CRITICAL DOSE OF NITROGEN AND PHOSPHORUS FOR THE ENHANCED GROWTH, YIELD, AND QUALITY COMPONENTS IN MUSTARD (Sinapsis arvensis L.) IN A SEMI ARID ENVIRONMENT

Year 2021, Volume: 26 Issue: 2, 244 - 252, 27.12.2021

Erdoğan Öztürk

https://doi.org/10.17557/tjfc.1038570

Cited By: 3

Abstract

Mustard grows in many parts of the world thanks to its ability to adapt to different climatic conditions. It has the potential to be an important oilseed plant especially in the east of Turkey. There is scarcely any information available about fertilization in mustard cultivation in Turkey. Nitrogen and phosphorus fertilizers, a good source of nutrients for the soil, have a positive effect on the growth, development, and yield of the plant in case they are applied at the optimum level. This study was carried out in 2015 and 2016 with the purpose of examining the effects of nitrogen and phosphorus fertilization on the yield and agronomic characteristics of mustard. Five doses of nitrogen (0, 50, 100, 150, 200 kg ha-1) and phosphorus (0, 30, 60, 90, 120 kg ha-1) were tested. It was found that the nitrogen and phosphorus applications had significant effects on the plant growth, yield, and yield components in both 2015 and 2016. The characteristics examined within the scope of the study were significantly affected by the applications, and the oil content and seed yield increased with the increasing fertilizer doses. The results of the study emphasize the importance of fertilizer applications for the mustard plants grown in semi-arid climates. 200 kg ha-1 of nitrogen and 120 kg ha-1 of phosphorus were found to yield better results, and it was observed that the seed yield of mustard could be increased by increasing the doses of nitrogen and phosphorus.

Keywords

Mustard, nitrogen use efficiency, optimum fertilizer dose, fertilization

References

• Ahmed, R.M. 2018. Oil percent and unsaturated fatty acid respose of rapeseed cultivars to nitrogen and phosphorus fertilizers in two different sowing date. Tikrit Journal for Agricultural Science 18(4): 29–38
• Ahmad, M., H. Sadia, M. Zafar, S. Sultana, M.A. Khan and Z. Khan. 2012. The production and quality assessment of mustard oil biodiesel: A cultivated potential oil seed crop. Energy Sources A: Recovery. Utilization and Environmental Effects, 34(16): 1480-1490. doi.org/10.1080/15567036.2011.596907
• Beyyavas, V., H. Haliloglu, O. Copur and A. Yilmaz. 2011. Determination of seed yield and yield components of some safflower (Carthamus tinctorius L.) cultivars, lines and populations under the semi-arid conditions. African Journal of Biotechnology 10(4): 527-534. doi.org/10.5897/AJB09.1395
• Blackshaw, R., E. Johnson, Y. Gan, W. May, D. McAndrew, V. Barthet, T. McDonald and D. Wispinski. 2011. Alternative oilseed crops for biodiesel feedstock on the Canadian prairies. Canadian Journal of Plant Science 9(5): 889-896. doi.org/10.4141/cjps2011-002
• Brennan, R.F. and M.D.A. Bolland. 2009. Comparing the nitrogen and phosphorus requirements of canola and wheat for grain yield and quality. Crop and Pasture Science 60(6): 566–577. doi.org/.10.1071/CP08401
• Chapin, F.S., E.S. Zavaleta, V.T. Eviner, R.L. Naylor, P.M. Vitousek, H.L. Reynolds, D.U. Hooper, S. Lavorel, O.E.S. Sala, S.E. Hobbie, M.C. Mark and S. Diaz. 2000. Consequences of changing biodiversity. Nature 405, 234–242. DOI: 10.1038/35012241
• Cheema, M.A., M.A. Malik, A. Hussain, S.H. Shah and S.M.A. Basra. 2001. Effects of time and rate of nitrogen and phosphorus application on the growth and the seed and oil yields of canola (Brassica napus L.) Journal of Agronomy and Crop Science 186: 103-110. DOI.10.1046/j.1439-037X.2001.00463.x
• Deniz, F. 2019. The effect of phosphorus fertilizer doses on the agricultural and quality characteristics of wild mustard (Brassica: Sinapis arvensis L.) at different sowing dates. Van Yuzuncu Yıl University, Institute of Natural and Applied Sciences, Department of Field Crops. Master's Thesis 2019.
• Duval, A.S. 2015. Applied Nitrogen Effects on Yellow Mustard (Sinapis alba L.) Production in the Willamette Valley. Oregon State University, Master of Science thesis.
• Finlayson, A.J., C.M. Christ and R.K. Downey. 1970. Changes in the nitrogenous components of rapeseed (Brassica napus) grown on a nitrogen and sulfur deficient soil. Journal Plant Sciences 50; 705-709
• Jham, G.N., B.R. Moser, S.N. Shah, R.A. Holser, O.D. Ghingra, S.F. Vaughn, M.A. Berhow, J.K. Winkler-Moser, T.A. Isbell, R.K. Holloway, E.L. Walter, R. Natalino, J.C. Anderson and D.M. Stelly. 2009. Wild Brazilian Mustard (Brassica juncea L.) seed oil methyl esters as biodiesel fuel. Journal of the American Oil Chemistsé Society 86, 9, 917-926. doi.org/10.1007/s11746-009-1431-2.
• Karaaslan, D. 1999. A research on determining the rapeseed varieties that can be grown under the conditions of Diyarbakır. 3rd National Field Crops Congress 15-18 November (1999), Adana, Volume II. Industrial Crops 328-333.
• Kayacetin, F., F. Onemli, G. Yılmaz, A. Kınay, H. Hatipoglu, M.N. Kıvılcım, N. Kara, A. Kose and F. Sefaoglu. 2017. Effect of row spacing on yield, yield components and crude oil of autumn and spring sowed mustard (Sinapis arvensis L.) in eight locations of Turkey. Journal of Agricultural Sciences 24(4): 471-487. doi.org/10.15832/ankutbd.490966
• Kayacetin, F., F. Onemli, G. Yılmaz, K.M. Khawar, A. Kınay, H. Hatipoglu, M.N. Kıvılcım, N. Kara, A. Kose, F. Sefaoglu and K.A. Ozaydın. 2017. Growing degree day and seed sield relationships in Mustard (Brassica juncea L.) under different sowing seasons and locations of Turkey. Journal of Agricultural Sciences 25(3): 298-308 doi.org/ 10.15832/ankutbd.424218
• Khan, H., M.A. Khan and M.S. Baloch. 2000. Effect of nitrogen and phosphorus on growth and yield of Brassica juncea L. Directorate of Publication Pakistan Journal of Biological Sciences 3(8): 1231-1233.
• Khan, FA, H. Javid, Z. Mohammad and S.M.M. Shah. 2011. Biodiesel production from mustard oil, coal ash using as catalyst. Middle East Journal of Scientific Research 8(5): 866-872.
• Keivanrad, S. and P. Zandi. 2012. Effect of nitrogen levels on growth, yield and oil quality of indian mustard grown under different plant densities. Thai Journal of Agricultural Science 45(2): 105-113. doi.org/10.2478/cerce-2014-0009
• Keivanrad, S. and P. Zandi. 2014. Effect of nitrogen levels on growth, yield and oil quality of Indian mustard grown under different plant densities. Cercetări Agronomice în Moldova Vol. XLVII, No. 1 (157).
• Kovács, A.B., I. Kincses, I. Vágó, J. Loch and T. Filep. 2009. Effect of application of nitrogen and different nitrogen-sulfur ratios on the quality and quantity of mustard seed. Communications in Soil Science and Plant Analysis 40(4): 453–461. doi.org/10.1080/00103620802694399.
• Li, F., B. Chen, K. Xu, J. Wu, W. Song, I. Bancroft, A.L. Harper, M. Trick, S. Liu, G. Gao, N. Wang, G. Yan, J. Qiao, J. Li, H. Li, X. Xiao, T. Zhang and X. Wu. 2014. Genome-wide association study dissects the genetic architecture of seed weight and seed quality in rapeseed (Brassica napus L.). DNA Research 21(4): 355-367. doi.org/ 10.1093/dnares/dsu002
• Mao, Shufang., Y. Han, X. Wu, T. An, J. Tang, J. Shen and Z. Li. 2012. Comparative genomic in situ hybridization (cGISH) analysis of the genomic relationship among Sinapis arvensis, Brassica rapa and Brassica nigra. Hereditas 149: 86-90.
• Motlagh, S.M., A. Pırzad and B. Delkhosh. 2012. Effect of irrigation disruption and biological phosphorus on the biomass and seed yield of canola (Brassica napus L.). International Journal of Agriculture and Crop Sciences 4(1): 489–495
• McKenzie, R.H., E. Bremer, L. Kryzanowski, A.B. Middleton, E.D. Solberg, G. Coy and J. Harapiak. 2003. Yield benefit of phosphorus fertilizer for wheat and canola in Alberta. Canadian Journal of Soil Science 83: 431-441. DOI.10.4141/S02-078
• Metzger, J.O. and U. Bornscheuer 2006. Lipids as renewable resources: current state of chemical and biotechnological conversion and diversification. Applied Microbiology and Biotechnology 71: 13–22.
• Mir, M.R., M. Mobin, N.A. Khan, M.A. Bhat, N.A. Lone, K.A. Bhat, S.M. Razavi, S.A. Wani, N. Wani, S. Akhter, S. Rashid, N.H. Masoodi and W.A. Payne. 2010. Effect of fertilizers on yield characteristics of Mustard (Brassica juncea L.). Journal Physiopthol 2(10): 20-24.
• Montemurro, F., D. De Giorgio, F. Fornaro, E. Scalcione and C. Vitti. 2007. Influence of climatic conditions on yields, n uptake and efficiency in sunflower. Italian Journal of Agrometeorology 2: 28-34.
• Mozaffari, S.N., B. Delkhosh and A.S. Rad. 2012. Effect of nitrogen and potassium levels on yield and some of the agronomical characteristics in Mustard (Brassica juncea L.). Indian Journal of Science and Technology 5(2): 2051-2054.
• Nabi, Md.N., Md.S. Akhter and M. Md. Shahadat. 2006. Improvement of engine emission withconventional diesel fuel and diesel–biodiesel blends. Bioresour Technology 97: 372-378. doi.org/10.1016/j.biortech.2005.03.013
• Panotra, N., A. Kumar and O.P. Singh. 2016. Impact of different levels of fertilizer on growth and yield of indian mustard (Brassica juncea coss) under irrigated condition of Western U.P. I.J.S.N. 7(4): 802-804.
• Patel, R.H., V. Sharma and V.P. Usadadia. 2004. Influence of irrigation schedule, spacing and nitrogen on growth, yield and quality of mustard. Department of Agronomy, Gujarat Agricultural University. India 5(2/3): 290-293.
• Reddy, B.N. and M.N. Sinha. 1989. Integrated fertilizer and water management to boost mustard production. Indian farming 39(5): 5-6.
• Reager, M.L, S.K. Sharma and R.S. Yadav. 2006. Yield attributes, yield and nutrient uptake of Indian mustard (Brassica juncea L.) Influenced by nitrogen levels and its split application in arid western Rajasthan. Indian Journal Agronomy 51(3): 213-216.
• Roche, J., A. Essahat, M. Bouniols, Z. El-Asri, M. Mouloungui, M. Mondies and M. Alghoum. 2004. Diversified composition of sunflower (Helianthus annuus L.) seeds within cultural pratices and genotypes (hibrit and populations). HELIA. 27 (40): 73-98 doi.org/.10.2298/hel0440073r
• Rodriguez, D., F.H. Andrade and J. Goudrıaan. 2000. Does assimilate supply limit leaf expansion in wheat grown in the field under low phosphorus availability. Field Crops Research 67: 227-238. doi.org/10.1016/S0378-4290(00)00098-8
• Said-AL Ahl, H. A. H., H.M. Mehanna and M.F. Ramadan, 2016. Impact of water regime and phosphorus fertilization and their interaction on the characteristics of rapeseed (Brassica napus L:) and fatty acid profile of extracted oil. Communications in Biometry and Crop Science 11(1): 64–76.
• Singh, S.B and O.V.S. Thenua. 2016. Effects of phos pho rus and sul phur fertılization on yield and nps uptake by mustard (Brassica juncea L.) Progressive Research – An International Journal Society for Scientific Development 11(1): 80-83.
• Shafi, M., S. Khan and M. Nazir. 1992. Yield and yield components of wheat in relation to different phosphorus and radiation levels Sarhad. J. Agri. 8: 1-5.
• Solanki, R.L., S. Mahendra, S.K. Sharma, H.S. Purohit and V. Arvind. 2015. Effect of different level of phosphorus, sulphur and PSB on the yield of Indian mustard (Brassica juncea L.) and soil properties and available macronutrients. Scholarly Journal of Agricultural Science 5(9): 305-310.
• Steel, R.G.D. and J.H. Torrie. 1980. Principles and procedures of statistics. McGaw-Hill Book Company. Inc. N.Y.
• Shorna, S.I., M.A.S. Polash, M.A. Sakil, M.A. Mou, M.A Hakim, A. Biswas and M.A. Hossain. 2020 Effects of nitrogenous fertilizer on growth and yield of Mustard Green. Tropical Plant Research 7(1): 30–36 doi.org/10.22271/tpr.2020.v7.i1.005
• Tahir, M., M.A. Malik, A. Tanveer and R. Ahmad. 2003. Effect of npk levels on seed yield and oil contents of canola. Pakistan Journal of Life Social Sciences 1(2): 127-132.
• Tuncturk, M. 2008. Effects of Various Phosphorus Fertilizer on the Yield and Yield Parameters of Some Summer Rape (Brassica napus ssp. oleifera L.) Cultivars. Ankara University Journal of Agricultural Sciences 14 (3): 259-266.
• Vicianová, M., L. Ducsay, P. Ryant, M. Provazník, A. Zapletalová and M. Slepčan. 2020. Oılseed rape (Brassica napus l.) nutrition by nitrogen and phosphorus and its effect on yield of seed, oil and higher fatty acids content. Acta Unıversitatis Agriculturae ET Sılviculturae Mendelianae Brunensis 68(1): 129-136.
• Wang, N., L. Shi, F. Tian, H. Ning, X. Wu, Y. Long and J. Meng 2010. Assessment of FAE1 polymorphisms in three Brassica species using EcoTILLING and their association with differences in seed erucic acid Contents. BMC Plant Biology 10:137–139
• Weiss, E.A. 1983. Safflower: In: Oilseed Crops, Tropical AgricultureSeries, Longman Inc., Leonord Hill Books, New York, USA