Measuring and Modeling Crop Loss of Wheat Caused by Septoria Leaf Blotch in Seven Cultivars and Lines in Iran

Journal title

Journal of Plant Protection Research




No 3

Publication authors

Divisions of PAS

Nauki Biologiczne i Rolnicze


Committee of Plant Protection PAS ; Institute of Plant Protection – National Research Institute ; Polish Society of Plant Protection




eISSN 1899–007X ; ISSN 1427–4345


Burleigh J. (1972), Estimating damage to wheat caused by <i>Puccinia recondita tritici</i>, Phytopathology, 62, 944. ; Campbell C. (1990), Introduction to Plant Disease Epidemiology, 532. ; Chungu C. (2001), <i>Septoria tritici</i> blotch development as affected by temperature, duration of leaf wetness, inoculum concentration, and host, Plant Dis, 85, 430. ; Cordo C. (1999), Septoria and Stagonospora Disease of Cereal: A Compilation of Global Research, 98. ; S. Dad rezaie (2003), Effect of <i>Septoria tritici</i> infections at different growth stages on yield and yield components of three wheat cultivars, Seed and Seedling J, 19, 101. ; Eyal Z. (1981), Integrated control of Septoria diseases of wheat, Plant Dis, 65, 763. ; Eyal Z. (1987), The Septoria diseases of wheat: concepts and methods of disease management, 46. ; Eyal Z. (1999), The Septoria/Stagonospora blotch diseases of wheat: past, peresent, and future, 177. ; Forrer H. (1983), Yield reduction in wheat in relation to leaf necrosis caused by <i>Septoria tritici</i>, Neth. J. Plant Pathol, 89, 87. ; Gregory L. (1978), Predicting yield losses in corn from southern corn leaf blight, Phytopathology, 68, 517. ; Hghdael M. (2003), Reaction of wheat cultivars to isolates of <i>Septoria tritici</i> under greenhouse and controlled chamber conditions, Iranian J. Plant Pathol, 39, 65. ; Khelghatibana F. (2006), Evaluation of synthetic hexaploid wheat lines for resistance to Septoria tritici in field, null, 12. ; Khelghatibana F. (2004a), Evaluation of the wheat genotypes from north elite regional wheat yield trials (ERWYT-2003) for resistance to Septoria tritici in field, null, 14. ; Khelghatibana F. (2004b), Evaluation of wheat lines and genotypes from advanced regional wheat yield trials (ARWYT) for resistance to Septoria tritici in field, null, 13. ; Kia Sh. (2006a), Evaluation of resisitance to Septoria leaf blotch in wheat lines and cultivars, null, 3. ; Kia Sh. (2006b), Study on the effects of Septoria leaf blotch (Septoria tritici) infection on yield reduction of wheat cultivars in Golestan province, null, 4. ; Madden L. (1983), Measuring and modeling crop losses at the field level, Phytopathology, 73, 1591. ; Madden L. (2000), Coupling disease — progress — curve and time — of — infection for predicting yield loss of crop, Phytopathology, 90, 788. ; Madden L. (1981), A comparison of Crop loss models, Phytopathology, 101, 196. ; Magboul A. (1992), Environmental influence on the infection of wheat by <i>Mycosphaerella graminicola</i>, Phytopathology, 82, 1407. ; McKendry A. (1995), Effect of Septoria leaf blotch on soft red winter wheat milling and baking quality, Cereal Chemistry, 72, 142. ; Mehrabi M. (2002), Evaluation of tetraploid wheat accessions of Triticum turgidum to Septoria leaf blotch (Mycosphaerella graminicola) disease, null, 26. ; Milus E. (1994), Effect of leaf rust and Septoria leaf blotch on yield and test weight of wheat in Arkansas, Plant Dis, 78, 55. ; Nazari A. (2002), Resistance sources against Septoria leaf blotch in advanced lines of wheat, null, 170. ; Pouralibaba H. (2004), Evaluation of some advanced dry land wheat genotypes for resistance to Septoria leaf blotch disease caused by Septoria tritici (per. Mycosphaerella graminicola), null, 47. ; Rajaram S. (1999), Septoria and Stagonospora Disease of Cereal: A Compilation of Global Research, 1. ; Robert C. (2004), Analysis and Modeling of effects of leaf rust and <i>Septoria tritici</i> blotch on wheat growth, J. Exp. Bot, 55, 1079. ; Saari E. (1975), A scale for appraising the foliar intensity of wheat diseases, Plant Dis. Report, 59, 377. ; Scharen A. (1999), Septoria and Stagonospora Disease of Cereal: A Compilation of Global Research, 19. ; Shaw M. (1989), Airborne inoculum as a major source of <i>Septoria tritici</i> (<i>Mycosphaerella graminicola</i>) infections in winter wheat crops in the UK, Plant Pathol, 38, 35. ; Teng P. (1987), Crop Loss Assessment and Pest Management, 105. ; Thomas M. (1989), Factors affecting development of <i>Septoria tritici</i> in winter wheat and its effect on yield, Plant Pathol, 38, 246. ; Torabi M. (1980), Wheat septorios and its importance in Iran, Iranian J. Plant Pathol, 16, 7. ; Torabi M. (2002), Evaluation of resistance of advanced dry land wheat lines at seedling and adult stages against Septoria leaf blotch in different part of Iran, null, 6. ; Zhang X. (2007), Modeling the effect of cultivar resistance on yield losses of winter wheat in natural multiple disease conditions, Eur. J. Agron, 26, 384.