Abdi, M., Mohamadi G. N., & Golchin, A. 2002. The influence of foliar nutrition of urea and potassium chloride on grain yield, grain protein content, yield components and leaf relative water content of Sardari wheat under rainfed condition. Agricultural Science, 8(1), 29-38. [In Persian]
Adnan, M., Shah, Z., Ullah, H., Khan, B., Arshad, M., Ahmad, M. I., Ali khan, G., Alam, M., Basir, A. Rahman, I., Ali, M., & Ullah khan, W. 2016. Yield response of wheat to nitrogen and potassium fertilization. Published by Bolan Society for Pure and Applied Biology, 5(4), 868-875.
http://dx.doi.org/10.19045/bspab.2016.50109
Agricultural Statistics. 2021-2022. Ministry of Agriculture Jihad, Crops, No1: p. 100. [In Persian]
Aown, M., Raza, S., Saleem, M. F., Anjum, S. A., Khaliq, T., & Wahid, M. A. 2012. Foliar application of potassium under water deficit conditions improved the growth and yield of wheat (Triticum aestivum L.). The Journal of Animal & Plant Sciences, 22(2), 431-437.
Arabi, M. I. E., MirAli, N., & Jawhar, M. 2002. Effect of foliar and soil potassium fertilization on wheat yield and severity of
Septoria tritici blotch. Australasian Plant Pathology, 31, 359–362.
https://doi.org/10.1071/AP02040
Campillo, R, Jobet, C., & Undurraga, P. 2010. Effects of nitrogen on productivity, grain quality, and optimal nitrogen rates in winter wheat cv. Kumpainia in Andisols of southern Chile. Chilian Journal of Agricultural Research, 70, 122-131.
Dashadi, M. 2020. Influence of nitrogen and potassium application on yield and yield components of Rainfed wheat under different rotation managements. Iranian Dryland Agronomy Journal,
9(2), 153-172.
https://doi.org/10.22092/idaj.2020.342343.297. [In Persian]
Demiral, T., & Turkan, I. 2005. Comparative lipid peroxidation, antioxidant defense systems and proline content in roots of two rice cultivars differing in salt tolerance. Environmental and Experimental Botany, 53, 247-257
. http://dx.doi.org/10.1016
EL-Abady, M., Seadh, S., EL-Ward, A., Ibrahim, A., & EL-Emami, A. M. 2009. Irrigation with holding and potassium foliar application effect on wheat yield and quality. International Journal of Sustainable Crop Production, 4(4), 33-39.
ElHadi, A. H., Ismail, A. K. M., & El Akabawy, M. A. 1997. Effect of potassium on the drought resistance of crops in Egyptian conditions. In: A. E. Johnston(ed) food security in the WANA region, the essential need for balanced fertilization, 26-30 May 1997, Izmir, Turkey, pp. 328-336.
Feizi Asl, V. 2020. Evaluation of soil fertility status in northwest of Iran drylands by nutrient index value (NIV). Water and Soil (Agricultural Sciences and Technology), 34(4), 897-919.
https://doi.org/ 10.22067/JSW.V34I4.84165.
[In Persian]
Food and Agriculture Organization. Wheat production in 2020 from pick lists: Crops/World regions/Production quantity. UN Food and Agriculture Organization, Statistics Division, FAOSTAT. 2022. Retrieved 7 March 2022.
Gath, S. 1992. Dynamics of K availability in soils (German). Report of the institute furlandeskultar, Jestus-Liebig University Giessen, Germany.
Hasheminasab, F. S., Mousavi Baygi, M., Bakhtiari, B., & Bannayan, M. 2014. The effects of rainfall on dryland wheat yield and water requirement satisfaction index at different time scales. Irrigation and Water Engineering, 5(1), 1-13. [In Persian]
Havlin, J. L., Beaton, J. D., Tisdale, S. L., & Nelson, W. L. 1999. Soil fertility and fertilizers, an introduction to nutrient management. Prentice – Hall, Inc.
Jahanbin, Sh., Vafapour, M., Yadavi, A., & Behzadi, Y. 2015. Assessment of growth and some characteristics of wheat cultivar of Alvand under deficit irrigation and foliar application of potassium di-hydrogen phosphate. Agricultural Science and Sustainable Production, 25(3), 103-118. [In Persian]
Johnston, A. E., Barraclough, P. B, Poulton, P. R., & Dawson, C. J. 1998. Assessment of some spatial variable soil factors limiting crop yield. Proceeding No. 419, the International Fertilizer Society, York, UK, 48 Pages.
Limon-ortega, A., Munguia-Lopez, J. P., & Espitia-Rangel, E. 2020. Foliar K application to rainfed wheat in a soil testing high K as an option to improve K use efficiency, grain yield and yield components. Journal of Plant Nutrition, 43(8), 1080-1090.
doi: 10.1080/01904167.2020.1724301.
Malakouti, M. J., & Gheybi, M. N. 1997. Determining the critical limit of nutritional elements of strategic crops and correct fertilizer recommendations in the country. Publications of the Agricultural Research, Education and Extension Organization. [In Persian]
Malghani, A. L., Malik, A. U., Sattarb, A., Hassaina, F., Abbasc, G., & Hussaind, J. 2010. Response of growth and yield of wheat to NPK fertilizer. Science International (Lahore), 24 (2), 185-189
Raza, M. A. S., Saleem, M. F., Shah, G. M., Jamil, M., & Khan, I. H. 2013. Potassium applied under drought improves physiological and nutrient uptake performances of wheat (
Triticum Aestivun L.). Soil Science and Plant Nutrition, 13(1), 175-185.
http://dx.doi.org/10.4067/S0718-95162013005000016
Sadeghi Fard, M., Malakouti, M. J., Jalali, V., & Zare, A. A. 2022. Investigation of the role of potassium Sulfate solution containing zinc chelate in increasing yield and decreasing water consumption in wheat in Kahnooj region (Kerman). Plant Process and Function, 11(49), 63-74.
https://doi.org/20.1001.1.23222727.1401.11.49.8.1 [In Persian]
Salisbury, F. B., & Ross, C. W. 1992. Plant physiology. Fourth edition. Wadswarth publishing company, Belmont, California, pp. 682
Sharma, N. 2002. Response of draft wheat to NPK and Ca. Indian Journal Plant Physiology, 25, 364-370.
Tavakoli, N., Ebadi Khazineh, A., & Tavakoli, H. 2015. Variations of dry matter yield, some of osmolytes and nutrient elements in wheat genotypes (
Triticum aestivum L.) under drought stress. Ecophysiology,
9(353), 353-370. [In Persian]
Wyrwa, P., Diatta, J. B., & Grzebisz, W. 1998. Spring triticale reaction to stimulated drought and potassium fertilization. In: Proceedings of the 11th International symposium on Codes of good fertilizer practice and balanced fertilization. 27-29, Pulawy, Poland, pp. 255-259.