References
Ahmed HU, Mundt CC, Hoffer ME and Coakley SM (1996) Selective influence of wheat cultivars on pathogenicity of Mycosphaerella graminicola (anamorph Septoria tritici). Phytopathology 86: 454-458
Allingham EA and Jackson LF (1981) Variation in pathogenicity, virulence, and aggressiveness of Septoria nodorum in Florida. Phytopathology 71: 1080-1085
Bailey AM, Mueller E and Bowyer P (1997) Validation of the polyamine biosynthetic pathway as a potential target for chemical control agents. In: Proceedings 15th Long Ashton International Symposium — Understanding Pathosystems: A Focus on Septoria. 15–17 September 1997. Long Ashton, UK (p 35)
Bannon FJ and Cooke BM (1998) Studies on dispersal of Septoria tritici pycnidiospores in wheat-clover intercrops. Plant Pathol 47: 49-56
Bayles RA (1991) Varietal resistance as a factor contributing to the increased importance of Septoria tritici Rob. and Desm. in the UK wheat crop. Plant Varieties and Seeds 4: 177-183
Bayles RA and Clarkson JDS (1997) Changes in varietal resistance as a factor contributing to the increased importance of Septoria tritici in the UK. In: Proceedings of the 15th Long Ashton International Symposium — Understanding Pathosystems: A Focus on Septoria. 15–17 September 1997. Long Ashton, UK (p 38)
Bostwick DE, Ohm HW and Shaner G (1993) Inheritance of septoria glume blotch resistance in wheat. Crop Sci 33: 439-443
Broennimann A (1982) Entwicklung der Kenntnissr ueber Septoria nodorum Berk. im Hinblick auf die Toleranz-oder Resistenzzuechtung bei Weizen. Nether J. Agric Sci 30: 47-69
Brokenshire T (1975) Wheat seed infection by Septoria tritici. Trans Br Mycol Soc 64: 331-334
Caten CE (1999) Molecular genetics of Stagonospora and Septoria. In: Lucas JA, Bowyer P and Anderson HM (eds) Septoria on Cereals: A Study of Pathosystems (pp 26-43) CABI Publishing, Oxon, UK
Chen RS and McDonald BA (1996) Sexual reproduction plays a major role in the genetic structure of populations of the fungus Mycosphaerella graminicola. Genetics 142: 1119-1127
Cohen L and Eyal Z (1993) The histology of processes associated with the infection of resistant and susceptible wheat cultivars with Septoria tritici. Plant Pathol 42: 737-743
Cockerell V and Rennie WJ (1996) Survey of seed-borne pathogens in certified and farm-saved cereal seed in Britain between 1992 and 1994. HGCA Project Report No. 124, Official Testing station for Scotland, Edinburgh, UK (pp 1-40)
Cooley RN, Shaw RK, Franklin FCH and Caten CE (1988) Transformation of the phytopathogenic fungus Septoria nodorum to hygromycin B resistance. Curr Genet 13: 383-389
Cooley RN, van Gorcom RFM, van den Hondel, CAMJJ and Caten CE (1991) Isolation of a benomyl-resistant allele of the β-tubulin gene from Septoria nodorum and its use as a dominant selectable marker. J Gen Microbiol 137: 2085-2091
Cunfer BM (1997) Taxonomy and nomenclature of Septoria and Stagonospora species on small grain cereals. Plant Dis 81: 427-428
Cunfer BM and Youmans J (1983) Septoria nodorum on barley and relationships among isolates from several hosts. Phytopathology 73: 911-914
Dancer J, Daniels A, Cooley N and Foster S (1999) Septoria tritici and Stagonospora nodorum as model pathogens for fungicide discovery. In: Lucas JA, Bowyer P and Anderson HM (eds) Septoria on Cereals: A Study of Pathosystems (pp 316-331) CABI Publishing, Oxon, UK
Danon T and Eyal Z (1990) Inheritance of resistance to two Septoria tritici isolates in spring and winter bread wheat cultivars. Euphytica 47: 203-214
Dubin HJ and Rajaram S (1996) Breeding disease-resistant wheats for tropical highlands and lowlands. Annu Rev Phytopathol 34: 503-526
Eyal Z (1971) The kinetics of pycnidiospore liberation in Septoria tritici. Can J Bot 49: 1095-1099
Eyal Z (1992) The response of field-inoculated wheat cultivars to mixtures of Septoria tritici isolates. Euphytica 61: 25-35
Eyal Z (1995) Virulence in Septoria tritici, the causal agent of septoria tritici blotch of wheat. In: Gilchrist L, Van Ginkel M, McNab A and Kema GHJ (eds) Proceedings of a Septoria tritici Workshop (pp 27-33) CIMMYT, Mexico DF
Eyal Z (1999a) Septoria and Stagonospora diseases of cereals: a comparative perspective. In: Lucas JA, Bowyer P and Anderson HM (eds) Septoria on Cereals: A Study of Pathosystems (pp 1-25) CABI Publishing, Oxon, UK
Eyal Z (1999b) Breeding for resistance to septoria and stagonospora diseases of wheat. In: Lucas JA, Bowyer P and Anderson HM (eds) Septoria on Cereals: A Study of Pathosystems (pp 332-344) CABI Publishing, Oxon, UK
Eyal Z and Brown MB (1976) A quantitative method for estimating density of Septoria tritici pycnidia on wheat leaves. Phytopathology 66: 11-14
Eyal Z and Talpaz H (1990) The combined effect of plant stature and maturity on the response of wheat and triticale accessions to Septoria tritici. Euphytica 46: 133-141
Eyal Z, Amiri Z and Wahl I (1973) Physiologic specialization of Septoria tritici. Phytopathology 63: 1087-1091
Eyal Z, Scharen AL, Huffman MD and Prescott JM (1985) Global insights into virulence frequencies of Mycosphaerella graminicola. Phytopathology 75: 1456-1462
Eyal Z, Scharen AL, Prescott JM and Van Ginkel M (1987) The Septoria Diseases of Wheat: Concepts and Methods of Disease Management. CIMMYT, Mexico, D.F. 51 pp
Ezrati S, Schuster S, Eshel A and Eyal Z (1997) The interrelations between isolates of Septoria tritici varying in virulence following inoculation of wheat genotypes with a mixture of isolates. In: Proceedings 15th Long Ashton International Symposium — Understanding Pathosystems: A Focus on Septoria. 15–17 September 1997. Long Ashton, UK (p 46)
Farih A and Ezzahiri B (1996) Distribution et importance des septorioses au Maroc. In: Proceedings du Symposium Regional sur les maladies des Cereales et des Legumineuses Alimentaries. 11–14 November, 1996. Rabat, Morocco pp 79-83
Fried PM and Meister E (1987) Inheritance of leaf and head resistance of winter wheat to Septoria nodorum in a diallel cross. Phytopathology 77: 1371-1375
Godwin JR, Bartlett DW and Heaney SP (1999) Azoxystrobin: implications of biochemical mode of action, pharmacokinetics and resistance management for spray programmes against Septoria diseases of wheat. In: Lucas JA, Bowyer P and Anderson HM (eds) Septoria on Cereals: A Study of Pathosystems (pp 299-315) CABI Publishing, Oxon, UK
Halama P (1999) The sexual form of Phaeosphaeria nodorum (anamorph Stagonospora nodorum): sexual systems. In: Lucas JA, Bowyer P and Anderson HM (eds) Septoria on Cereals: A Study of Pathosystems (pp 70-81) CABI Publishing, Oxon, UK
Halperin T, Schuster S, Pnini-Cohen S, Zilberstein A and Eyal Z (1996) The suppression of pycnidial production on seedlings following sequential inoculation by isolates of Septoria tritici. Phytopathology 86: 728-732
Hargreaves JA and Keon JPR (1997) Validating 4-hydroxyphenylpyruvate dioxygenase as a fungicide target in Septoria tritici. In: Proceedings 15th Long Ashton International Symposium — Understanding Pathosystems: a focus on Septoria. 15–17 September 1997. Long Ashton, UK (p 48)
Howard K, Foster SG, Cooley RN and Caten CE (1997) Gene disruption as a method of fungicide target validation. In: Proceedings 15th Long Ashton International Symposium — Understanding Pathosystems: A Focus on Septoria. 15–17 September 1997. Long Ashton, UK (p 49)
Hu X, Bostwick D, Sharma H, Ohm H and Shaner G (1996) Chromosome and chromosomal arm locations of genes for resistance to Septoria glume blotch in wheat cultivar Cotipora. Euphytica 91: 251-257
Hunter T, Coker RR and Royle DJ (1999) The teleomorph stage, Mycosphaerella graminicola, in epidemics of septoria tritici blotch on winter wheat in the UK. Plant Pathol 48: 51-57
Jeger MJ, Jones DG and Griffiths E (1983) Components of partial resistance of wheat seedlings to Septoria nodorum. Euphytica 32: 575-584
Jlibene M and El Bouami F (1995) Inheritance of partial resistance to Septoria tritici in hexaploid wheat (Triticum aestivum). In: Gilchrist L, Van Ginkel M, McNab A and Kema GHJ (eds) Proceedings of a Septoria tritici Workshop. (pp 117-125) CIMMYT, Mexico DF
Jlibene M, Gustafson JP and Rajaram S (1992) A field disease evaluation method for selecting wheat resistant to Mycosphaerella graminicola. Plant Breeding 108: 26-32
Jones DG (1985) Partial resistance, cultivar mixture and epidemic development in the Septoria nodorum-wheat association. In: Scharen AL (ed) Proceedings 2nd International Septoria of Cereals Workshop. Montana State University, Bozeman, MT pp 1-8
Jordan VWL and Hutcheon JA (1999) Disease management in less-intensive, integrated systems. In: Lucas JA, Bowyer P and Anderson HM (eds) Septoria on Cereals: A Study of Pathosystems (pp 263-272) CABI Publishing, Oxon, UK
Karjalainen R and Lounatmaa K (1986) Ultrastructure of penetration and colonization of wheat leaves by Septoria nodorum. Physiol Mol Plant Pathol 29: 263-270
Keller SM, McDermott JM, Pettway RE, Wolfe MS and McDonald BA (1997) Gene flow and sexual reproduction in the wheat glume blotch pathogen Phaeosphaeria nodorum (anamorph Stagonospora nodorum). Phytopathology 87: 353-358
Kema GHJ, Annone JG, Sayoud R, Van Silfhout CH, Van Ginkel M and de Bree J (1996a) Genetic variation for virulence and resistance in the wheat — Mycosphaerella graminicola pathosystem I. Interactions between pathogen isolates and host cultivars. Phytopathology 86: 200-212
Kema GHJ, Sayoud R, Annone JG and Van Silfhout CH (1996b) Genetic variation for virulence and resistance in the wheat — Mycosphaerella graminicola pathosystem II. Analysis of interactions between pathogen isolates and host cultivars. Phytopathology 86: 213-220
Kema GHJ, Yu DZ, Rijkenberg FHJ, Shaw MW and Baayen RP (1996c) Histology of the pathogenesis of Mycosphaerella graminicola in wheat. Phytopathology 86: 777-786
Kema GHJ, Verstappen ECP, Todorova M and Waalwijk C (1996d) Successful crosses and molecular tetrad and progeny analyses demonstrate heterothallism in Mycosphaerella graminicola. Curr Genet 30: 251-258
Kema GHJ and van Silfhout CH (1997) Genetic variation for virulence and resistance in the wheat-Mycosphaerella graminicola pathosystem III. Comparative seedling and adult plant experiments. Phytopathology 87: 266-272
Kema GHJ, Hamza S, Bonants PJM, Waalwijk C, Hagenaar-de Weerdt M, Verstaapen ECP and van der Lee TAJ (1998) The first linkage map of Mycosphaerella graminicola (anamorph Septoria tritici), Europe's major fungal wheat pathogen. In: Proceedings 7th International Congress of Plant Pathology. 9–16 August 1998, Edinburgh, Scotland, UK
Kema GHJ, Verstappen ECP, Waalwijk C, Bonants, PJM, de Koning JRA, Hagenaar-de Weerdt M, Hamza S, Koeken JGP and van der Lee TAJ (1999) Genetics of biological and molecular markers in Mycosphaerella graminicola, the cause of septoria tritici leaf blotch of wheat. In: Lucas JA, Bowyer P and Anderson HM (eds) Septoria on Cereals: A Study of Pathosystems (pp 161-180) CABI Publishing, Oxon, UK
King JE, Cook RJ and Melville SC (1983) A review of Septoria diseases of wheat and barley. Ann Appl Biol 103: 345-373
Krupinsky JM (1989) Comparison of isolates of Leptosphaeria nodorum from alternative hosts. In: Fried PM (ed) Proceedings 3rd International Septoria of Cereals Workshop. Zurich, Switzerland, pp 13-18
Krupinsky JM (1997a) Aggressiveness of Stagonospora nodorum isolates obtained from wheat in the northern great plains. Plant Dis 81: 1027-1031
Krupinsky JM (1997b) Aggressiveness of Stagonospora nodorum isolates from perennial grasses on wheat. Plant Dis 81: 1032-1036
Leath S, Scharen AL, Lund RE and Dietz-Holmes ME (1993) Factors associated with global occurrences of Septoria nodorum blotch and Septoria tritici blotch of wheat. Plant Dis 77: 1266-1270
Lehtinen U (1993) Plant cell wall degrading enzymes of Septoria nodorum. Physiol Mol Plant Pathol 43: 121-134
Lockley KD (1997) Interaction of fungicide dose and host resistance to Stagonospora nodorum in winter wheat in South West England. In: Proceedings 15th Long Ashton International Symposium — Understanding Pathosystems: A Focus on Septoria. 15–17 September 1997, Long Ashton, UK (p 52)
Lovell DJ, Parker SR, Hunter T, Royle DJ and Coker RR (1997) Influence of crop growth and structure on the risk of epidemics by Mycosphaerella graminicola (Septoria tritici) in winter wheat. Plant Pathol 46: 126-138
Ma H and Hughes GR (1993) Resistance to septoria nodorum blotch in several Triticum species. Euphytica 70: 151-157
Matus I, Molina Galan JD, Rajaram S, Gilchrist L and Castillo GF (1993) Genetica la resistencia a Septoria tritici en cinco variedades mejoradas de trigo (Triticum aestivum). Agrociencia Fitociencia 4: 105-119
McDonald BA, Pettway RE, Chen RS, Boeger JM and Martinez JP (1995) The population genetics of Septoria tritici (teleomorph Mycosphaerella graminicola). Can J Botany 73(Suppl 1): S292-S301
McDonald BA, Mundt CC and Chen RS (1996) The role of selection on the genetic structure of pathogen populations: evidence from yield experiments with Mycosphaerella graminicola on wheat. Euphytica 92: 73-80
McDonald BA, Zhan J, Yarden O, Hogan K, Garton J and Pettway RE (1999) The population genetics of Mycosphaerella graminicola and Phaeosphaeria nodorum. In: Lucas JA, Bowyer P and Anderson HM (eds) Septoria on Cereals: A Study of Pathosystems (pp 44-69) CABI Publishing, Oxon, UK
Meien-Vogeler F, Bartels G and Fehrmann H (1994) Distribution of S. tritici on wheat in Germany and its regional importance. In: Proceedings of the 4th International Septoria of Cereals Workshop. IHAR, Radzikow, Poland, pp 299-300
Messmer M, Keller M, Winzeler M, Schachermayr G, Feuillet, C, Gallego F, Winzeler H and Keller B (1997) Identification of Quantitative Trait Loci (QTL) for Septoria nodorum resistance in a wheat by Spelt population. In: Proceedings of International Triticeae Mapping Initiative (ITMI) Public Workshop. Clermont — Ferrand, France pp S12
Mundt CC, Hoffer ME, Ahmed HU, Coakley SM, DiLeone JA and Cowger C (1999) Population genetics and host resistance. In: Lucas JA, Bowyer P and Anderson HM (eds) Septoria on Cereals: A Study of Pathosystems (pp 115-130) CABI Publishing, Oxon, UK
Newton AC and Caten CE (1991) Characteristics of strains of Septoria nodorum adapted to wheat or to barley. Plant Pathol 40: 546-553
Parker SR, Lovell DJ, Royle DJ and Paveley ND (1999) Analyzing epidemics of Septoria tritici for improved estimates of disease risk. In: Lucas JA, Bowyer P and Anderson HM (eds) Septoria on Cereals: A Study of Pathosystems (pp 96-107) CABI Publishing, Oxon, UK
Payne AC (1997) Isolation of a β-tubulin gene conferring resistance to carbendazim in the phytopathogen Septoria tritici. In: Proceedings 19th Fungal Genetics Conference. March 18–23, 1997, Pacific Grove, California, pp 69
Payne AC, Grosjean Cournoyer M-C and Hollomon DW (1997) Expression of green fluorescent protein in Mycosphaerella graminicola. In: Proceedings 15th Long Ashton International Symposium — Understanding Pathosystems: a focus on Septoria. 15–17 September, 1997, Long Ashton, UK (p 58)
Pnini-Cohen S, Zilberstein A, Schuster S, Sharon A and Eyal Z (1996) Genetic transformation in the wheat pathogen Septoria tritici. Phytopathology 86(Suppl): S40
Pnini-Cohen S, Zilberstein A, Schuster S and Eyal Z (1997a) The interaction between wheat genotypes and transformants of isolate ISR398 of Septoria tritici expressing altered virulence. Phytopathology 87(Suppl): S78
Pnini-Cohen S, Zilberstein A, Sharon A and Eyal Z (1997b) The expression of the uidA reporter gene and virulence in transformants of Septoria tritici. In: Proceedings 15th Long Ashton International Symposium — Understanding Pathosystems: A Focus on Septoria. 15–17 September 1997. Long Ashton, UK (p 60)
Pnini-Cohen S, Zilberstein Z and Eyal Z (1998) Molecular tools for studying Septoria tritici virulence. In: Proceedings 7th International Congress of Plant Pathology. 9–16 August 1998, Edinburgh, Scotland, UK
Polley RW and Thomas MR (1991) Surveys of diseases of winter wheat in England and Wales, 1976–1988. Ann App Biol 119: 1-20
Rillo AO and Caldwell RM (1966) Inheritance of resistance to Septoria tritici in Triticum aestivum subsp. vulgare, Bulgaria 88. Phytopathology 56: 597
Royle DJ (1994) Understanding and predicting epidemics: a commentary based on selected pathosystems. Plant Pathol 43: 777-789
Royle DJ, Shaw MW and Cook RJ (1986) Patterns of development of Septoria nodorum and in some winter wheat crops in Western Europe, 1981–1983. Plant Pathol 35: 466-476
Saadaoui EM (1987) Physiologic specialization of Septoria tritici in Morocco. Plant Dis 71: 153-155
Scharen AL, Eyal Z, Huffman MD and Prescott JM (1985) The distribution and frequency of virulence genes in geographically separated populations of Leptosphaeria nodorum. Phytopathology 75: 1463-1468
Scott PR, Benedikz PW and Cox CJ (1982) A genetic study of the relation between height, time of ear emergence and resistance to Septoria nodorum in wheat. Plant Pathol 31: 45-60
Shaner G and Buechley G (1989) Inheritance of resistance to Mycosphaerella graminicola in wheat In: Fried PM (ed) Proceedings 3rd International Septoria of Cereals Workshop. Zurich, Switzerland, pp 133-135
Shaw MW and Royle DJ (1989) Airborne inoculum as a major source of Septoria tritici (Mycosphaerella graminicola) infections in winter wheat crops in the UK. Plant Pathol 38: 35-43
Shaw MW (1999) Population dynamics of Septoria in the crop ecosystem. In: Lucas JA, Bowyer P and Anderson HM (eds) Septoria on Cereals: A Study of Pathosystems (pp 82-95) CABI Publishing, Oxon, UK
Skinner W, Bailey A, Renwick A, Gurr S, Keon J and Hargreaves J (1998) Molecular genetics of carboxin resistance in Mycosphaerella graminicola. In: Proceedings 7th International Congress of Plant Pathology. 9–16 August 1998, Edinburgh, Scotland, UK
Smedegard-Petersen V (1974) Leptosphaeria nodorum (Septoria nodorum), a new pathogen of barley in Denmark, and its physiologic specialisation on barley and wheat. Fortryk af Friesia 10: 251-264
Van Beuningen LT and Kohli MM (1990) Deviation from the regression of infection on heading and height as a measure of resistance to Septoria tritici blotch in wheat. Plant Dis 74: 488-493
Wilson RE (1979) Resistance to Septoria tritici in two wheat cultivars, determined by independent, single dominant gene. Austral Plant Pathol 8: 16-18
Zelikovitch N and Eyal Z (1989) Maintenance of Septoria tritici cultures. Mycol Res 92: 361-364
Zelikovitch N and Eyal Z (1991) Reduction in pycnidial coverage after inoculation of wheat with mixtures of isolates of Septoria tritici. Plant Dis 75: 907-910
Zelikovitch N, Eyal Z and Kashman Y (1992) Isolation, purification, and biological activity of an inhibitor from Septoria tritici. Phytopathology 82: 275-278
Zhan J, Mundt CC and McDonald BA (1998) Measuring immigration and sexual reproduction in field populations of Mycosphaerella graminicola. Phytopathology 88: 1330-1337
Zilberstein A, Pnini-Cohen S, Eyal Z, Shuster S, Hillel J and Lavi U (1993) Application of DNA fingerprinting for detecting genetical variation among isolates of the pathogen Mycosphaerella graminicola. In: Chet I (ed) Biotechnology in Plant Disease Control. (pp 341-353) Wiley-Liss, New York, USA
Zinkernagel V, Reiss F, Wiedland M and Bartscherer HC (1987) Infection structures of Septoria nodorum in leaves of susceptible wheat cultivars. J Plant Dis and Protection 95: 169-175
Zuckerman E, Eshel A and Eyal Z (1997) Physiological aspects related to tolerance of spring wheat cultivars to Septoria tritici blotch. Phytopathology 87: 60-65
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Eyal, Z. The Septoria Tritici and Stagonospora Nodorum Blotch Diseases of Wheat. European Journal of Plant Pathology 105, 629–641 (1999). https://doi.org/10.1023/A:1008716812259
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DOI: https://doi.org/10.1023/A:1008716812259