REFERENCES
  1. Abdollahi Hesar, A., Sofalian, O., Alizadeh, B., Asghari, A., Zali, H., 2020. Evaluation of some autumn canola genotypes based on agronomy traits and SIIG index. Journal of Crop Breeding, 12(34): 151-159.
  2. Ahmadi, M., 2010. Effect of zinc and nitrogen fertilizer rate on yield and yield components of oilseed Rape (Brassica napus ). American-Eurasian Journal Agriculture Environment Science, 7(3): 259-264.
  3. Anonymous, 2020. Statistic book of the Ministry of Agriculture. ICT Center, Deputy of Planning and Economics, Ministry of Agriculture.
  4. Asare, E., and Scarisbrick, D.H., 1995. Rate of nitrogen and sulphur fertilizers on yield, yield components, and seed quality of oilseed rape (Brassica napus ). Field Crop Research, 44(1): 41-46.
  5. Besharati, H., and Motalebifard, R., 2016. Evaluation of the effect of sulphur application and thiobacillus on some soil chemical characteristics and yield of canola in a wheat-canola rotation system. Water and Soil, 29(6): 1688-1698. doi: 10.22067/jsw.v29i6.41985
  6. Fathi, Gh., Siadat, S.A., Sadeghzadeh Hemayati, S., Zamiri, M.E., 2001. Effect of planting date on yield and yield components of three cultivars of canola in Dezful. Abstracts ofthe Seventh Congress of Crop Science and Plant Breeding, Dezful, Iran: 180-181.
  7. Ghaderi, J., Malakouti, M.J., Khavazi, K., Davoudi, M.H., 2017. A study on the effect of elemental sulphur application on yield and some qualitative traits of irrigated wheat. Crop Physiology Journal, 9(33): 69-84.
  8. Ghasem Beiki, S., Majidian, P., Rameeh, V.A., Gerami, M., Masoudi, B., 2020. Management of sulphur application some morphological properties and yield of L17 promising canola line. Journal of Crop Breeding, 12(36): 205-215. doi:10.52547/jcb.12.36
  9. Gholamhoseini, M., Atayi, R., Habibzadeh, F., Hasani, A., Valipour, M.B., 2020. Effect of zeolite and nitrogen fertilizer application on canola yield and nitrate leaching loss from root environment. Journal of Plant Ecophysiology, 12(2): 120-133.
  10. Grant, C.A., Mahli, S.S., Karamanos, R.E., 2012. Sulphur management for rapeseed. Field Crops Research, 128: 119-128.
  11. Habibi, M., Majidian, M., Rabiei, M., 2014. Effect of boron, zinc, and sulphur elements on grain yield and fatty acid composition of rapeseed. Journal of Crops Improvement, 16(1): 69-84. doi: 10.22059/jci.2014.51943
  12. Heshmati, S., Amini Dehghi, M., Fathi Amirkhiz, F., 2017. The effect of using biological and chemical phosphorus fertilizers on grain yield, oil yield and acids. Iranian Crop Sciences, 48(1): 159-169.
  13. Homayouni, Gh., Souri, M.K., Zarein, M., 2013. Effects of zinc and nitrogen on yield components of five flax genotypes. Global Journal of Science Frontier Research Chemistry, 13(1): 20-24.
  14. Jamal, A., Moon, Y.S., Abdin, M.Z., 2010. Sulphur - A general overview and interaction with nitrogen. Australian Journal of Crop Sciences, 4: 523-529.
  15. Kocheki, A., and Sarmadanya, A., 1999. Physiology of agricultural plants (translation). Mashhad Academic Jihad Publications.
  16. Ljung, K., 2013. Auxin metabolism and homeostasis during plant development. Mar 1, 140(5): 943-950.
  17. Malhi, S.S., and Gill, K.S., 2006. Cultivar and fertilizer S rate interaction effects on canola yield, seed quality, and S uptake. Canadian Journal of Plant Science, 86: 91-98.
  18. Moradi, F., 2015. Plant growth regulators in the past, present and future. Scientific publication - Promotion of research findings in agricultural and horticultural plants, 5(2): 71-95.
  19. Mostafavirad, M., Nowbahar, A., Mahjoub Khomami, A., 2018. Nutrition Management in Canola Cultivation. Agriculture and Natural Resources Research and Education Center of Guilan Province.
  20. Naderifar, M., Seyf Zadeh, S., Zakerin, H.R., Valad Abadi, S.A.R., Shirani Rad, A.H., 2019. Effect of irrigation regimes on seed germination characters of promising rapeseed lines. Iranian Journal of Seed Science and Research, 5(4): 35-46. DOI: 10.22124/jms.2018.2944
  21. Ohara, N., Naito, Y., Kasama, K., Shindo, T., Yoshida, H., Nagata, T., Okuyama, H., 2009. Similar changes in clinical and pathological parameters in Wistar Kyoto rats after a 13-week dietary intake of canola oil or fatty acid composition-based interesterified canola oil mimic. Food Chemistry Toxicology, 47: 157-162.
  22. Omidi, H., Sorosh Zadeh, A., Salehi, A., Ghezli, F.D., Evaluation osmo-priming pre-soaking on rapeseed seed germination. Agricltural Science Technology, 19: 125-136.
  23. Pasbaneslam, B., Stability of Grain and Oil Yields and Its Components in Oilseed Rape (Brassica napus L.) Under Early and Late Season Drought. Agricultural Science and Sustainable Production, 25(4): 177-187.
  24. Payandeh, K., Majdom, M., Dorougar, N., 2018. Application of micronutrient elements on quantitative and qualitative yield of rapeseed under drought tension conditions. Crop Physiology Journal, 10(38): 23-37.
  25. Pirasteh-Anosheh, H., and Emam, Y., 2019. The role of plant growth regulators in enhancing crop yield under saline conditions: from theory to practice. Iranian Journal of Crop Sciences, 21(3): 188-209.
  26. Rabiee, M., Tousi Kehal, P., 2010. Effects of time and rate of nitrogen fertilizer application on NUE and yield of rapeseed (Brassica napus ) as a second crop in paddy fields. Journal of Agricultural Science and Sustainable Production, 20(3): 135-155.
  27. Rabiee, M., Kavoosi, M., Tousi Kehal, P., 2012. Effect of nitrogen fertilizer levels and their application time on yield and some agronomic traits of rapeseed (cv. Hyola 401) in winter cultivation in Guilan. Journal of Water and Soil Science, 15(58): 199-212.
  28. Rao, M.S., and Mendham, N.J., 1991. Comparison of chinoli (Brassica campestris) and B. napus oilseed rape using different growth regulators plant population treatments. Journal Agricultural Science, 117: 177-187.
  29. Safari, M.R., Faraji, A., Dadashi, M.R., Armin, M., 2021. The effect of nitroxin application and irrigation levels on qantitative and qualitative traits of rapeseed cultivars. Journal Plant Ecophysiology, 44: 43-57.
  30. Safikhani, S., Biabani, A., Faraji, A., Rahemi, A., Gholizadeh, A., 2015. Response of some agronomic characteristics of canola (Brassica napus L.) to nitrogen fertilizer and sowing date. Journal of Crop Ecophysiology, 9(3): 429-446.
  31. Salwa, A.I., Eisa, M.M., Abass, M., Behary, S.S., 2010. Amelioration productivity of sandy soil by using Amino acids, sulphur, and micronutrients for sesame production. American Science, 6(11): 250-257.
  32. Shabanzadeh, S., and Galavi, M., 2011. Effect of micronutrient foliar application and irrigation regimes on agronomic traits and yield of black cumin (Nigella sativa L.). Environmental Stresses in Crop Sciences, 4(1): 1-9. DOI: 10.22077/escs.2011.94
  33. Solimanzadeh, H., Latifi, N., Soltani, A., 2008. Relationship of phenology and physiological traits with grain yield in different cultivars of Rapeseed (Brassica napus L.) under rainfed conditions. Journal of Agricultural Sciences and Natural Resources, 14(5): 51-62.
  34. Sparks, D.L., 2003. Environmental Soil Chemistry. Academic Press, Elsevier Science, Cambridge, MA.
  35. Tedone, L., Ali, S.A., Verdini, L., De Mastro, G., 2018. Nitrogen management strategy for optimizing agronomic and environmental performance of rainfed durum wheat under Mediterranean climate. Journal of Cleaner Production, 172: 2058-2074.