H&N Publications INTERNATIONAL

International Journal for Asian Contemporary Research, 2(2): 43-49

Incorporation of Inorganic Fertilizer with Poultry Manure Without Minimizing Yield of Jute

Most. Razzakun Jannat,
Most. Razzakun Jannat,

Farming Systems Engineering Laboratory, Department of Agronomy and Agricultural Extension, Rajshahi University, Bangladesh.

Rejvi Ahmed Bhuiya,
Rejvi Ahmed Bhuiya,

Department of Crop Science and Technology, Rajshahi University, Bangladesh.

Abdur Razzak,
Abdur Razzak,

Farming Systems Engineering Laboratory, Department of Agronomy and Agricultural Extension, Rajshahi University, Bangladesh.

M Robiul Islam,
M Robiul Islam,

Farming Systems Engineering Laboratory, Department of Agronomy and Agricultural Extension, Rajshahi University, Bangladesh.

Md. Tariful Alam Khan
Md. Tariful Alam Khan

Farming Systems Engineering Laboratory, Department of Agronomy and Agricultural Extension, Rajshahi University, Bangladesh.

and A.M Shahidul Alam*
A.M Shahidul Alam*

Farming Systems Engineering Laboratory, Department of Agronomy and Agricultural Extension, Rajshahi University, Bangladesh. Email:


Received: 10 July 2022 || Accepted: 07 August 2022 || Published: 15 August, 2022

     

      A B S T R A C T

Appropriate inorganic fertilizer and poultry manure are important agronomic practices for optimum yield of jute. A field experiment was carried out at the Agronomy Field Laboratory, Department of Agronomy and Agricultural Extension, Rajshahi University, Rajshahi, during the period from May 2018 to September 2018 to study on “replacement of inorganic fertilizer with poultry manure without minimize yield of jute.” The experiment consisted of three inorganic fertilizer levels viz.F1:100% RDF, F2: 75% RDF, F3: 50% RDF and three poultry manure levels i.e.P1: without poultry manure, P2:5t ha-1, P3: 10t ha-1. The experiment was laid out in a split-plot design with three replications. The results show that maximum inorganic fertilizer significantly influenced plant height (339.46 cm), TDM (65.99 g m-2), CGR (60.94), leaf area (587.05 cm2), number of leaves (30.29), canopy cover (85.24%), stem diameter (20.35mm), fibre area (4.30 mm), fibre yield (3.488 t ha-1), stick yield (8.49 t ha-1) and biological yield (11.98 t ha-1). Considering poultry manure rates, highest plant height (330.99 cm), TDM (61.47g m-2), CGR (53.01), leaf area (537.83 cm2), number of leaf (28.97), canopy cover (82.87%), stem diameter (19.66 mm), fibre area (4.14 mm), fibre yield (3.36 t ha-1), stick yield (8.11 t ha-1) and biological yield (11.478 t ha-1) were recorded with application of poultry manure @ 10 t ha-1. The interaction between inorganic fertilizer and poultry manure was not significant. Although higher inorganic fertilizer and higher poultry manure give higher yield but our recommendation goes to medium amount of inorganic fertilizer (75% of BJRI recommendation) with maximum poultry manure (@10 t ha-1) as it can produce 17% more yield than conventional practice (F1P1) with 25% less inorganic fertilizer. Thus we can reduce the use of inorganic fertilizer by using poultry manure.

 

Key words: Total Dry Matter (TDM), CGR (Crop Growth Rate), Canopy cover, Inorganic fertilizer, Organic fertilizer.

Copyright information: Copyright © 2022 Author(s) retain the copyright of this article. This work is licensed under a Creative Commons Attribution 4.0 International License


    To cite this article: Jannat, M.R., Bhuiya, R.A., Razzak, A., Islam, M.R., Khan, T.A. and Alam, A.M.S. (2022). Incorporation of Inorganic Fertilizer With Poultry Manure Without Minimizing Yield of Jute. International Journal for Asian Contemporary Research, 2 (2): 43-49.  

 

References

  1. Adeniyan, O. N. and Ojeniyi, S. O. 2003. Comparative effectiveness of different levels of poultry manure with NPK fertilizer on residual soil fertility, nutrient uptake and yield of maize. Moor Journal of Agricultural Research,4(2):191-197.
  2. Agbede, T. M., Oladitan, T. O., Alagha, S. A., Ojomo, A. O. and Ale, M. O. 2010. Comparative evaluation of poultry manure and NPK fertilizer on soil physical and chemical properties, leaf nutrient concentrations, growth and yield of yam (Dioscorearotundata poir) in southwestern Nigeria. World Journal of Agricultural Sciences, 6(5), 540-546.
  3. Ahmed, Z., & Nizam, S. A. (2008). Jute-microbiological and biochemical research. Plant Tissue Culture and Biotechnology, 18(2), 197-220.
  4. BBS (Bangladesh Bureau of Statistics). 2016-2017. Statistical yearbook of Bangladesh. Bangladesh Bureau of Statistics. Ministry of planning, government of the people’s republic of Bangladesh, Dhaka, Bangladesh. pp. 112.
  5. Bolan NS, Szogi AA, Chuasavathi T, Seshadri B, Rothrock MJ, Panneerselvam P. Uses and management of poultry litter. World's Poultry Science Journal. 2010; 66(4):673-98. https://doi.org/10.1017/S00439339 10000656
  6. Chandna P, Khurana ML, Ladha JK, Punia M, Mehla RS, Gupta R. Spatial and seasonal distribution of Nitrate-N in groundwater beneath the rice-wheat cropping system of India: a geospatial analysis Environ. Monit. Assess. 2011; 178(1-4):545-62. https://doi: 10.1007/s10661-010-1712-0.
  7. Charles, C., Mitchell and Shuxin, Tu. 2005. Long-term evaluation of poultry litter as a source of nitrogen for cotton and corn, American society of agronomy, USA, Journal of Agronomy, 97:399-407.
  8. Emilsson T, Berndtsson JC, Mattsson JE, Rolf K. Effect of using conventional and controlled release fertilizer on nutrient runoff from various vegetated roof systems. Ecol. Eng. 2007; 2 (9): 260-271. https://doi:org/10.1016/j.ecoleng.2006.01.001.
  9. Gani, N. (2015). Impact of poultry litter on soil properties and production of jute (Doctoral dissertation, University of Dhaka).
  10. Hasan, M., Gani, N., Alam, M. D., & Chowdhury, M. T. A. (2019). Effects of old jute seeds on soil fertility and jute production. Journal of Biodiversity Conservation and Bioresource Management, 5(2), 33-40.
  11. Khan, M. S., Shil, N. C., & Noor, S. (2008). Integrated nutrient management for sustainable yield of major vegetable crops in Bangladesh. Bangladesh Journal of Agriculture and Environment, 4(5), 81-94.
  12. Mahmood, F., Khan, I., Ashraf, U., Shahzad, T., Hussain, S., Shahid, M., ... & Ullah, S. (2017). Effects of organic and inorganic manures on maize and their residual impact on soil Physico-chemical properties. Journal of soil science and plant nutrition, 17(1), 22-32.
  13. Masud, M. M., Abdulaha-Al Baquy, M., Akhter, S., Sen, R., Barman, A., & Khatun, M. R. (2020). Liming effects of poultry litter derived biochar on soil acidity amelioration and maize growth. Ecotoxicology and Environmental Safety, 202, 110865.
  14. Miah, M. A. M., Ishaque, M. and Saha, P. K. 2006. Integrated nutrient management for improving soil health and rice production. In Proc. of twenty-first BRRI-DAE joint workshops on bridging the rice yield gap for food security. BRRI, Gazipur, Bangladesh. pp. 19-21).
  15. Noufal, E. H. (2005). Effect of application of agriculture organic wastes on properties of sandy soils and the impact on maize and barley grown on the soil. 2.-soil contents of available N, P and K; maize and barley growth and nutrients uptake. Annals of Agricultural Science, Moshtohor.
  16. Olaniyi JO and Ajibola AT,2008. Effects of inorganic and organic fertilizers application on the growth, fruit yield and quality of tomato (Lycopersicon lycopersicum).Journal of Vegetable Crop Production 1(1): 53-62.
  17. Rawat SK, Singh RK, Singh RP. Remediation of nitrite in ground and surface waters using aquatic macrophytes. J. Environ. Biol. 2012: 33(1), 51-56.
  18. Santos VB, Araujo SF, Leite LF, Nunes LA, Melo JW. Soil microbial biomass and organic matter fractions during transition from conventional to organic farming systems. Geoderma. 2012; 170:227–231. https://doi:org/10.1016/ j.geoderma. 2011. 11.007.
  19. Sistani, K.R., Brink, G.E., Mcgowen, S.L., Rowe, D.E. and Oldham, J.L. (2008) Characterization of broiler cake litter, the by-products of two management practices. Bioresource Technology 90: 27-32.
  20. Tewolde H, Sistani KR, Rowe DW. Broiler litter as a sole nutrient source for cotton: nitrogen, phosphorus, potassium, calcium, and magnesium concentrations in plant parts. J. Plant Nutr. 2005; 28:605–619. https://doi: 10.1081/PLN-200052633.
  21. Tewolde H, Sistani KR, Rowe DW. Broiler litter as a sole nutrient source for cotton: nitrogen, phosphorus, potassium, calcium, and magnesium concentrations in plant parts. J. Plant Nutr. 2005; 28:605–619. https://doi: 10.1081/PLN-200052633.
  22. Tilman D, Balzer C, Hill J, Befort BL. Global food demand and the sustainable intensification of agriculture. Proc. Natl Acad. Sci. U.S.A. 2011; 108: 20260–20264. https://doi: 10.1073/pnas.1116437108.
  23. Verma, R., Maurya, B. R., & Meena, V. S. (2014). Integrated effect of bio-organics with chemical fertilizer on growth, yield and quality of cabbage (Brassica oleracea var capitata). Indian J Agric Sci, 84(8), 914-919.
  24. Wang Q, Feng-Rui L, Zhao L, Zhang E, Shi S, Zhao W, Song W, Vance MM. Effect of irrigation and nitrogen application rates on nitrate nitrogen distribution and fertilizer nitrogen loss, wheat yield and nitrogen uptake on a recently reclaimed sandy farmland. Plant Soil. 2010; 337:325–339. https://doi:10.1007/s11104-010-0530-z.
  25. Yuan, L., Chen, X., Jia, J., Chen, H., Shi, Y., Ma, J., ... & Lu, C. (2021). Stover mulching and inhibitor application maintain crop yield and decrease fertilizer N input and losses in no-till cropping systems in Northeast China. Agriculture, Ecosystems & Environment, 312, 107360.
  26. Zaman M, Nguyen ML, Blennerhasssett D. The effect of different rates of urea with or without urease inhibitor (NBPT) on wheat yield and quality. Agric. J. 2010; 5 (5):309-312. https://doi:10.3923/aj.2010.309.312.
  27. Zhang Y, Zhou H, Zhang J. Research Progress of Bio-organic Fertilizer. Jilin Agricultural Sciences, 2010; 35(3): 37-40
  28. Zhao D, Reddy KR, Kakani VG, Reddy VR. Nitrogen deficiency effects on plant growth, leaf photosynthesis and hyperspectral reflectance properties of sorghum. Eur J Agron. 2005; 22(4): 391–403. https://doi:org/10.1016/j.eja.2004.06.005

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