Abbaszadeh, B., Layeghhaghighi, M., Azimi, R. and Hadi, N. (2020) Improving water use efficiency through drought stress and using salicylic acid for proper production of Rosmarinus officinalis L. Industrial Crops and Products 144: 111893.
Abreu, ME and Munne-Bosch, S. (2008). Salicylic acid may be involved in the attenuates cadmium toxicity in pea seedlings. Plant Physiology and Biochemistry 54-47: 224-231.
Ahmadi, K., Rostami, M and Hosseinzadeh, SR. (2017). The effect of methanol foliar application on yield and yield components of two cultivars of rapeseed (Brassica napus L.) under dry conditions. Iranian Agricultural Research Journal. 16 (3): 629-640. (In Persian)
Ahmadpour, R., Armand, N., Hosseinzadeh, SR and Reja, M. (2015). Evaluation of the effect of pachymethanol solution on some morphological, physiological and biochemical indicators of lentils (Lens culinaris Medik) under water stress conditions. Journal of Iranian Legume Research. 7 (2): 202-214. (In Persian)
Ahyaei, HR., Rizvani Moghadam, P and Amiri Deh Ahmadi, R. (2008) Investigating the effect of drought stress on some morphological indicators of three medicinal plants, milk thistle, marigold and black seed in greenhouse conditions, the first national conference on environmental stresses in agricultural sciences, Birjand, Iran. (In Persian)
Angadi, SV., Cutforth, HW., McConkey, BG and Gan, Y. (2003). Yield adjustment by canola grown at different plant populations under semiarid conditions. Crop Science 43: 1358-1366.
Azizinia, Sh., Ghanadha, M. R., Zali, A. A., Yazdi Samadi, B., Ahmadi, A and Blum, A. (2005). Drought resistance, water-use efficiency, and yield potential- are they compatible, dissonant, or mutually exclusive? Australian Journal of Agricultural Research 56: 1159–1168.
Din, J., Khan, SU., Ali, I., and Gurmani, AR. (2011). Physiological and agronomic response of canola varieties to drought stress. Journal of Animal and Plant Sciences 21 (1): 78-82.
Downie, A., Miyazaki, S., Bohnert, H., John, P., Coleman, J., Parry, M and Haslam. R. (2004). Expression profiling of the response of Arabidopsis thaliana to methanol stimulation. Phytochemistry. 65(16): 2305–2316.
Emartpardaz, J., Hami, A., and Kazemnia, H. (2015). Effect of foliar application of methanol in water stress condition on yield components of Phaseolus vulgaris L. Agricultural Science and Sustainable Production Science 25: 125-137. (In Persian)
Ezzati, N., Maleki, A. and Fathi, A. (2018). Effect of drought stress and foliar spraying of gibberellic acid and salicylic acid on quantitative and qualitative yield of rapeseed (Brassica napus L.). Journal of Plant Environmental Physiology. 14 (6): 94-109.
Faraji, A., Latifi, NA., Soltani, A and Shirani Rad. AH. (2012). Effect of temperature stress and supplemental irrigation on flawer and pod formation in two canola (Brassica napus L.) cultivars at mediterranean climate. Asian Journal of Plant Sciences, 7 (4): 343-351.
Gerami, M., Ghorbani, A. and Karimi, S. (2018) Role of salicylic acid pretreatment in alleviating cadmium-induced toxicity in Salvia officinalis L. Iranian Journal of Plant Biology, 10: 81 -95. (In Persian)
Heydari, A., Bijanzadeh, E. and Imam, Y. (2014). Effect of end-of-season drought stress and salicylic acid on seed yield and plant shading temperature in two canola cultivars. Scientific Research Quarterly Journal of Crop Physiology. Ahvaz Islamic Azad University. 7 (27): 37-53. (In Persian)
Hosseinzadeh, S. R., Salimi, A., and Ganjeali, A. (2011). Effects of foliar application of methanol on morphological characteristics of chickpea (Cicer arietinum L.) under drought stress. Environmental Stresses in Crop Science 4: 139-150. (In Persian)
Kalantarahmadi, SA., Ebadi, A., Daneshian, J., Siadat, A. and Jahanbakhsh, S. (2015). The effect of drought stress and foliar application of growth regulators on the content of photosynthetic pigments and seed yield of rapeseed (Brassica napus L.) variety Hayola 401. Iranian Journal of Agricultural Sciences. 18 (3): 196-217. (In Persian)
Khan, W., Prithiviraj B. and Smith, D. (2012). Photosynthetic responses of corn and soybean to foliar application of salicylates. Journal of Plant Physiology 160: 485-492.
Lee, BR., Islam, MT., Park, SH., Jung, HI., Bae, DW and Kim, TH. (2019). Characterization of salicylic acid-mediated modulation of the drought stress responses: Reactive oxygen species, proline, and redox state in Brassica napus. Environmental and experimental botany, 157, 1-10.
Mirakhori, M., Paknejad, F., Ardakani, M., Moradi, F., Nazeri, P., and Nasri, M. (2011). Effect of methanol spraying on yield and yield components of soybean (Glycine max L.). Agroecology 2 (2): 236-244. (In Persian)
Mirakhori, M., Paknejad, F., Vazan, S., Nazeri, P., Reihani, Y., and Mortezapoor, H. (2010). Effect of methanol foliar application on yield and yield components of red bean. 11th Iranian Crop Science Congress. Environmental Sciences Research Institute, Shahid Beheshti University, Tehran, Iran. (In Persian)
Mohammadi, H., Javadzadeh, R., Pasban Eslam, B., & Parviz, L. (2018). Evaluation of the Effects of Drought Stress and Salicylic Acid on Growth and Physiological Parameters in Four Spring Canola Cultivars. Iranian Journal of Field Crops Research, 16(4), 807-819. doi: 10.22067/gsc.v16i4.70532. (In Persian).
MSTAT-C. (1993). MSTAT-C, A Microcomputer Program for the Design, Arrangement and Analysis of Agronomic Research Experiments.Michigan State University.
Nadali, I., Yarnia, M., Paknezhad, F and Farahvash, F. (2016). Study of some qualititative and quantitative traits of sugar beet in response to foliar application of methanol and drought stress. Environmental Stresses in Crop Sciences 8 (2): 169-187. (In Persian)
Nasri, M., Khalatbari, M., Zahedi, H., Paknejad, F., and Tohidi Moghadam, H.R. (2008). Evaluation of micro and macro elements in drought stress condition in cultivars of rapeseed (Brassica napus L.). American Journal Agricultural Biology Sciences. 3: 579-583.
Qaderi, MM., Kurepin, LV and Reid, DM (2006). Growth and physiological responses of canola (Brassica napus) to three components of global climate change: temperature, carbon dioxide and drought. Physiologia Plantarum. 128, 710–721.
Rajala, A., Karkkainen, J., Peltonen, J and Peltonen-Sainio, P. (2012). Foliar application of alcohols failed to enhance growth and yield of C3 crops. Journal of Industrial Crops and Products. 7: 129 - 137.
Ramberg, H., and Bradley, J. (2002). The role of methanol in promoting plant growth: an update. Plant Biochemistry and Biotechnology 1: 113-126.
Sadaqat, HA., Tahir, MHN and Hussain, MT (2003). Physiogenetic Aspects of Drought Tolerance in Canola (Brassica napus). International Journal of Agriculture and Biology. 5 (4), 611-614.
Safarzadeh Vishkai, MN. (2016). The effect of methanol on the growth and yield of peanuts, PhD thesis, Islamic Azad University, Research Sciences Branch, Tehran. 236 p. (In Persian)
Sahraei, E. Maleki, A., Pazoki, A. and Fathi, A. (2018). The effect of Salicylic and Ascorbic Acid on Eco physiological Characteristics and German Chamomile Essences in Deficit of Water. Applied Research of Plant Ecophysiology. 5(1): 117-142.
Shekari, Sh. (2003). Self-sufficient seed rapeseed, Sabze Land Magazine, No. 3, 44-40.
Sinaki, JM., Heravan, EM., Rad, AHS., and Zarei, G. (2007). The effects of water deficit during growth stages of canola (Brassica napus L.). American-Eurasian Journal of Agricultural & Environmental Science 2 (4): 417-422.
SPSS Inc. (1996). SPSS: SPSS Ver. 22 for Windows Update. SPSS Inc. USA.
Taherabadi, S., Parsa, M., and Nezami, A. (2015). Effects of irrigation and foliar application of methanol on growth indices of chickpea (Cicer arietinum L.). Environmental Stresses in Crop Sciences 7 (2): 273-276. (In Persian)
Yadollahi Dehchecsme P., Bagheri A., Amiri A, and Esmailzade Bahabadi S. (2014). Effect of drought stress and chitosan foliar application on yield and photosynthetic pigments of sunflower (Heliantus unnuus L.). Crop Physiology 2014; 6 (21):73-83
Zbieć, I., Karczmarczyk, S and Podsiadło, C. (2003). Response of some cultivated plants to methanol as compared to supplemental irrigation. Electronic Journal of Polish Agricultural Universities 6(1): 1-7.