Abstract: Field trials were held during Eid 2022-23 at Shradhay Bhagwati Singh Agricultural Research Farm (Hajipur), Chandra Bhanu Gupt Krishi Snatkottar Mahavidyalaya, and BKT Lucknow (Uttar Pradesh). The treatments contain four levels of nitrogen (0, 40, 80, 120 Kg N ha-1) and four levels of phosphorus (0, 20, 40, 60 Kg P2O5 ha-1) in three thirds increments. RBD made it, and they repeated. The test region is sandy loam soil with an average organic carbon content (0.70%), nitrogen (270 kg/ha), phosphorus (27 kg/ha), and potassium (262 kg/ha). The results reveal that applying 120 kg N ha-1 to the crop is equivalent to applying 80 kg N ha-1; nevertheless, in the absence of nitrogen fertilizer, growth and yield are best. When. Rice was requested. The maximum amount of straw manure allowed is 40 kg N ha-1. Trust. More than 40 kg N per hectare. Compared to 80 kg N ha-1 and 40 kg N ha-1 without nitrogen fertilizer, the crop growth at 120 kg N ha-1 is 2.17%, 5.96%, and 14.53%, respectively. Plant development, production characteristics, yield, and nutrition are best with 60 kg ha-1 phosphorus (40 kg/ha), 20 kg P2O5 ha-1, and zero phosphorus. As nitrogen and phosphorus levels rise, so do crop yield, yield, and B:C ratios. Crops treated with 120 kg N ha-1 and 60 kg P ha-1 produced the highest yield and B:C ratios.
Keywords: Barley, Economics, Growth, Nutrient Management and Yield.
Author: Gyanendra Singh Yadav, Deepak Pandey, Sudhakar Singh and Swaha Shee Chanda
doi: https://doie.org/10.0512/AE.2024770607
Reference: Anonymous (2021). Government of India, Ministry of Agriculture and Farmers Welfare. Department of Agriculture, Cooperation & Farmers Welfare. Directorate of Economics and Statistics. Alghabari F, Al-Solaimani SG. (2015). Effect of sowing date and nitrogen fertilization on growth, yield and yield components of barley (Hordeum vulgare L.). Int. J Scient. and Technol. Res. 18:136-140. Ali A, Asif M, Adnan M, Aziz A, Hayyat MS, Saleem MW, Hanif MS, Javed MA, Hassa W, Ali SM (2020). Effect of different levels of phosphorus on growth, yield and quality of wheat (Triticum aestivum L.). Int. J. Bot. Stu., 5: 64-68. Atlin, G & Frey, K. (1989). Predicting the relative effectiveness of direct versus indirect selection for oat yield in three types of stress environments. Euphytica, 44: 137–142. Cantero-Martinez, C., Angas, P & Lampurlanes, J. (2003). Growth, yield and water productivity of barley (Hordeum vulgare L.) affected by tillage and N fertilization in Mediterranean semiarid, rainfed conditions of Spain. Field Crops Research, 84: 341–357. Choudhary, R.K.; Singh, K.N. and Prashad, M. (1971). Relative response to nitrogen and phosphorus fertili- zation and its economics on irrigated and rainfed barley. Indian Journal of Agronomy., 16:505-10. Colomb B, Kinivy R, Debaeke PH. (2000). Effect of soil phosphorus on leaf development and senescence dynamics of field-grown barley.Agron J. 92(3):428-435. Dubey S, Tiwari A, Singh V, Pandey VK, Singh G. (2018). Effect of nitrogen levels and its time of application on yield attributes, yield and economics of barley (Hordeumvulgare L.). Int. J Curr. Microbiol. App. Sci. 7:1695-1705. FAO, (2002). Statistical Information. Food and Agricultural Organization of the United Nations. Hussain M, Khan MA, Farid R (2013). Effect of varying levels of phosphorus and zinc on growth and yield of wheat (Triticum aestivum L.). Indus. J. Plant Sci., 4: 398-403. Kouzegaran MR, Moosavi SG, Seghatoleslami MJ. (2015). Effect of irrigation and nitrogen levels on yield and some traits of barley. Biol. For. Intl. J. 7:470-476. Meena LR, Mann JS, Meena SL. (2012). Effect of levels and mode of nitrogen application on dual purpose barley (Hordeum vulgare L.) under semi-arid condition. Indian Journal of Agronomy. 57:168-170. Nahvi M, Davatgar N, Derighgoftar F, Sheikhhosseinian A, Abbasian M. (2012). Determination of N fertilization demand in wheat by leaf color diagram. J Grain. Plant Improv. 28:53-68. Pal D, S Kumar and RPS Verma (2012). reported that first dual- purpose barley variety for northern hills of India. Indian Journal of Agricultural Sciences 82: 164-165. Paramjit, Singh VP, Roy DK. (2001). Effect of different levels of nitrogen and phosphorus on growth, yield and quality of barley (Hordeum vulgare L.). Res. Crops. 2:120-122. Puniya MM, Yadav SS, Shivran AC. (2015) Productivity, profitability and nitrogen use efficiency of barley (Hordeum vulgare L.) as influenced by weed management and nitrogen fertilization under hot semiarid ecologies of Rajasthan. Indian J Agron. 60:564-569 Ratan Singh and M Devenker Reddy (2020). Effect of different levels of phosphorus on performance of barley (Hordeum vulgare L.) Journal of Pharmacognosy and Phytochemistry 9(3):363-366. Reddy BC and Singh R (2018). Effect of sowing dates and levels of nitrogen on growth and yield of barley (Hordeum vulgare L.). J. Pharmacognosy and Phytochem. 7:1500- 1503. Seyed Ahmad Eftekhari, Mohammad Reza Ardakan, Farhad Rejali, Farzad Paknejad, Tahereh Hasanabadi. (2012). Phosphorus Absorption in Barley (Hordeum vulgare L.) under Different Phosphorus Application Rates and Coinoculation of Pseudomonas fluorescence and Azospirillum lipoferum. Annals of Biological Research. 3(6):2694-2702. Sinebo, W., Gretzmacher, R & Edelbauer, A. (2003). Environment of selection for grain yield in low fertilizer input barley. Field Crops Research, 74 (3-4): 151-162. Singh R.K. and Singh R.K. (2005). Effect of time and levels of nitrogen application on malt barley (Hordeumvulgare L.). Indian journal of Agronomy 50 (5) 137-139. Suryawansi, P.K, Patel, JB and Kumbhar, NM, (2014). Assessment of SWI techniques with varying nitrogen levels for improving yield and quality of barley (Hordeumvulgare L.). Crop Research, 48(1-3), 6-9, 2014. Warshi, A.S.; Singh, Fateh and Jagdish (1976). Effect of phosphorus on the yield of late sown barley in relation to moisture regime. Indian Journal of Agronomy.,21(4):382.
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