bangladesh. |
[2] | Timsina J, Connor DJ. (2001). Productivity and management of rice-wheat cropping system: Issues and Challenges. Field Crop Res 69:7–11. |
[3] | Ali AM, Alam MR, Molla MSH, Islam F. (2010). Crop productivity as affected by fertilizer management options in Boro-T. aman cropping pattern at farmers fields. Bangladesh J Agril Res 35 (2):287–296. |
[4] | Tirol-Padre A, Ladha JK, Regmi AP, Bhandari AL, Inubushi K. (2007). Organic amendment affect soil parameters in two long-term rice–wheat experiments. Soil Sci Soc Am J 71:442–52. |
[5] | Singh GB, Yadav DV. (1992). INSS in sugarcane and sugarcane based cropping system. Fert News 37 (4):15–20. |
[6] | Paul F, Brentrup F, Bruu Isema T, Garcia F, Norton R, Zingore S. (2014). Nutrient/fertilizer use efficiency: measurement, current situation and trends. IFA, IWMI, IPNI and IPI. |
[7] | Gomez KA, Gomez AA. (1984). Statistical Procedures for Agricultural Research. International Rice Research Institute, John Wiley & Sons, NY. |
[8] | Nelson DW, Sommers LE. (1982). Total carbon, organic carbon and organic matter. In: Methods of Soil Analysis. Part 2. 2nd Edition. Page, A. L, Miller, R. H., Keeney, D. R. Am. Soc. of Agron. Madison, USA. Pp. 539–580. |
[9] | Bremner JM, Mulvaney CS. (1982). Total nitrogen, In: Methods of Soil Analysis, Part 2, 2nd Ed., Page, A. L., Miller, R. H., Keeney, D. R., Am. Soc. Agron. Madison, USA. Pp. 599–622. |
[10] | Jackson ML. (1973). Soil Chemical Analysis. Prentice Hall of India Private Limited, New Delhi. Pp. 498. |
[11] | Olsen S, Sommer LE. (1982). Phosphorus. In: Methods of Soil Analysis, Part 2. 2nd Edition. Page, A. L., Miller, R. H., Keeney, D. R., Am. Soc. Agron. Madison, USA. Pp. 403–427. |
[12] | Fox RL, Olsen RA, Rhoades HF. (1964). Evaluating the sulphur status of soil by plant and soil test. Soil Sci Soc Am Proc 28:243–246. |
[13] | Lindsay WL, Norvell WA. (1978). Development of a DTPA soil test for Zn, Fe, Mn and Cu. Soil Sci. Soc. Am. J. 42:421–428. |
[14] | Page AL, Miller RH, Keeney DR (eds.). (1982). Methods of Soil Analysis. Part 2. Chemical and microbiological properties. 2nd Edition. Agronomy series 9 ASA, SSSA. Madison Wis. USA. |
[15] | Piper CS. (1966). Soil and Plant Analysis. Adelaide University Press, Australia. |
[16] | Hanks RJ, Ashcroft GL. (1980). Applied Soil Physics; Soil Water and Temperature Applications. Springer-verlag Berlin, Heidelberg, Newyork. Pp. 1–159. |
[17] | Quayyum MA, Timsina J, Jahan MAHS, Ara R, Connor DJ. (2002). Grain Yield and System Productivity for Rice-Wheat-Mungbean and Rice-Wheat-Maize Sequences in Northern Bangladesh. Thai J Agric Sci 35 (1):51–62. |
[18] | Rahman MH, Islam MR, Jahiruddin M, Haque MQ. (2011). Economics of fertilizer use in the Maize-Mungbean/Dhaincha-T. aman rice cropping pattern. J. Bangladesh Agril. Univ. 9 (1):37–42. |
[19] | Kalra PK (editor). (1998). Handbook of reference Methods for Plant Analysis. Published by CRC Press, Taylor & Francis Group. New Yark. |
[20] | Bell PF, Kovar JL. (2000). Reference sufficiency ranges for plant analysis in the southern region of the United States, Editor C. Ray Campbell. Southern Cooperative Series Bulletin p 394. |
[21] | Hossain MA, Jahiruddin M, Islam MR, Mian MH. (2008). The requirement of zinc for improvement of crop yield and mineral nutrition in the maize–mungbean–rice system. Plant Soil 306:13–22. |
[22] | Ram LP, Pathak J. (2016). Effect of integrated nutrient management on yield and Economics of mustard. Interntionl Journal of Science and Nature. Vol.7 (2) 2016:255–261. |
[23] | Rundala SR, Kumawat BL, Choudhary GL, Prajapat K, Sit Kumawat. (2013). Performance of Indian mustard (Brassica juncea) under integrated nutrient management. Crop Res 46 (1, 2 & 3): 115-118. India. |
[24] | andon Roy. (2004). Nutrient management guidlines for some major crops. Chapter-8. Published by FAO. |
[25] | Ussiri DA, Lal R, Jacinthe PA. (2006). Postreclamation land use effects on properties and carbon sequestration in minesoils of southeastern Ohio. Soil Sci 171:261–271. |
[26] | Nawab K, Amanullah, Shah P, Rab A, Arif M, Azim Khan M, Mateen A, Munsif F. (2011). Impact of integrated nutrient management on growth and grain yield of wheat under irrigated cropping system. Pakistan J Bot 43 (4):1943–1947. |
[27] | Aggarwal P, Parashar DK, Kumar V, Gupta RP. (1997). Effect of kharif green manuring and rabi tillage on physical properties of clay loam under rice-wheat rotation. J Indian Soc Soil Sci 45 (3):434–438. |
[28] | Islam MR, Karim MR, Riasat TM, Jahiruddin M. (1996). Growth and yield of BR11 rice under different levels of sulphur, zinc and boron fertility at two locations of Bangladesh. Thai J Agric Sci 29:37–42. |
[29] | Malika M, Islam MR, Karim MR, Huda A, Jahiruddin M. (2015). Organic and inorganic fertilizers influence the nutrient use efficiency and yield of a rice variety BINA dhan7. Acad. Res. J of Agril Sci Res 3 (7):192-200. |
[30] | Timsina J, Panaullah GM, Saleque M, Ishaque M, Pathan ABMBU, Quayyum MA, Connor DJ, Saha PK, Humphreys EC, Meisner CA. (2006). Nutrient Uptake and Apparent Balances for Rice-Wheat Sequences. I. Nitrogen. Journal of Plant Nutrition 29:137–155. |
[31] | Panaullah GM, Timsina J, Saleque MA, Ishaque M, Pathan ABMBU, Connor DJ, Saha PK, Quayyum MA, Humphreys E, Meisner CA. (2006). Nutrient uptake and apparent balances for rice-wheat sequences. III. Potassium. Journal of Plant Nutrition 29:173–187. |
[32] | Tarafder MA, Haque MQ, Rahman MM, Khan MR. (2008). Direct and residual effect of sulphur and zinc on potato-boro-T. aman rice cropping pattern. Progress Agric 19 (1):33–38. |
[33] | Shrestha RK, Ladha JK. (2001). Nutrient balances in a rice–vegetable system: a case study of an intensive cropping system in Ilocos Norte, the Philippines. International Workshop on Nutrient Balances for Sustainable Agricultural Production and Natural Resource Management in Southeast Asia. Bangkok, Thailand. |
[34] | Haque MQ, Rahman MH, Begum R, Islam MF. (2002). Integrated use of inorganic and organic fertilizers in Wheat-T. aus-T. aman rice cropping pattern for sustained crop production. 17th WCSS, 14-21 August 2002. Symposium no. 13, Paper no. 354 Thailand. |
[35] | Kumar K, Goh KM. (2000). Biological nitrogen fixation, accumulation of soil nitrogen and nitrogen balance for white clover (Trifolium repens L.) and field pea (Pisum sativum L.) grown for seed. Field crops Res 68:49-59. |
[36] | Timsina J, Mangi LJ, Majumdar K. (2010). Rice-maize systems of South Asia: current status, future prospects and research priorities for nutrient management. Plant Soil 335:65–82. |
[37] | Jahan MAHS, Sarkar MAR, Barma NCD, Mondal MNA, Ferdousi MNS. (2015a). Seed yield, nutrient balance and economics of mungbean cultivation as influenced by different nutrients management under AEZ-28. Bangladesh J Agril Res 40 (1):77–93. |
[38] | Ali MR, Rahman MS, Mannan MA, Hossain MM, Kadir M. (2009). Balanced fertilization with inorganic fertilizers in Mustard-Boro-T. aman cropping pattern. Bangladesh J Prog Sci Tech 1 (1):33–37. |
[39] | Ladha JK, Dawe D, Pathak H, Padre AT, Yadav RL, Singh B, Singh Y, Singh P, Kundu AL, Sakal R, Ram N, Regmi AP, Gami SK, Bhandari AL, Amin R, Yadav CR, Bhattarai EM, Das S, Aggarwal HP, Gupta RK, Hobbs PR. (2003). How extensive are yield declines in long-term rice–wheat experiments in Asia? Field Crops Res 81:159–180. |
[40] | Biswas B, Ghosh DC, Dasgupta MK, Trivedi N, Timsina J, Dobermann A. (2006). Integrated assessment of cropping systems in the Eastern Indo-Gangetic plain. Field Crops Res 99:35–47. |
[41] | Jahan, MAHS, Sarkar MAR, Barma NCD, Mondal MNA, Ferdousi MNS. (2015b). Grain yield, nutrient balance and economics of T. aman rice cultivation as influenced by nutrients management. Bangladesh J Agril Res 40 (1):17-34. |
APA Style
Md. Abdul Quddus, Md. Joinul Αbedin Mian, Habib Mohammad Naser, Md. Ashraf Hossain, Md. Abdus Sattar. (2017). System Yields, Nutrient Uptake and Balance of Mustard-Mungbean-T. Aman Rice Cropping Systems in Terrace Soils of Bangladesh. Journal of Energy and Natural Resources, 6(2), 14-23. https://doi.org/10.11648/j.jenr.20170602.11
ACS Style
Md. Abdul Quddus; Md. Joinul Αbedin Mian; Habib Mohammad Naser; Md. Ashraf Hossain; Md. Abdus Sattar. System Yields, Nutrient Uptake and Balance of Mustard-Mungbean-T. Aman Rice Cropping Systems in Terrace Soils of Bangladesh. J. Energy Nat. Resour. 2017, 6(2), 14-23. doi: 10.11648/j.jenr.20170602.11
AMA Style
Md. Abdul Quddus, Md. Joinul Αbedin Mian, Habib Mohammad Naser, Md. Ashraf Hossain, Md. Abdus Sattar. System Yields, Nutrient Uptake and Balance of Mustard-Mungbean-T. Aman Rice Cropping Systems in Terrace Soils of Bangladesh. J Energy Nat Resour. 2017;6(2):14-23. doi: 10.11648/j.jenr.20170602.11
@article{10.11648/j.jenr.20170602.11, author = {Md. Abdul Quddus and Md. Joinul Αbedin Mian and Habib Mohammad Naser and Md. Ashraf Hossain and Md. Abdus Sattar}, title = {System Yields, Nutrient Uptake and Balance of Mustard-Mungbean-T. Aman Rice Cropping Systems in Terrace Soils of Bangladesh}, journal = {Journal of Energy and Natural Resources}, volume = {6}, number = {2}, pages = {14-23}, doi = {10.11648/j.jenr.20170602.11}, url = {https://doi.org/10.11648/j.jenr.20170602.11}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.jenr.20170602.11}, abstract = {Conducted experiments on mustard-mungbean-T. aman rice cropping system to measure the system yield, nutrient uptake and apparent balance in terrace soils of Gazipur. Four fertilizer treatments were considered viz. absolute nutrient control (T1); farmer’s practice (T2); AEZ basis fertilizer application (T3) and soil test basis fertlizer application (T4). The treatments were compared in a randomized completely block design with three replications over two consecutive years. The average yields of mustard, mungbean and T. aman rice ranged from 798 to 1543 kg ha-1, 995 to 1489 kg ha-1 and 3270 to 4521 kg ha-1, respectively showing T4 as the best treatment. Soil test basis fertilizer application (T4) exhibited the highest nutrients uptake by all tested crops. The apparent balance of N and K was negative; however it was less negative for T4 treatment. The apparent P balance was positive in T2, T3 and T4 but negative in T1. Positive S balance observed in T4 but negative in T1, T2 and T3. Zinc and B balance in the system was positive in case of T3 and T4. Highest yield, gross margin and soil fertility have been recommended that the soil test basis fertilizer application is profitable for mustard-mungbean-T. aman rice cropping system in terrace soils. The study indicate clearly an opportunity for the re-adjustment of the N, P, K, S and miconutrients (Zn & B) fertilizer doses for the different rice-based cropping systems in Bangladesh.}, year = {2017} }
TY - JOUR T1 - System Yields, Nutrient Uptake and Balance of Mustard-Mungbean-T. Aman Rice Cropping Systems in Terrace Soils of Bangladesh AU - Md. Abdul Quddus AU - Md. Joinul Αbedin Mian AU - Habib Mohammad Naser AU - Md. Ashraf Hossain AU - Md. Abdus Sattar Y1 - 2017/04/10 PY - 2017 N1 - https://doi.org/10.11648/j.jenr.20170602.11 DO - 10.11648/j.jenr.20170602.11 T2 - Journal of Energy and Natural Resources JF - Journal of Energy and Natural Resources JO - Journal of Energy and Natural Resources SP - 14 EP - 23 PB - Science Publishing Group SN - 2330-7404 UR - https://doi.org/10.11648/j.jenr.20170602.11 AB - Conducted experiments on mustard-mungbean-T. aman rice cropping system to measure the system yield, nutrient uptake and apparent balance in terrace soils of Gazipur. Four fertilizer treatments were considered viz. absolute nutrient control (T1); farmer’s practice (T2); AEZ basis fertilizer application (T3) and soil test basis fertlizer application (T4). The treatments were compared in a randomized completely block design with three replications over two consecutive years. The average yields of mustard, mungbean and T. aman rice ranged from 798 to 1543 kg ha-1, 995 to 1489 kg ha-1 and 3270 to 4521 kg ha-1, respectively showing T4 as the best treatment. Soil test basis fertilizer application (T4) exhibited the highest nutrients uptake by all tested crops. The apparent balance of N and K was negative; however it was less negative for T4 treatment. The apparent P balance was positive in T2, T3 and T4 but negative in T1. Positive S balance observed in T4 but negative in T1, T2 and T3. Zinc and B balance in the system was positive in case of T3 and T4. Highest yield, gross margin and soil fertility have been recommended that the soil test basis fertilizer application is profitable for mustard-mungbean-T. aman rice cropping system in terrace soils. The study indicate clearly an opportunity for the re-adjustment of the N, P, K, S and miconutrients (Zn & B) fertilizer doses for the different rice-based cropping systems in Bangladesh. VL - 6 IS - 2 ER -