Asian Journal of Crop, Soil Science and Plant Nutrition

You are here: Home>AJCSP Journal​>AJCSP Archive>Article Page: ajcsp-050121-21.html

submit Manuscript

Asian J. Crop. Soil Plan. Nutri. | Volume 05, Issue 01, 100-100 | https://doi.org/10.18801/ajcsp.050121.21
​Article type: Research article | Received: 00.00.2021; Revised: 00.00.2021; First published online: 00 January 2021.

Nitrogen effect on the growth and yield contributing characters of Binadhan-19

Md. Babul Akter 1, Nazmun Nahar 1, Md. Sohel Rana 1, Md. Niloy Hasan 2 and Md. Abu Rayhan 2
1 Bangladesh Institute of Nuclear Agriculture (BINA), Sub-station, Rahmatpur, Barishal-8211, Bnagladesh.
2 College of Agricultural Sciences, International University of Business Agriculture and Technology, Uttara-10, Dhaka, Bangladesh.

✉ Article correspondence: riponkachua@gmail.com  (Akter, M.B.).

Abstract
The experiment was conducted at the BINA sub-station, Rahmatpur, Barishal, during the period from April 2020 to August 2020 to investigate the effect of nitrogen on the yield of transplant Aus rice cv. Binadhan-19. The experiment comprised four levels of nitrogen viz (a) N0 (zero nitrogen), (b) N1 (90 kg N/ha), (c) N2 (110 kg N/ha) and (d) N3 (130 kg N/ha). Nitrogen fertilizer was applied at two splits. The experiment was laid out in a randomized complete block design with three replications. Results revealed that plant height, effective tiller, non-effective tiller, flag leaf length, filled gran, unfilled grain and 1000 grain weight were increased with increasing nitrogen doses till 110 kg N ha-1. Furthermore, the highest grain weight was recorded in 110 kg N ha-1 due to superior performance of yield contributing characters of BInadhan-19. A positive correlation was found between grain yield and total dry matter production. The experimental results concluded that 110 kg N ha-1 would be the best dose for higher gain yield in Binadhan-19 in aus season.

Key Words: Rice, Nitrogen, Nitrogen level, Binadhan-19 and Yield

Article Full-Text PDF:

20.04.02.2020_nitrogen_effect_on_the_growth_and_yield_contributing_characters_of_binadhan-19.pdf
File Size:	681 kb
File Type:	pdf

Download File

---

Article Metrics:

---

Share This Article

Article Citations

MLA
Akter, M. B. et al. “Nitrogen effect on the growth and yield contributing characters of Binadhan-19”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), (2020): 157-164.
 
APA
Akter, M. B., Nahar, N., Rana, M. S., Hasan, M. N. and Rayhan, M. B. (2020). Nitrogen effect on the growth and yield contributing characters of Binadhan-19. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), 157-164.
 
Chicago
Akter, M. B., Nahar, N., Rana, M. S., Hasan, M. N. and Rayhan, M. B. “Nitrogen effect on the growth and yield contributing characters of Binadhan-19”. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), (2020): 157-164.
 
Harvard
Akter, M. B., Nahar, N., Rana, M. S., Hasan, M. N. and Rayhan, M. B. 2020. Nitrogen effect on the growth and yield contributing characters of Binadhan-19. Asian Journal of Crop, Soil Science and Plant Nutrition, 04(02), pp. 157-164.
 
Vancouver
Akter, MB, Nahar, N, Rana, MS, Hasan, MN and Rayhan, MB. Nitrogen effect on the growth and yield contributing characters of Binadhan-19. Asian Journal of Crop, Soil Science and Plant Nutrition, 2020 December 04(02), 157-164.

References

1. Adhikari, J., Sarkar, A. R., Uddin M. R., Sarker, U. K., Hossen, K. and Rosemila, U. (2018). Effect of nitrogen fertilizer and weed management on the yield of transplant aman rice. Journal of Bangladesh Agricultural University, 16(1), 12–16. https://doi.org/10.3329/jbau.v16i1.36473
2. Akter, M. B., Islam, M. T., Mondal, M. M., Hoque, M. I., Kamruzzaman, M., Nafis, M., Sultana, A. and Ali, M. S. (2019). Morpho-physiological Basis of Yield Performance of Early Maturing Rice Varieties in Bangladesh. Annual Research & Review in Biology, 32(5), 1-13. https://doi.org/10.9734/arrb/2019/v33i430128; https://doi.org/10.9734/arrb/2019/v32i530097
3. Alam, M. M., Ali, M. H., Ruhul, A. K. M. and Hassanuzzaman, M. (2009). Yield attributes, yield and harvest index of three irrigated rice varieties under different levels of phosphorus. Advance in Biological Research, 3(3-4), 132-139.
4. Alinajati, S. S. and Mirshekari, B. (2011). Effect of phosphorus fertilization and seed bio fertilization on harvest index and phosphorus use efficiency of wheat cultivars. Journal of Food Agricultural and Environment, 9(2), 388-397.
5. Awan, T. H., Ali, R. I., Manzoor, Z., Ahmad, M. and Akhtar M. (2011). Effect of different nitrogen levels and row spacing on the performance of newly evolved medium grain rice variety KSK-133. Journal of Animal Plant Science, 21(2), 231-234.
6. Azarpor, E., Tarighi, F., Moradi, M. and Bozorgi, H.R. (2011). Evaluation effect of different nitrogen fertilizer rates under irrigation management in rice farming. World Applied Sciences Journal 13(5), 1248-1252.
7. BBS (Bangladesh Bureau of Statistics), (2010). ‘Agriculture Crop Cutting’. URL: www.bbs.gov.bd/PageWebMenuContent.aspx?MenuKey=166
8. BRRI (Bangladesh Rice Research Institute), (2016). Annual Report 2014-15. Gazipur 1701, Bangladesh.
9. Bufogle, A., Bollich, P. K., Norman, R. J., Kovar, J. L., Lindau, C. W. and Macchiavelli, R. E. (1997). Rice plant growth-and nitrogen accumulation in drill seeded and water-seeded culture. Soil Science Society of America Journal, 61, 832-839.
10. Chaturvedi, I. (2005). Effect of nitrogen fertilizers on growth, yield and quality of hybrid rice (Oryza sativa L.). Journal of central European Agricultural, 6(4), 611-618.
11. Chopra, N K, and Chopra, N. (2004). Seed yield and quality of ‘pusa 44’rice (Oryza sativa) as influenced by nitrogen fertilizer and row spacing. Indian Journal of Agricultural Science, 74(3), 144-146.
12. Djaman, K., Mel, V. C., Ametonou, F. Y., Namaky, R. E., Diallo, M. D., et al.  (2018). Effect of Nitrogen Fertilizer Dose and Application Timing on Yield and Nitrogen Use Efficiency of Irrigated Hybrid Rice under Semi-Arid Conditions. Journal of Agricultural Science and Food Research, 9, 223.
13. Dobermann, A., Dawe, D., Roetter, R. P., Cassman, K. G. (2000). Reversal of rice yield decline in a long-term continuous cropping experiment. Agronomy Journal, 92, 633–643. https://doi.org/10.2134/agronj2000.924633x
14. Gomez, K. A. and Gomez, A. A. (1984) Duncan’s multiple range test. Statistical Procedures for Agricultural Research. 2nd Edition, John Wiley & Sons.
15. Islam, M. A., Islam, M. R. and Sarker, A. B. S. (2008). Effect of Phosphorus on Nutrient Uptake of Japonica and Indica Rice. Journal of Agricultural Rural Development, 6(1&2), 7-12 https://doi.org/10.3329/jard.v6i1.1651
16. Jahan, N., Islam, M. R., Siddique, A. B., Islam, M. R., Hassan, M. M., Shamsuzzaman, S. M. and Samsuri, A. W. (2014). Effects of integrated use of prilled urea, urea super granule and poultry  manure  on  yield  of  transplant  aus  rice  and  field  water  quality. Life Science Journal, 11, 101–108.
17. Khairunniza-Bejo, S., Zulkifli, Z. and Muharam, F. M. (2017). Effect of nitrogen fertilizer to growth, biomass and grain yield of paddy. Acta Horticulture, 1152, 159-164. https://doi.org/10.17660/ActaHortic.2017.1152.22
18. Khan, A., Sarfaraz, M., Ahmad, N. and Ahmad, B. (1994). Effect of N dose and irrigation depth on nitrate movement in soil and N uptake by maize. Agricultural Research, 32. 47-54.
19. Khuang, T. Q., Huan, T. T. and Hach, C. V. (2008). Study on fertilizer rates for getting maximum grain yield and profitability of rice production. Omonrice, 16, 93-99.
20. Lawal, M. I. and Lawal, A. B. (2002). Influence of nitrogen rate and placement methods on growth and yield of rice (Oryza sativa L.) at Kadawa. Nigerian Journal, 23(3), 403-441.
    
21. Marschner, H. (1995). Mineral Nutrition of Higher Plants. 2nd edition. Academic Press, London.
    
22. Mondal, M. M. A., Puteh, A. B., Malek, M. A., Ismail, M. R., Rafii, M. Y., Latif, M. A. (2012). Seed yield in relation to growth and developmental aspects of mungbean. The Scientific World Journal, 2012, 425168.
    
23. Puteh, A. B., Mondal, M. M. A., Ismail, M. R. and Latif, M. A. (2014). Grain Sterility in relation to Dry Mass Production and Distribution in Rice (Oryza sativa L.). BioMed Research International, 2014, 302179.
24. Raun, W. R. and Johnson, G .V. (1999). Improving nitrogen use efficiency for cereal production. Agronomy Journal, 91, 357-363.
    
25. Sultana, A., Salim, M., Kader, M. A., Akter, M. B., Kamruzzaman, M. and Hoque, M. I. (2019). International Journal of Plant & Soil Science, 27(4), 1-8.
    
26. Taiz, L. and Zeiger, E. (2010). Plant physiology, 5Th edition. Sinauer Associates Publishers, Sunderland, MA.
    
27. UNDP and FAO. (1988). Land Resources Appraisal of Bangladesh for Agricultural Development. Report 2. Agro-ecological Regions of Bangladesh. United Nation Dev. Prog. and Food and Agric. Org, pp. 212-221.
    
28. Yoseftabar, S. (2013). Effect of Nitrogen and Phosphorus Fertilizer on spikelet Structure and yield in rice (Oryza sativa L). International Journal of Agricultural Crop Science, 5 (11), 1204-1208.
    

---

© 2021 The Authors. This article is freely available for anyone to read, share, download, print, permitted for unrestricted use and build upon, provided that the original author(s) and publisher are given due credit. All Published articles are distributed under the Creative Commons Attribution 4.0 International License.

​Require any changes or update in this article? Please contact from HERE.

Asian Journal of Crop, Soil Science and Plant Nutrition EISSN ​2706-5510​.