وراثت پذیری و تنوع ژنتیکی صفات گیاهچه ای ژنوتیپ های گندم در شرایط آلودگی به بیماری زنگ سیاه (Puccinia graminis f. sp. tritici)

Bamdadian, A., & Torabi, M. (1978). Epidemiology of wheat stem rust in southern areas of Iran in 1976. Iranian Journal of Plant Pathology, 14(1/4), 20-19.(In persian)

Bolton, M. D., Kolmer, J. A., & Garvin, D. F. (2008). Wheat leaf rust caused by Puccinia triticina. Molecular plant pathology, 9(5), 563-575.

Crippa, I., Bermejo, C., Espósito, M. A., Martin, E. A., Cravero, V., Liberatti, D., . . . Cointry, E. L. (2009). Genetic variability, correlation and path analyses for agronomic traits in Lentil genotypes. International Journal of Plant Breeding, 3(2), 76-80.

Dean, R., Van Kan, J. A., Pretorius, Z. A., Hammond‐Kosack, K. E., Di Pietro, A., Spanu, P. D., . . . Ellis, J. (2012). The Top 10 fungal pathogens in molecular plant pathology. Molecular plant pathology, 13(4), 414-430.

Degete, A. G., & Chala, A. (2019). Effects of Stem Rust (Puccinia graminis f. sp. tritici) on Yield, Physical and Chemical Quality of Durum Wheat Varieties in East Shoa Zone, Ethiopia. American Journal of Agriculture and Forestry, 7(2), 78-83.

Falconer, D. S. (1967). Introduction to quantitative genetics. Retrieved from

FAOSTAT, F. (2019). Agriculture Organization of the United Nations Statistical Database (http://www.faostat. fao. org). Ultima consulta, 26.

Figueroa, M., Hammond‐Kosack, K. E., & Solomon, P. S. (2018). A review of wheat diseases—a field perspective. Molecular plant pathology, 19(6), 1523-1536.

Ghazvini, H. (2012). Emergence and current status of Ug99 races of Puccinia graminis f. sp. tritici and overview of recent progresses in deployment of stem rust resistance genes for effective control of disease (keynote presentation). Paper presented at the Proceedings Of 12th Congress of Agronomy and Plant Breeding, Karaj.

Ghazvini, H., Hiebert, C. W., Zegeye, T., & Fetch, T. (2012). Inheritance of stem rust resistance derived from Aegilops triuncialis in wheat line Tr129. Canadian Journal of Plant Science, 92(6), 1037-1041.

Ghazvini, H., Hiebert, C. W., Zegeye, T., Liu, S., Dilawari, M., Tsilo, T., . . . Fetch, T. (2012). Inheritance of resistance to Ug99 stem rust in wheat cultivar Norin 40 and genetic mapping of Sr42. Theoretical and Applied Genetics, 125(4), 817-824.

Govindaraj, M., Vetriventhan, M., & Srinivasan, M. (2015). Importance of genetic diversity assessment in crop plants and its recent advances: an overview of its analytical perspectives. Genetics research international, 2015.

Haussmann, B., Parzies, H., Presterl, T., Susic, Z., & Miedaner, T. (2004). Plant genetic resources in crop improvement. Plant genetic resources, 2(1), 3-21.

Hiebert, C. W., Fetch, T. G., & Zegeye, T. (2010). Genetics and mapping of stem rust resistance to Ug99 in the wheat cultivar Webster. Theoretical and Applied Genetics, 121(1), 65-69.

Hundie, B., Yirga, F., Kassa, D., Hailu, E., Negash, T., Tesfaye, T., . . . Zegaye, H. (2018). Evaluation of Advanced Bread Wheat Lines for Field and Seedling Resistance to Stem Rust (Puccinia graminis f. sp. tritici). American Journal of Biological and Environmental Statistics, 4(2), 74-82.

Jin, Y., Singh, R., Ward, R., Wanyera, R., Kinyua, M., Njau, P., . . . Yahyaoui, A. (2007). Characterization of seedling infection types and adult plant infection responses of monogenic Sr gene lines to race TTKS of Puccinia graminis f. sp. tritici. Plant Disease, 91(9), 1096-1099.

Jin, Y., Szabo, L. J., & Carson, M. (2010). Century-old mystery of Puccinia striiformis life history solved with the identification of Berberis as an alternate host. Phytopathology, 100(5), 432-435

Kabiri, A., Zaefaian, F., Omrani, A., & Abassian, A. (2023). Evaluation of yield and yield components in promising wheat lines using multivariate statistical methods. Journal of Crop Breeding, 15(45), 135-148. doi:10.52547/jcb.15.45.135

Kanouni, H., Shahab, M., Imtiaz, M., & Khalili, M. (2012). Genetic variation in drought tolerance in chickpea (Cicer arietinum L.) genotypes.

Knott, D. R. (2012). The wheat rusts—breeding for resistance (Vol. 12): Springer Science & Business Media.

Kolmer, J. A. (2005). Tracking wheat rust on a continental scale. Current opinion in plant biology, 8(4), 441-449.

Lagudah, E. S. (2011). Molecular genetics of race non-specific rust resistance in wheat. Euphytica, 179(1), 81-91.

Leonard, K. J., & Szabo, L. J. (2005). Stem rust of small grains and grasses caused by Puccinia graminis. Molecular plant pathology, 6(2), 99-111.

Lotfi Aghmioni, M., Jaffar Aghaei, M., Vaezi, S., & Majidi Heravan, E. (2015). Evaluation of genetic diversity, heritability and genetic progress in Kabuli type chickpea genotypes. Iranian Journal Pulses Research, 6(1), 100-107.(In persian)

Manly, B. F., & Alberto, J. A. N. (2016). Multivariate statistical methods: a primer: CRC press.

Olivera, P., Newcomb, M., Szabo, L. J., Rouse, M., Johnson, J., Gale, S., . . . Burgin, L. (2015). Phenotypic and genotypic characterization of race TKTTF of Puccinia graminis f. sp. tritici that caused a wheat stem rust epidemic in southern Ethiopia in 2013–14. Phytopathology, 105(7), 917-928.

Pretorius, Z., Pakendorf, K., Marais, G., Prins, R., & Komen, J. (2007). Challenges for sustainable cereal rust control in South Africa. Australian Journal of Agricultural Research, 58(6), 593-601.

Roelfs, A. (1985). Epidemiology in North America. In Diseases, Distribution, Epidemiology, and Control (pp. 403-434): Elsevier.

Roelfs, A. P., Singh, R. P., & Saari, E. (1992). Rust diseases of wheat: concepts and methods of disease management: Cimmyt.

Saari, E. E., & Prescott, J. (1985). World distribution in relation to economic losses. In Diseases, distribution, epidemiology, and control (pp. 259-298): Elsevier.

Serfling, A., Kopahnke, D., Habekuss, A., Novakazi, F., & Ordon, F. (2017). Wheat diseases: an overview. Achieving sustainable cultivation of wheat,doi:10.19103/AS.2016.0004.19

Sharif, G., Bamdadian, A., & Daneshpajoh, B. (1970). Physiological races of wheat stem rust in Iran (1965-1970). Journal of Applied Entomology and Phytopathology, 6, 73-100.

Singh, R., & Chaudhury, B. (1985). Biometrical methods in quantitative genetic analysis kalyani publishers, New Delhi. Retrieved from

Singh, R. P., Hodson, D. P., Huerta-Espino, J., Jin, Y., Bhavani, S., Njau, P., . . . Govindan, V. (2011). The emergence of Ug99 races of the stem rust fungus is a threat to world wheat production. Annual review of phytopathology, 49, 465-481.

Singh, R. P., Hodson, D. P., Jin, Y., Lagudah, E. S., Ayliffe, M. A., Bhavani, S., . . . Huerta-Espino, J. (2015). Emergence and spread of new races of wheat stem rust fungus: continued threat to food security and prospects of genetic control. Phytopathology, 105(7), 872-884.

Singh, T., Raiger, H., Kumari, J., Singh, A., & Deshmukh, P. (2014). Evaluation of Chickpea genotypes for variability in seed protein content and yield components under restricted soil moisture condition. Indian Journal of Plant Physiology, 19, 273-280.

Soresa, D. N. (2018). Evaluation of bread wheat (Triticum aestivum L.) genotypes for resistance against stem rust (Puccinia graminis f. sp. tritici) diseases at seedling and adult stages. African Journal of Agricultural Research, 13(52), 2904-2910.

Vahed Rezaei, A., Asghari, A., Norouzi, M., Aharizad, S., Roohparvar, R., & Amini, A. (2023). Biometrical analysis of resistance to stem rust (Puccinia graminis f. sp. tritici) in the winter wheat genotypes. Journal of Plant Physiology and Breeding, 113-130. doi:10.22034/jppb.2022.51478.1271

Woldeab, G., Hailu, E., & Bacha, N. (2017). Protocols for race analysis of wheat stem rust (Puccinia graminisf.sp. tritici). In: Ethiopian Institute of Agricultural Research, Ambo Plant Protection Research.