Details

Title

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

Yearbook

2009

Volume

vol. 49

Numer

No 3

Publication authors

Divisions of PAS

Nauki Biologiczne i Rolnicze

Publisher

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

Date

2009

Identifier

eISSN 1899–007X ; ISSN 1427–4345

References

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.

DOI

10.2478/v10045-009-0039-8

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