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ENHANCING SESAME OIL CONTENT AND SEED YIELD THROUGH NITROGEN MANAGEMENT

By: Azam Khan, Shazma Anwar, Junaid Ahmad, Bibi Safia, Abid Ullah, Wajia Noor, Sannia Rani, Sultan Nawaz, Muhsin Khan, Manzoor Ahmad, Abbas Saleem

Key Words: Sesame, Nitrogen management, Foliar, Oil yield, Oil content.

Int. J. Biosci. 16(1), 32-41, January 2020.

DOI: http://dx.doi.org/10.12692/ijb/16.1.32-41

Certification: ijb 2020 0300 [Generate Certificate]

Abstract

Sesame is an important oilseed crop and receives more attention due to its significance and oil contents. Yield components and quality of oilseed crops are mainly regulated by nutrient management at field level. A field experiment was carried out to assess the effect of nitrogen management on yield and yield component of sesame crop at Agronomy Research farm, The University of Agriculture Peshawar. The experiment was conducted in randomized complete block (RCB) design. Three levels of nitrogen (40, 80 and 120 kg ha1) and four levels of application method (95% soil + 5% foliar, 90% soil + 10% foliar, 85% soil +1 5% foliar) along with one control for both nitrogen levels and one water spray for application method were used in experiment. Urea was applied as sources of nitrogen. The application of nitrogen at the rate of 120 kg ha-1 resulted in maximum biological yield (4002 kg ha-1). With respect to 80 kg N ha-1 application resulted more capsule plant1 (82), seed capsule1 (61), more seed yield (839 kg ha1), oil % (46.85 %), and oil yield (394 kg ha1). Similarly nitrogen application method at 90% soil + 10% foliar produced more seed capsule1 (60), seed yield (858 kg ha-1), more oil % (47.39% kg ha-1) and maximum oil yield (407 kg ha-1) were recorded. From the experimental results, it is concluded that nitrogen application at the rate of 80 kg ha-1 at 90% soil + 10% foliar application method performed better in terms of oil content, oil and seed yield of sesame and is recommended for general cultivation of sesame.

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ENHANCING SESAME OIL CONTENT AND SEED YIELD THROUGH NITROGEN MANAGEMENT

Ali EA, Ahmed SY. 2012. Influence of nitrogen rates and foliar spray by different concentration of copper on sesame seed and oil yield as well as nitrogen use efficiency in sandy soil. Research Journal for Agriculture and Biological Sciences 8(2), 174-178.

El-Defan TAA, Abdel ASA, Mawgoud SA, El-Gindi, El-Kholi HEM. 1999. The role of soil amendments on soil fertility and the response of wheat grown in saline sodic soil. Egyptian Journal for Agricultural Research 77, 27-39.

El-Said MA, Mahdy AY. 2016. Response of two wheat cultivars to foliar application with amino acids under low levels of nitrogen fertilization. Middle East Journal 5(4), 462-472.

Fayed EHM, Hassan AA, Hussain SMA. 2000. Sesame performance as affected by seeding rate and nitrogen levels under drip irrigation system in newly cultivated sandy soil. Annals of Agriculture Science. 38(1), 65-73.

Gnanamurthy P, Xavier H, Balasubramanian P. 1992. Spacing and nitrogen requirement of Sesame (Sesame indicumL.). Indian Journal of Agronomy 37(4), 857–859.

Hinton K, Frink MS, Hollington H. 2012. Qualitative traits of sesame under nitrogen fertilization ratings and application procedures. Journal of Agronomy 23((2), 231-240.

Ibrahim M, Tahir MA, Tahir S, Ayub A, Tanveer A, Rehman H. 2014. Effect of nitrogen levels on two sesame (Sesame indicumL.) varities under climatic conditions of Pakistan. International Journal for Plant and Soil Science (3), 281-288.

Khan N, Khalil SK, Amanullah Ali A, Ullah Z, Ali M. 2016. Effect of nitrogen and sulfur on yield and yield components of sesame (Sesame indicum L.) in calcareous soil. Pure and applied Biology 5(3), 471-475.

Mailk MA, Saleem MF, Cheema MA, Ahmed S. 2003. Infuuence of different nitrogen levels on productivity of sesame (Sesamum indicum L.) under varying planting pattern. International Journal of Agriculture Biology 5(4), 490-4992.

Menorak K, Quins LK. 2009. The influence of nitrogen leveling on sesame yield and quality. Journal of Agriculture and Social Science 8(1), 1009-1022.

Saeed B, Gul H, Khan AZ, Parveen L, Badshahand NL, Khan A. 2012. Physiological and quality assessment of wheat (Triticum aestivumL.) cultivars in response to soil and foliar fertilization of nitrogen and sulphur. ARPN Journal of Agricultural and Biological Sciences 7(2), 1990-6145.

Satyanarayanamma M, Pillani RN, Satyanarayana A. 1996. Effects of foliar application of urea on yield and nutrient-uptake by Mungbean. Journal of Maharahtra Agriculture University 21, 315-316.

Sharer MS, Ayub M, Choudhry MA, Asif M. 2000. Growth and yield of sesame genotypes as influenced by NP application. International Journal of Agriculture Biology 2, 86-88.

Shehu EH, Kwari JW, Sandabe MK. 2010. Nitrogen, phosphorus and potassium nutrition of sesame (Sesamum indicum L.). New York Science Journal 3(12), 21-27.

Shilpi S, Islam MN, Sutradhar GNC, Husna A, Akter F. 2012. Effect of nitrogen and sulfur on the growth and yield of sesame. International Journal Bioresearch and Stress Management 3(2), 177-182.

Steel RGD, Torrie JH. 1984. Principles and procedure of statistics 2nd ed Mc, Graw Hill, New York.

Thanvanathan K, Ganapathy M, Parkash M, Imayavaramban V. 2001. Nutrient uptake and quality characters of sesame (Sesamum indicum L.) as influence by microhuttient, Bio-fertilizer and phytohormones. Sesame and safflower Newsletter. 16, 1013-1015.

Tiwari RK, Namdeo KN, Jha G. 2000. Effect of nitrogen and sulfur on growth yield and quality of sesame (Sesame indicium L.) varieties. Gaurav Social Agriculture Research Information Centre. 1(2), 163-167.

Toan DP, Thuy-Duong TNA, Carlsson S, Bui TM. 2010. Morphological evaluation of sesame (Sesame indicum L.) varieties from different origins. Australian Journal of Crop Science 4, 498-504.

Yasir H, Khan G, Shah SA, Mahmood K, Kamal S.2013. The integrative response of macro nutrients on yield and yield components of sesame (Sesame indicum L.). Journal of Plant Animal Science 31, m824-830.

Zeidan MS, Manal F, Hamouda HA. 2010. Effect of foliar fertilization of Fe, Mn, and Zn on wheat yield and quality in low sandy soil fertility. World Journal Agriculture Science 6(6), 696-699.

Azam Khan, Shazma Anwar, Junaid Ahmad, Bibi Safia, Abid Ullah, Wajia Noor, Sannia Rani, Sultan Nawaz, Muhsin Khan, Manzoor Ahmad, Abbas Saleem.
ENHANCING SESAME OIL CONTENT AND SEED YIELD THROUGH NITROGEN MANAGEMENT.
Int. J. Biosci. 16(1), 32-41, January 2020.
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