Anderson, E. J., Ali, L. M. D., Beavis, W. D., Chen, P., Clemente, T. E., Diers, B. W., Graef, G. L., Grassini, P., Hyten, D. L., McHale, L. K., Nelson, R. L., Parrott, W. A., Patil, G. B., Stupar, R. M., and Tilmon, K. J., 2019. Soybean [ Glycine max (L.) Merr.] Breeding: History, improvement, production and future opportunities. In Al-Khayri, J. Jain, S. and Johnson. D. (Eds). Advances in plant breeding strategies: Legumes. Springer. Cham. p. 431-516.
Anonymous, 2018. Ministry of Agriculture, Statistics and Technology office. pp. 89.
Arab, Gh. H. 2005. A study of heritability of important quantitative characters in soybean, Master،s thesis. Islamic Azad University of Ardabil. pp.145.
Arab, Gh. H. 2007. Evaluation of soybean varieties and pure lines in Mazandaran, agricultural Information and scientific documents center. 86.818. 86.8.1.
Arab, Gh. H. 2008. Final yield evaluation of soybean pure lines in Mazandaran, agricultural Information and scientific documents center. 78.85.232. 78.1.22 .
Arab, Gh. H. 2011. Introduction of Tapour soybean variety, Agricultural Research and Education organization. 51979. 96.4.26.
Arab, Gh. H. 2014. Final yield evaluation of soybean pure lines in warm and humid climate of the north part of Iran. 47256. 94.3.23 .
Boerma, H. R., and Specht, J. E. 2004. Soybeans. Improvement, Production, and Uses. Third Edition, American Society of Agronomy, Crop Science Society of America, Madison, Wisconsin, USA ,1144 pp.
Ehdaee, B. 1986. Plant breeding Publications of shahid chamran University. Ahvaz, Iran. pp: 624. (In Persian).
Gale, F., Valdes, C., and Ash, M. 2019. Interdependence of China, United States, and Brazil in soybean trade. U. S., Department of Agriculture, Economic Research Service, 48p.
Hartman, G. L., Chang, H. X., and Leandro, L. F., 2015. Research advances and management of soybean sudden death syndrome. Crop Protect. 73, 60–66. doi: 10.1016/j.cropro.2015.01.017
Herrero-Huerta, M., Rodriguez-Gonzalvez, P., and Rainey, K. M. 2020. Yield prediction by machine learning from UAS-based multi-sensor datafusion in soybean. Plant Methods 16: 1-16.
The Islamic Republic News Agency (IRNA). 2021. Ministry of Agriculture News. code: 84459435. https://www.irna.ir/.
Kaur, S., Dhillon, G. S., Brar, S. K., Vallad, G. E., Chand, R., and Chauhan, V. B., 2012. Emerging phytopathogen Macrophomina phaseolina: biology, economic importance and current diagnostic trends. Crit. Rev. Microbiol. 38: 136–151. doi: 10.3109/1040841X.2011.640977.
Moreira, F. F., Hearst, A. A., Cherkauer, K. A., and Rainey, K. M., 2019. Improving the efficiency of soybean reeding with high-throughput canopy phenotyping. Plant Methods 15: 1-9.
Pawlowski, M. L., Hill, C. B., and Hartman, G. L., 2015. Resistance to charcoal rot identified in ancestral soybean germplasm. Crop Sci. 55:1230. doi: 10.2135/cropsci2014.10.0687.
Raeyat Panah, S., Alavi, V., Arab, Gh. H. 2007. Reaction of some Soybean Advanced Lines to Charcoal Rot Disease. Seed and Plant Journal. 23(2):181-189. (In Persian).
Smith, G., and Wyllie, T., 1999. “Charcoal rot,” in Compendium of Soybean disease, 4th Edn, ed St. Paul (Minnesota, MN: American Phytopathological Society). 29–31.
The Cambridge History of Iran. 1983. P.766. www.perseus.tufts.edu. Retrieved 2021-02-04.
Wyllie, T. D. 1988. “Charcoal rot of soybean: Current status,” in Soybean Diseases of the North Central Region, eds T. D. Wyllie and D. H. Scott. (St. Paul, MN: American Phytopathological Society), 106–113.
Yazdi samadi, B., Rezaiee, A. Valizadeh, M., and 1997. Statistical designs in agricultural research. Tehran University Publications. pp.764. (In Persian).