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  • Abrinbana M, Mozafari J, Shams-bakhsh M, Mehrabi R, 2010. Genetic structure of Mycosphaerella graminicola populations in Iran. Plant Pathology 59, 82838.
  • Agrios GN, 2005. Plant Pathology, 5th edn. Amsterdam, the Netherlands: Elsevier.
  • Ao HC, Griffiths E, 1976. Change in virulence of Septoria nodorum and S. tritici after passage through alternative hosts. Transactions of the British Mycological Society 66, 33740.
  • Atanasoff D, Dodoff DN, Kovacevski IC, Martinoff SI, Trifonova V, Christoff A, 1932. [Parasitic fungi new to Bulgaria. Third contribution.] Yearbook University of Sofia, Faculty of Agriculture, Sofia 10, 41–366. In: Review of Applied Mycology 11, 7456.
  • Audsley E, Milne A, Paveley N, 2005. A foliar disease model for use in wheat disease management decision support systems. Annals of Applied Biology 147, 16172.
  • Bailey KL, Gossen BD, Lafond GP, Watson PR, Derksen DA, 2001. Effect of tillage and crop rotation on root and foliar diseases of wheat and pea in Saskatchewan from 1991 to 1998: univariate and multivariate analyses. Canadian Journal of Plant Science 81, 789803.
  • Baker CJ, 1969. Studies on L. nodorumMüller and S. triticiDesm. on Wheat. Exeter, UK: University of Exeter, PhD thesis.
  • Bathgate JA, Loughman R, 2001. Ascospores are a source of inoculum of Phaeosphaeria nodorum, P. avenaria f. sp. avenaria and Mycosphaerella graminicola in Western Australia. Australasian Plant Pathology 30, 31722.
  • Brokenshire T, 1975a. Wheat seed infection by Septoria tritici. Transactions of the British Mycological Society 64, 3314.
  • Brokenshire T, 1975b. The role of graminaceous species in the epidemiology of Septoria tritici on wheat. Plant Pathology 24, 338.
  • Brokenshire T, 1975c. Wheat debris as an inoculum source for seedling infection by Septoria tritici. Plant Pathology 24, 2027.
  • Brown JS, 1975. The ascogenous state of Septoria tritici found in Victoria. Australian Plant Pathology Society Newsletter 4, 37.
  • Brown JS, Kellock AW, Paddick RG, 1978. Distribution and dissemination of Mycosphaerella graminicola (Fuckel) Schroeter in relation to the epidemiology of speckled leaf blotch of wheat. Australian Journal of Agricultural Research 29, 113945.
  • Brown JKM, Arraiano LS, Solares-Diaz G, Corbitt MM, Bird NJ, 2008. Reducing the yield penalty of the resistance of wheat to septoria tritici blotch. In: ProhensJ, BadenesML, eds. Modern Variety Breeding for Present and Future Needs. Valencia, Spain: Editorial Universidad Politecnica de Valencia, 286.
  • Consolo VF, Albani CM, Berón CM, Salerno GL, Cordo CA, 2009. A conventional PCR technique to detect Septoria tritici in wheat seeds. Australasian Plant Pathology 38, 2227.
  • Cordo CA, Simon MR, Perello AE, Alippi HE, 1999. Spore dispersal of leaf blotch pathogens of wheat (Mycosphaerella graminicola and Septoria tritici). In: van GinkelM, KrupinskyJ, eds. Septoria and Stagonospora Diseases of Cereals: A Compilation of Global Research. Mexico City, Mexico: CIMMYT, 98101.
  • Coriot-Costet MF, 2007. Erysiphe necator. Paris, France: Lavoisier.
  • Cowger C, McDonald BA, Mundt CC, 2002. Frequency of sexual reproduction by Mycosphaerella graminicola on partially resistant wheat cultivars. Phytopathology 92, 117581.
  • Cunningham GH, 1928. New Zealand: activities in field of plant pathology in 1927. International Bulletin of Plant Protection 10, 1578. In: Review of Applied Mycology16, 224.
  • Derevyankin AI, 1969. Specialization of the causal agents of septorioses of wheat. [O spetsializatsii vozbuditelei septoriozov Pshenitsy]. Mikologiya I Fitopatologiya 3, 2568. In: Review of Applied Mycology48, 639.
  • Desmazières JBHJ, 1842. Neuvième notice sur quelques plantes cryptogames. Annales des Sciences Naturelles. Botanique 2, 91118.
  • Desmazières JBHJ, 1847. Quatorzième notice sur quelques plantes cryptogames. Annales des Sciences Naturelles. Botanique 3, 937.
  • Dinoor A, 1977. Seed treatment of wheat with benzimidazole fungicides against Septoria tritici under semi-arid conditions. Netherlands Journal of Plant Pathology 83, 33942.
  • Djerbi M, 1977. Épidémiologie du Septoria tritici Rob. et Desm. Conservation et mode de formation de l’inoculum primaire. In: Travaux dédiés à Georges Viennot-Bourgin. Paris, France: Société Française de Phytopathologie, 91101.
  • Djerbi M, Kerlan C, Bompeix G, 1974. Observations sur la morphogénèse et la cytologie des fructifications du Septoria tritici Rob. et Desm. Annales de l’Institut National de la Recherche Agronomique de Tunisie 47, 153.
  • Dumont T, Lardinois K, Maraite H, 2006. Maturation of Mycosphaerella graminicola pseudothecia on wheat plants inoculated for heritability analysis of QoI resistance. In: BrysonRJ, BurnettFJ, FosterV, FraaijeBA, KennedyR, eds. Fungicide Resistance: Are We Winning the Battle but Losing the War? Aspects of Applied Biology 78, 1338.
  • Eriksen L, Munk L, 2003. The occurrence of Mycosphaerella graminicola and its anamorph Septoria tritici in winter wheat during the growing season. European Journal of Plant Pathology 109, 2539.
  • Eriksen L, Shaw MW, Østergård H, 2001. A model of the effect of pseudothecia on genetic recombination and epidemic development in populations of Mycosphaerella graminicola. Phytopathology 91, 2408.
  • Eyal Z, 1971. The kinetics of pycnospore liberation in Septoria tritici. Canadian Journal of Botany 49, 10959.
  • Eyal Z, 1999. The Septoria tritici and Stagonospora nodorum blotch diseases of wheat. European Journal of Plant Pathology 105, 62941.
  • Eyal Z, Scharen AL, Prescott JM, Ginkel MV, 1987. The Septoria Diseases of Wheat: Concepts and Methods of Disease Management. Mexico City, Mexico: CIMMYT.
  • Frandsen NO, 1946. Septoria species of cereals and other grasses in Denmark. [Septoria-Arten des Getreides und anderer Gräser in Dänemark.] Meddelelser fra Plantepatologisk Afdeling den Kgl. Veterinaer- og Landbohojskole26. In: Review of Applied Mycology 25, 1557.
  • Garbowski L, 1926. Diseases of cultivated plants in Great Poland, Pomerania, and Silesia in 1924 and 1925. [Choroby roślin uprawnych w Wielkopolsce, na Pomorzu I na Śląsku w r. 1924 i 1925.] Bibljoteka Polska, Bydgoszcz . In: Review of Applied Mycology 5, 7135.
  • Garcia C, Marshall D, 1992. Observations on the ascogenous stage of Septoria tritici in Texas. Mycological Research 96, 6570.
  • Gilbert J, Woods SM, 2001. Leaf spot diseases of spring wheat in southern Manitoba farm fields under conventional and conservation tillage. Canadian Journal of Plant Science 81, 5519.
  • Gladders P, Paveley ND, Barrie IA et al. , 2001. Agronomic and meteorological factors affecting the severity of leaf blotch caused by Mycosphaerella graminicola in commercial wheat crops in England. Annals of Applied Biology 138, 30111.
  • Glazek M, Sikora H, 1998. The occurrence of Septoria tritici and its teleomorph Mycosphaerella graminicola in the region of Upper Silesia in 1996. Journal of Plant Protection Research 38, 239.
  • Gough FJ, Lee TS, 1985. Moisture effects on the discharge and survival of conidia of Septoria tritici. Phytopathology 75, 1802.
  • Goyeau H, Park R, Schaeffer B, Lannou C, 2006. Distribution of pathotypes with regard to host cultivars in French wheat leaf rust populations. Phytopathology 96, 26473.
  • Gram E, Thomsen M, 1927. [Survey of the diseases of agricultural and horticultural cultivated plants in 1925.]. Tidsskrift for Planteavl 23, 84148. In: Review of Applied Mycology6, 335–7.
  • Grove WB, 1935. British Stem and Leaf Fungi. London, UK: Cambridge University Press.
  • Guyot AL, 1945. Contribution à l’étude des cryptogames parasites du Sud-Est de la France et de l’Afrique septentrionale. Annales de l’École d’Agriculture de Grignon 5, 209.
  • Haghdel M, Banihashemi Z, 2005. Survival and host range of Mycosphaerella graminicola the causal agent of Septoria leaf blotch of wheat. Iranian Journal of Plant Pathology 41, 61330.
  • Halama P, 1996. The occurrence of Mycosphaerella graminicola, teleomorph of Septoria tritici in France. Plant Pathology 45, 1358.
  • Hampton JG, 1980. Fungal pathogens in New Zealand certified wheat seed. New Zealand Journal of Experimental Agriculture 8, 3014.
  • Hilu HM, Bever WM, 1957. Inoculation, oversummering, and suscept–pathogen relationship of Septoria tritici on Triticum species. Phytopathology 47, 47480.
  • Holmes SJI, Colhoun J, 1975. Straw-borne inoculum of Septoria nodorum and S. tritici in relation to incidence of disease on wheat plants. Plant Pathology 24, 636.
  • Hoorne C, Lamari L, Gilbert J, Ballance GM, 2002. First report of Mycosphaerella graminicola, the sexual state of Septoria tritici, in Manitoba, Canada. Canadian Journal of Plant Pathology 24, 4459.
  • Hunter T, Coker RR, Royle DJ, 1999. The teleomorph stage, Mycosphaerella graminicola, in epidemics of septoria tritici blotch on winter wheat in the UK. Plant Pathology 48, 517.
  • Jlibene M, Gustafson JP, Amri A, 1995. Evaluation of Aegilops for resistance to Septoria tritici. Al Awamia 91, 8391.
  • Jones DG, Cooke BM, 1969. The epidemiology of Septoria tritici and S. nodorum. I. A tentative key for assessing Septoria tritici infection on wheat heads. Transactions of the British Mycological Society 53, 3946.
  • Kema GHJ, Verstappen ECP, Todorova M, Waalwijk C, 1996. Successful crosses and molecular tetrad and progeny analyses demonstrate heterothallism in Mycosphaerella graminicola. Current Genetics 30, 2518.
  • King JE, Cook RJ, Melville SC, 1983. A review of Septoria diseases of wheat and barley. Annals of Applied Biology 103, 34573.
  • Leroux P, Walker AS, Albertini C, Gredt M, 2006. Resistance to fungicides in French populations of Septoria tritici, the causal agent of wheat leaf blotch. Aspects of Applied Biology, 178, 15362.
  • Linde CC, Zhan J, McDonald BA, 2002. Population structure of Mycosphaerella graminicola: from lesions to continents. Phytopathology 92, 94655.
  • Lovell DJ, Parker SR, Hunter T, Royle DJ, Coker RR, 1997. Influence of crop growth and structure on the risk of epidemics by Mycosphaerella graminicola (Septoria tritici) in winter wheat. Plant Pathology 46, 12638.
  • Lucas P, 2006. Diseases caused by soil-borne pathogens. In: CookeBM, JonesDG, KayeB, eds. The Epidemiology of Plant Diseases, 2nd edn. Dordrecht, the Netherlands: Springer, 37386.
  • Luthra JC, Sattar A, Ghani MA, 1938. Perpetuation and control of Septoria disease of wheat in the Punjab. Agriculture and Livestock in India 8, 1725. In: Review of Applied Mycology17, 383.
  • Madariaga BR, 1986. The occurrence in Chile of Mycosphaerella graminicola (Fuckel) Schroeter, teleomorph of Septoria tritici Rob. ex Desm. Agricultura Tecnica 46, 20911.
  • Madden LV, Hughes G, Van den Bosch F, 2007. The Study of Plant Disease Epidemics. St. Paul, MN, USA: APS Press.
  • Marchionatto JB, 1929. New or little-known plant parasites of the Argentine. II. [Fitoparásitos de la Argentina nuevos o poco conocidos. II.] Physis, Buenos Aires 32, 145. In: Review of Applied Mycology8, 268.
  • Maumené C, Beauvallet G, Labreuche J, Orlando B, 2009. Observations relatives à l’impact du travail du sol et à la gestion des résidus de récolte sur le développement du piétin verse, de la septoriose, de l’helminthosporiose et de la fusariose du blé tendre, dans le cadre d’un essai rotation de longue durée. In: Proceedings of the 9th International Conference on Plant Diseases, 2009. Alfortville, France: AFPP, 22534.
  • McDonald BA, 2008. The population and evolutionary biology of fungal necrotrophs. In: JellisG, EdwardsC, eds. Cereal Pathosystems. BSPP, 1322. [http://www.bspp.org.uk/archives/bspp2008/docs/bspppres2008papers.pdf]
  • McDonald BA, Linde C, 2002. Pathogen population genetics, evolutionary potential, and durable resistance. Annual Review of Phytopathology 40, 34979.
  • McDonald BA, Martinez JP, 1990. DNA restriction fragment length polymorphisms among Mycosphaerella graminicola (anamorph Septoria tritici) isolates collected from a single wheat field. Phytopathology 80, 136873.
  • McKendry AL, Henke GE, 1994. Evaluation of wheat wild relatives for resistance to septoria tritici blotch. Crop Science 34, 10804.
  • Mehta YR, 1989. Occurrence of Septoria tritici and its perfect state in Brazil. In: Proceedings of the Third International Workshop on Septoria Diseases of Cereals, 1989. Zurich, Switzerland: Swiss Federal Research Station for Agronomy, 345.
  • Miège E, 1922. Observations sur quelques maladies des plantes cultivées au Maroc en 1911. Bulletin de la Société de Pathologie Végétale de France 9, 1029.
  • Montarry J, Corbière R, Andrivon D, 2007. Is there a trade-off between aggressiveness and overwinter survival in Phytophthora infestans? Functional Ecology 21, 60310.
  • Mourashkinsky KE, 1940. Diseases of winter rye in the Omsk district. Omsk District 1, 536. In: Review of Applied Mycology19, 336–7.
  • Noble M, de Tempe J, Neergaard P, 1958. An Annotated List of Seed-borne Disease. Kew, UK: CMI.
  • Obaedo H, Mamluk OF, Bayaa B, 1999. Determination of primary sources of infection of Septoria leaf blotch on wheat in Syria. Arab Journal of Plant Protection 17, 4959.
  • Parker SR, Lovell DJ, 2001. Quantifying the benefits of seed treatment for foliar disease control. In: Proceedings of the BCPC Symposium. Seed Treatment: Challenges & Opportunities. BCPC, 1818.
  • Parker SR, Lovell DJ, Royle DJ, Paveley ND, 1999. Analysing epidemics of Septoria tritici for improved estimates of disease risk. In: LucasJA, BowyerP, AndersonMH, eds. Septoria on Cereals: A Study of Pathosystems. Cambridge, UK: CABI Publishing, 96107.
  • Pastircak M, 2005. Occurrence of Mycosphaerella graminicola, teleomorph of Septoria tritici, in Slovakia. Phytoparasitica 33, 3779.
  • Pedersen EA, Hughes GR, 1992. The effect of crop rotation on development of Septoria disease complex on spring wheat in Saskatchewan. Canadian Journal of Plant Pathology 14, 1528.
  • Prestes AM, Hendrix JW, 1978. The role of Stellaria media in the epidemiology of Septoria tritici on wheat. Third International Congress of Plant Pathology. ISPP, 336.
  • Rennie WJ, Cockerell V, 2006. Seedborne diseases. In: CookeBM, JonesDG, KayeB, eds. The Epidemiology of Plant Diseases, 2nd edn. Dordrecht, the Netherlands: Springer, 35772.
  • Robert C, Fournier C, Andrieu B, Ney B, 2008. Coupling a 3D virtual wheat (Triticum aestivum) plant model with a Septoria tritici epidemic model (Septo3D): a new approach to investigate plant–pathogen interactions linked to canopy architecture. Functional Plant Biology 35, 9971013.
  • Sanderson FR, 1972. A Mycosphaerella species as the ascogenous state of Septoria tritici Rob. and Desm. New Zealand Journal of Botany 10, 7079.
  • Sanderson FR, Hampton JG, 1978. Role of the perfect states in the epidemiology of the common Septoria diseases of wheat. New Zealand Journal of Agricultural Research 21, 27781.
  • Schuh W, 1990. Influence of tillage systems on disease intensity and spatial pattern of Septoria leaf blotch. Phytopathology 80, 133740.
  • Scott PR, Sanderson FR, Benedikz PW, 1988. Occurrence of Mycosphaerella graminicola, teleomorph of Septoria tritici, on wheat debris in the UK. Plant Pathology 37, 28590.
  • Seifbarghi S, Razavi M, Aminian H, Zare R, Etebarian HR, 2009. Studies on the host range of Septoria species on cereals and some wild grasses in Iran. Phytopathologia Mediterranea 48, 4229.
  • Shaw MW, 1987. Assessment of upward movement of rain splash using a fluorescent tracer method and its application to the epidemiology of cereal pathogens. Plant Pathology 36, 20113.
  • Shaw MW, Royle DJ, 1989. Airborne inoculum as a major source of Septoria tritici (Mycosphaerella graminicola) infections in winter wheat crops in the UK. Plant Pathology 38, 3543.
  • Shearer BL, Zeyen RJ, Ooka JJ, 1974. Storage and behaviour in soil of Septoria species isolated from cereals. Phytopathology 64, 1637.
  • Shurtleff MC, Averre CW III, 1997. Glossary of Plant-pathological Terms. St. Paul, MN, USA: APS Press.
  • Sprague R, 1938. The status of Septoria graminum. Mycologia 30, 6728.
  • Sprague R, 1944. Septoria Disease of Graminae in the Western United States. Corvallis, OR, USA: Oregon State College.
  • Sprague R, 1950. Some leafspot fungi on western gramineae. Mycologia 42, 75871.
  • Stukenbrock EH, Banke S, Javan-Nikkhah M, McDonald BA, 2007. Origin and domestication of the fungal wheat pathogen Mycosphaerella graminicola via sympatric speciation. Molecular Biology and Evolution 24, 398411.
  • Sutton JC, 1985. Effectiveness of fungicides for managing foliar diseases and promoting yields of Ontario winter wheat. Phytoprotection 66, 14152.
  • Sutton JC, Vyn TJ, 1990. Crop sequences and tillage practices in relation to diseases of winter wheat in Ontario. Canadian Journal of Plant Pathology 12, 35868.
  • Sutton BC, Waterston JM, 1966. Septoria tritici. CMI Descriptions of Fungi and Bacteria, No. 9. Kew, UK: Commonwealth Agricultural Bureaux.
  • Teterevnikova-Babajan DN, Bokhjan MV, 1970. A review of Septoria species on Agropyron in the Soviet Union. Mikologiya I Fitopatologiya 4, 1827. In: Review of Applied Mycology49, 365.
  • Verreet JA, Hoffmann GM, Portner J, 1990. Evidence of the teleomorph Mycosphaerella graminicola (Fuckel) Schroeter (anamorph: Septoria tritici Rob. apud Desm.) in the Federal Republic of Germany. Journal of Phytopathology 130, 10513.
  • Weber G, 1922. Septoria diseases of wheat. Phytopathology 12, 53785.
  • Wenham HT, 1959. Studies on Septoria leaf blotch disease of wheat (Triticum aestivum L.) caused by Septoria tritici Desm. New Zealand Journal of Agricultural Research 2, 20813.
  • Williams JR, Jones DG, 1973a. Epidemiology of Septoria tritici and S. nodorum. VII. Effects of the previous year’s infection on disease development and yield in spring wheats. Transactions of the British Mycological Society 61, 339.
  • Williams JR, Jones DG, 1973b. Infection of grasses by Septoria nodorum and S. tritici. Transactions of the British Mycological Society 60, 3558.
  • Zadoks JC, Bouwman JJ, 1985. Epidemiology in Europe. In: RoelfsAP, BushnellWR, eds. The Cereal Rusts. Volume II. Diseases, Distribution, Epidemiology, and Control. Orlando, FL, USA: Academic Press, 32969.
  • Zaprometoff NG, 1929. Materials for the mycoflora of Central Asia. Part II. In: Review of Applied Mycology 17, 3389.
  • Zhan J, Mundt CC, McDonald BA, 1998. Measuring immigration and sexual reproduction in field populations of Mycosphaerella graminicola. Phytopathology 88, 13307.
  • Zhan J, Mundt CC, McDonald BA, 2001. Using restriction fragment length polymorphisms to assess temporal variation and estimate the number of ascospores that initiate epidemics in field populations of Mycosphaerella graminicola. Phytopathology 91, 10117.
  • Zhan J, Pettway RE, McDonald BA, 2003. The global genetic structure of the wheat pathogen Mycosphaerella graminicola is characterized by high nuclear diversity, low mitochondrial diversity, regular recombination, and gene flow. Fungal Genetics and Biology 38, 28697.