Playing on a pathogen's weakness: using evolution to guide sustainable plant disease control strategies.
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[1] Benoit Barrès,et al. Co-infection alters population dynamics of infectious disease , 2015, Nature Communications.
[2] P. Kozma,et al. Rapid and multiregional adaptation to host partial resistance in a plant pathogenic oomycete: evidence from European populations of Plasmopara viticola, the causal agent of grapevine downy mildew. , 2014, Infection, genetics and evolution : journal of molecular epidemiology and evolutionary genetics in infectious diseases.
[3] J. Burdon,et al. Achieving sustainable plant disease management through evolutionary principles. , 2014, Trends in plant science.
[4] G. Rebetzke,et al. Guiding deployment of resistance in cereals using evolutionary principles , 2014, Evolutionary applications.
[5] Peter H. Thrall,et al. Evolution of Pathogen Specialisation in a Host Metapopulation: Joint Effects of Host and Pathogen Dispersal , 2014, PLoS Comput. Biol..
[6] D. Penny,et al. Two New Fern Chloroplasts and Decelerated Evolution Linked to the Long Generation Time in Tree Ferns , 2014, Genome biology and evolution.
[7] J. Burdon,et al. What have we learned from studies of wild plant-pathogen associations?—the dynamic interplay of time, space and life-history , 2014, European Journal of Plant Pathology.
[8] James K. M. Brown,et al. Fitness costs and trade‐offs of disease resistance and their consequences for breeding arable crops , 2013 .
[9] J. Dangl,et al. Pivoting the Plant Immune System from Dissection to Deployment , 2013, Science.
[10] R. Michelmore,et al. Impacts of resistance gene genetics, function, and evolution on a durable future. , 2013, Annual review of phytopathology.
[11] M. Boudreau,et al. Diseases in intercropping systems. , 2013, Annual review of phytopathology.
[12] B. McDonald,et al. Experimental measures of pathogen competition and relative fitness. , 2013, Annual review of phytopathology.
[13] Matthew J Moscou,et al. Engineering plant disease resistance based on TAL effectors. , 2013, Annual review of phytopathology.
[14] Neil McRoberts,et al. The use and role of predictive systems in disease management. , 2013, Annual review of phytopathology.
[15] J. Burdon,et al. Genes, communities & invasive species: understanding the ecological and evolutionary dynamics of host-pathogen interactions. , 2013, Current opinion in plant biology.
[16] B. McDonald,et al. Association between Virulence and Triazole Tolerance in the Phytopathogenic Fungus Mycosphaerella graminicola , 2013, PloS one.
[17] S. Subramanian. Significance of Population Size on the Fixation of Nonsynonymous Mutations in Genes Under Varying Levels of Selection Pressure , 2013, Genetics.
[18] E. Domingo,et al. Evidence of Muller's ratchet in herpes simplex virus type 1. , 2013, The Journal of general virology.
[19] B. Schmid,et al. Costs of resistance to fungal pathogens in genetically modified wheat , 2013 .
[20] R. Froissart,et al. AN EXPERIMENTAL TEST OF THE TRANSMISSION‐VIRULENCE TRADE‐OFF HYPOTHESIS IN A PLANT VIRUS , 2013, Evolution; international journal of organic evolution.
[21] A. Palloix,et al. Virus adaptation to quantitative plant resistance: erosion or breakdown? , 2012, Journal of evolutionary biology.
[22] B. Howlett,et al. Effect of rotation of canola (Brassica napus) cultivars with different complements of blackleg resistance genes on disease severity , 2012 .
[23] J. Laakso,et al. This Reprint May Differ from the Original in Pagination and Typographic Detail. Life History Trade-offs and Relaxed Selection Can Decrease Bacterial Virulence in Environmental Reservoirs Life History Trade-offs and Relaxed Selection Can Decrease Bacterial Virulence in Environmental Reservoirs , 2022 .
[24] Xianming Chen,et al. Histological and cytological characterization of adult plant resistance to wheat stripe rust , 2012, Plant Cell Reports.
[25] Sam P. Brown,et al. Evolution of virulence in opportunistic pathogens: generalism, plasticity, and control , 2012, Trends in microbiology.
[26] M. Hood,et al. The evolution of disease resistance and tolerance in spatially structured populations , 2012, Ecology and evolution.
[27] M. Briones,et al. Phylogenetic evidence based on Trypanosoma cruzi nuclear gene sequences and information entropy suggest that inter-strain intragenic recombination is a basic mechanism underlying the allele diversity of hybrid strains. , 2012, Infection, genetics and evolution : journal of molecular epidemiology and evolutionary genetics in infectious diseases.
[28] A. Newton,et al. Pathogen Populations Evolve to Greater Race Complexity in Agricultural Systems – Evidence from Analysis of Rhynchosporium secalis Virulence Data , 2012, PloS one.
[29] Adnane Nemri,et al. Rapid genetic change underpins antagonistic coevolution in a natural host-pathogen metapopulation. , 2012, Ecology letters.
[30] Niklaus J Grünwald,et al. Emergence of the sudden oak death pathogen Phytophthora ramorum. , 2012, Trends in microbiology.
[31] T. Payne,et al. Global incidence of wheat rusts and powdery mildew during 1969–2010 and durability of resistance of winter wheat variety Bezostaya 1 , 2012, European Journal of Plant Pathology.
[32] J. Herrick. GENETIC VARIATION AND DNA REPLICATION TIMING, OR WHY IS THERE LATE REPLICATING DNA? , 2011, Evolution; international journal of organic evolution.
[33] H. Monod,et al. Influence of cultivated landscape composition on variety resistance: an assessment based on wheat leaf rust epidemics. , 2011, The New phytologist.
[34] D. Schlatter,et al. A coevolutionary framework for managing disease-suppressive soils. , 2011, Annual review of phytopathology.
[35] James K. M. Brown,et al. Plant-parasite coevolution: bridging the gap between genetics and ecology. , 2011, Annual review of phytopathology.
[36] D. Hodson,et al. The emergence of Ug99 races of the stem rust fungus is a threat to world wheat production. , 2011, Annual review of phytopathology.
[37] B. McDonald,et al. Effect of hosts on competition among clones and evidence of differential selection between pathogenic and saprophytic phases in experimental populations of the wheat pathogen Phaeosphaeria nodorum , 2011, BMC Evolutionary Biology.
[38] A. Buckling,et al. Host-parasite coevolutionary arms races give way to fluctuating selection. , 2011, Ecology letters.
[39] P. Innocenti,et al. Experimental Evidence Supports a Sex-Specific Selective Sieve in Mitochondrial Genome Evolution , 2011, Science.
[40] T. Giraud,et al. COMPETITION, COOPERATION AMONG KIN, AND VIRULENCE IN MULTIPLE INFECTIONS , 2011, Evolution; international journal of organic evolution.
[41] A. Buckling,et al. Bacteria-Phage Antagonistic Coevolution in Soil , 2011, Science.
[42] J. Oakeshott,et al. Evolution in agriculture: the application of evolutionary approaches to the management of biotic interactions in agro-ecosystems , 2011, Evolutionary applications.
[43] C. Wellings,et al. Global status of stripe rust: a review of historical and current threats , 2011, Euphytica.
[44] J. Burdon,et al. Spatial variation in disease resistance: from molecules to metapopulations , 2011, The Journal of ecology.
[45] C. Durel,et al. Aggressiveness of eight Venturia inaequalis isolates virulent or avirulent to the major resistance gene Rvi6 on a non‐Rvi6 apple cultivar , 2010 .
[46] Cheng-qiang He,et al. Intragenic Recombination as a Mechanism of Genetic Diversity in Bluetongue Virus , 2010, Journal of Virology.
[47] M. Bonierbale,et al. Quantitative resistance to late blight from Solanum berthaultii cosegregates with RPi-ber: insights in stability through isolates and environment , 2010, Theoretical and Applied Genetics.
[48] D. Nelson,et al. Ecological genetics of the Bromus tectorum (Poaceae)-Ustilago bullata (Ustilaginaceae) pathosystem: A role for frequency-dependent selection? , 2010, American journal of botany.
[49] R. Testolin,et al. Breakdown of resistance to grapevine downy mildew upon limited deployment of a resistant variety , 2010, BMC Plant Biology.
[50] R. Lanfear,et al. A generation time effect on the rate of molecular evolution in invertebrates. , 2010, Molecular biology and evolution.
[51] P. Peterson. American Chestnut: The Life, Death, and Rebirth of a Perfect Tree , 2010, Agricultural History.
[52] B. Tivoli,et al. Effect and underlying mechanisms of pea-cereal intercropping on the epidemic development of ascochyta blight , 2010, European Journal of Plant Pathology.
[53] A. Ostling,et al. The Consequences of Spatial Structure for the Evolution of Pathogen Transmission Rate and Virulence , 2009, The American Naturalist.
[54] C. Lannou,et al. Aggressiveness components and adaptation to a host cultivar in wheat leaf rust. , 2009, Phytopathology.
[55] C. Lannou,et al. Aggressiveness and its role in the adaptation of plant pathogens , 2009 .
[56] A. Newton,et al. Quantitative evolution of aggressiveness of powdery mildew under two‐cultivar barley mixtures , 2009 .
[57] C. Durel,et al. Spatial deployment of gene-for-gene resistance governs evolution and spread of pathogen populations , 2009, Theoretical Ecology.
[58] S. Gandon,et al. Interactions between Genetic Drift, Gene Flow, and Selection Mosaics Drive Parasite Local Adaptation , 2008, The American Naturalist.
[59] J. Burdon,et al. Life history determines genetic structure and evolutionary potential of host-parasite interactions. , 2008, Trends in ecology & evolution.
[60] J. V. van Elsas,et al. A procedure for the metagenomics exploration of disease-suppressive soils. , 2008, Journal of microbiological methods.
[61] C. Brasier,et al. The biosecurity threat to the UK and global environment from international trade in plants , 2008 .
[62] J. Kowal,et al. Polymorphism, genetic exchange and intragenic recombination of the aureolysin gene among Staphylococcus aureus strains , 2008, BMC Microbiology.
[63] Brigitte Courtois,et al. A genome-wide meta-analysis of rice blast resistance genes and quantitative trait loci provides new insights into partial and complete resistance. , 2008, Molecular plant-microbe interactions : MPMI.
[64] B. McDonald,et al. Evolution of the CYP51 gene in Mycosphaerella graminicola: evidence for intragenic recombination and selective replacement. , 2008, Molecular plant pathology.
[65] C. Mundt,et al. Specificity of incomplete resistance to Mycosphaerella graminicola in wheat. , 2008, Phytopathology.
[66] Henrik Hauggaard-Nielsen,et al. Grain legume–cereal intercropping: The practical application of diversity, competition and facilitation in arable and organic cropping systems , 2008, Renewable Agriculture and Food Systems.
[67] K. Sayre,et al. The role of conservation agriculture in sustainable agriculture , 2008, Philosophical Transactions of the Royal Society B: Biological Sciences.
[68] T. Marcel,et al. Isolate specificity of quantitative trait loci for partial resistance of barley to Puccinia hordei confirmed in mapping populations and near-isogenic lines. , 2008, The New phytologist.
[69] Pierre Gladieux,et al. On the Origin and Spread of the Scab Disease of Apple: Out of Central Asia , 2008, PloS one.
[70] A. Stringaro,et al. Increase of Virulence and Its Phenotypic Traits in Drug-Resistant Strains of Candida albicans , 2008, Antimicrobial Agents and Chemotherapy.
[71] T. Giraud,et al. Multiple Infections by the Anther Smut Pathogen Are Frequent and Involve Related Strains , 2007, PLoS pathogens.
[72] J. Sheppard,et al. Sustained genetic control of wheat rust diseases in north-eastern Australia , 2007 .
[73] C. Wellings. Puccinia striiformis in Australia: a review of the incursion, evolution, and adaptation of stripe rust in the period 1979–2006 , 2007 .
[74] C. Mundt,et al. Sexual reproduction facilitates the adaptation of parasites to antagonistic host environments: Evidence from empirical study in the wheat-Mycosphaerella graminicola system. , 2007, International journal for parasitology.
[75] Yir-Chung Liu,et al. High diversity of vegetative compatibility types in Cryphonectria parasitica in Japan and China , 2007, Mycologia.
[76] N. Naqvi,et al. A Multidrug Resistance Transporter in Magnaporthe Is Required for Host Penetration and for Survival during Oxidative Stress[W] , 2006, The Plant Cell Online.
[77] P. Rice,et al. An oxidation-sensing mechanism is used by the global regulator MgrA in Staphylococcus aureus , 2006, Nature chemical biology.
[78] S. Ceccarelli,et al. Differential Selection on Rhynchosporium secalis During Parasitic and Saprophytic Phases in the Barley Scald Disease Cycle. , 2006, Phytopathology.
[79] G. Martin,et al. Bacterial elicitation and evasion of plant innate immunity , 2006, Nature Reviews Molecular Cell Biology.
[80] B. McDonald,et al. Selection for increased cyproconazole tolerance in Mycosphaerella graminicola through local adaptation and in response to host resistance. , 2006, Molecular plant pathology.
[81] T. Giraud,et al. Pathogen Relatedness Affects the Prevalence of Within‐Host Competition , 2006, The American Naturalist.
[82] P. Hosseini,et al. Seasonality and the dynamics of infectious diseases. , 2006, Ecology letters.
[83] N. Grünwald,et al. The biology of Phytophthora infestans at its center of origin. , 2005, Annual review of phytopathology.
[84] J. West,et al. Role of Ascospores in Further Spread of QoI-Resistant Cytochrome b Alleles (G143A) in Field Populations of Mycosphaerella graminicola. , 2005, Phytopathology.
[85] T. Turkington,et al. Cultivar rotation as a strategy to reduce leaf diseases under barley monoculture , 2005 .
[86] R. Akins. An update on antifungal targets and mechanisms of resistance in Candida albicans. , 2005, Medical mycology.
[87] F. Laurens,et al. Breakdown of Pl2, a major gene of resistance to apple powdery mildew, in a French experimental orchard , 2005 .
[88] Q. C. Truong-Bolduc,et al. MgrA Is a Multiple Regulator of Two New Efflux Pumps in Staphylococcus aureus , 2005, Journal of bacteriology.
[89] M. Mazzola. Assessment and management of soil microbial community structure for disease suppression. , 2004, Annual review of phytopathology.
[90] J. Burdon,et al. The fitness costs to plants of resistance to pathogens , 2003, Genome Biology.
[91] B. Kinloch,et al. White pine blister rust in north america: past and prognosis. , 2003, Phytopathology.
[92] M. Kreitman,et al. Fitness costs of R-gene-mediated resistance in Arabidopsis thaliana , 2003, Nature.
[93] B. McDonald,et al. The global genetic structure of the wheat pathogen Mycosphaerella graminicola is characterized by high nuclear diversity, low mitochondrial diversity, regular recombination, and gene flow. , 2003, Fungal genetics and biology : FG & B.
[94] J. Burdon,et al. Evolution of Virulence in a Plant Host-Pathogen Metapopulation , 2003, Science.
[95] J. Swiader,et al. Nitrogen Nutrition, But Not Potassium, Affects Powdery Mildew Development in Hiemalis Begonia , 2003 .
[96] James K. M. Brown. Yield penalties of disease resistance in crops. , 2002, Current opinion in plant biology.
[97] James K. M. Brown,et al. Aerial Dispersal of Pathogens on the Global and Continental Scales and Its Impact on Plant Disease , 2002, Science.
[98] C. Mundt,et al. Local adaptation and effect of host genotype on the rate of pathogen evolution: an experimental test in a plant pathosystem , 2002 .
[99] C. Mundt,et al. Aggressiveness of Mycosphaerella graminicola Isolates from Susceptible and Partially Resistant Wheat Cultivars. , 2002, Phytopathology.
[100] B. Gossen,et al. Irrigation Increases Verticillium Wilt Incidence in a Susceptible Alfalfa Cultivar. , 2002, Plant disease.
[101] C. Jenner,et al. A fitness cost for Turnip mosaic virus to overcome host resistance. , 2002, Virus research.
[102] J. Burdon,et al. Evolution of gene‐for‐gene systems in metapopulations: the effect of spatial scale of host and pathogen dispersal , 2002 .
[103] D. Pink. Strategies using genes for non-durable disease resistance , 2002, Euphytica.
[104] V. Caffier,et al. Observed and predicted changes over eight years in frequency of barley powdery mildew avirulent to spring barley in France and Denmark , 2002 .
[105] C. Mundt,et al. Using Restriction Fragment Length Polymorphisms to Assess Temporal Variation and Estimate the Number of Ascospores that Initiate Epidemics in Field Populations of Mycosphaerella graminicola. , 2001, Phytopathology.
[106] B. G. Baldwin,et al. Unequal evolutionary rates between annual and perennial lineages of checker mallows (Sidalcea, Malvaceae): evidence from 18S-26S rDNA internal and external transcribed spacers. , 2001, Molecular biology and evolution.
[107] J. Burdon,et al. Effect of resistance variation in a natural plant host–pathogen metapopulation on disease dynamics , 2000 .
[108] Valérie Caffier,et al. The European barley powdery mildew virulence survey and disease nursery 1993-1999. , 2000 .
[109] R. Bayles,et al. Breakdown of the Yr17 resistance to yellow rust of wheat in northern Europe. , 2000 .
[110] Youyong Zhu,et al. Genetic diversity and disease control in rice , 2000, Nature.
[111] B. McDonald,et al. The Genetic Structure of Field Populations of Rhynchosporium secalis from Three Continents Suggests Moderate Gene Flow and Regular Recombination. , 2000, Phytopathology.
[112] C. Mundt,et al. Specific adaptation by Mycosphaerella graminicola to a resistant wheat cultivar , 2000 .
[113] S. Gandon,et al. Evolution of parasite virulence against qualitative or quantitative host resistance , 2000, Proceedings of the Royal Society of London. Series B: Biological Sciences.
[114] A. Parco,et al. Fine mapping and DNA marker-assisted pyramiding of the three major genes for blast resistance in rice , 2000, Theoretical and Applied Genetics.
[115] B. McDonald,et al. Genetic Structure of Rhynchosporium secalis in Australia. , 1999, Phytopathology.
[116] L. Nunney. THE EFFECTIVE SIZE OF A HIERARCHICALLY STRUCTURED POPULATION , 1999, Evolution; international journal of organic evolution.
[117] J. Hamer,et al. An ATP‐driven efflux pump is a novel pathogenicity factor in rice blast disease , 1999, The EMBO journal.
[118] Wolfe,et al. Genetic control of the resistance of Erysiphe graminis f.sp. hordei to five triazole fungicides , 1998 .
[119] C. Gilligan,et al. Persistence of Host-parasite Interactions in a Disturbed Environment , 1997 .
[120] C. Mundt,et al. Evolution of a pathogen population in host mixtures: rate of emergence of complex races , 1997, Theoretical and Applied Genetics.
[121] R. O’Hara,et al. Immigration of the barley mildew pathogen into field plots of barley , 1996 .
[122] T. Mitchell-Olds,et al. GENETICS OF BRASSICA RAPA. 3. COSTS OF DISEASE RESISTANCE TO THREE FUNGAL PATHOGENS , 1996, Evolution; international journal of organic evolution.
[123] V. Caffier,et al. Seasonal changes in pathotype complexity in French populations of barley powdery mildew , 1996 .
[124] K. Bailey,et al. Managing cereal diseases under reduced tillage , 1996 .
[125] N. Moran. Accelerated evolution and Muller's rachet in endosymbiotic bacteria. , 1996, Proceedings of the National Academy of Sciences of the United States of America.
[126] L. Hurst,et al. Recent advances in understanding of the evolution and maintenance of sex. , 1996, Trends in ecology & evolution.
[127] L. Nunney. MEASURING THE RATIO OF EFFECTIVE POPULATION SIZE TO ADULT NUMBERS USING GENETIC AND ECOLOGICAL DATA , 1995, Evolution; international journal of organic evolution.
[128] J. Burdon,et al. Changed patterns of resistance in a population of Linum marginale attacked by the rust pathogen Melampsora lini. , 1995 .
[129] C. Mundt,et al. Effect of wheat cultivar mixtures on populations of Puccinia striiformis races , 1994 .
[130] R. May,et al. The evolution of virulence in parasites and pathogens: reconciliation between two competing hypotheses. , 1994, Journal of theoretical biology.
[131] Andrew P. Martin,et al. Body size, metabolic rate, generation time, and the molecular clock. , 1993, Proceedings of the National Academy of Sciences of the United States of America.
[132] M Slatkin,et al. FST in a hierarchical island model. , 1991, Genetics.
[133] W. Hamilton,et al. Sexual reproduction as an adaptation to resist parasites (a review). , 1990, Proceedings of the National Academy of Sciences of the United States of America.
[134] A. Kondrashov. Deleterious mutations and the evolution of sexual reproduction , 1988, Nature.
[135] R. Lande,et al. Viable Populations for Conservation: Effective population size, genetic variation, and their use in population management , 1987 .
[136] M. Wolfe,et al. Host‐mediated interactions between pathogen genotypes , 1984 .
[137] W. Hamilton. Sex versus non-sex versus parasite , 1980 .
[138] I. Pascoe,et al. Occurrence and distribution of wheat stripe rust in Victoria and susceptibility of commercial wheat cultivars , 1980, Australasian Plant Pathology.
[139] A. Bainbridge. Effect of Nitrogen Nutrition of the Host on Barley Powdery Mildew , 1974 .
[140] A. J. Ullstrup. The Impacts of the Southern Corn Leaf Blight Epidemics of 1970-1971 , 1972 .
[141] R. Papendick,et al. Influence of Water Potential of Soils and Plants on Root Disease , 1972 .
[142] L A Tatum,et al. The Southern Corn Leaf Blight Epidemic , 1971, Science.
[143] T. Johnson. Man-Guided Evolution in Plant Rusts: Through his modification of the host plants of the cereal rusts, man is also modifying the rusts. , 1961, Science.
[144] R. Mykytowycz. An Attenuated Strain of the Myxomatosis Virus Recovered from the Field , 1953, Nature.
[145] S. Wright,et al. Isolation by Distance. , 1943, Genetics.
[146] D. S. St. Clair. Quantitative disease resistance and quantitative resistance Loci in breeding. , 2010, Annual review of phytopathology.
[147] S. Powers,et al. Quantitative resistance increases the durability of qualitative resistance to Leptosphaeria maculans in Brassica napus. , 2010, The New phytologist.
[148] R. Nelson,et al. Shades of gray: the world of quantitative disease resistance. , 2009, Trends in plant science.
[149] Archna P. Gupta,et al. Functional analysis of a novel ABC transporter ABC4 from Magnaporthe grisea. , 2008, FEMS microbiology letters.
[150] J. Waage,et al. Agricultural biosecurity , 2007, Philosophical Transactions of the Royal Society B: Biological Sciences.
[151] Howard S. Judelson,et al. The spores of Phytophthora: weapons of the plant destroyer , 2005, Nature Reviews Microbiology.
[152] J. Staub,et al. Selection for multiple disease resistance reduces cucumber yield potential , 2004, Euphytica.
[153] H. Schultz,et al. Nitrogen and ultraviolet radiation modify grapevines' susceptibility to powdery mildew , 2003 .
[154] T. Burgess,et al. Quarantine is important in restricting the spread of exotic seed-borne tree pathogens in the southern hemisphere , 2002 .
[155] C. Mundt. Use of multiline cultivars and cultivar mixtures for disease management. , 2002, Annual review of phytopathology.
[156] B. McDonald,et al. Pathogen population genetics, evolutionary potential, and durable resistance. , 2002, Annual review of phytopathology.
[157] B. M. Gardener,et al. Microbial populations responsible for specific soil suppressiveness to plant pathogens. , 2002, Annual review of phytopathology.
[158] T R Gottwald,et al. The citrus canker epidemic in Florida: the scientific basis of regulatory eradication policy for an invasive species. , 2001, Phytopathology.
[159] David M. Rizzo,et al. New pests and diseases: Sudden oak death syndrome fells 3 oak species , 2001 .
[160] J. Shroyer,et al. The impact of reduced tillage on soilborne plant pathogens. , 1998, Annual review of phytopathology.
[161] R. Nelson,et al. Allelism of blast resistance genes in near-isogenic lines of rice , 1994 .
[162] N. Ellstrand,et al. POPULATION GENETIC CONSEQUENCES OF SMALL POPULATION SIZE: Implications for Plant Conservation , 1993 .
[163] H. Thurston. Plant disease management practices of traditional farmers , 1990 .
[164] D. Krieg,et al. Cotton Management Strategies for a Short Growing Season Environment: Water‐Nitrogen Considerations , 1990 .
[165] S. Leath,et al. PYRAMIDING MAJOR GENES FOR RESISTANCE TO MAINTAIN RESIDUAL EFFECTS , 1988 .
[166] P. Manion,et al. Dutch elm disease and elm yellows in central New York: out of the frying pan into the fire. , 1988 .
[167] S. Anagnostakis,et al. Chestnut blight: the classical problem of an introduced pathogen , 1987 .
[168] J. L. Dean,et al. Introduction of sugarcane rust into the Americas and its spread to Florida. , 1985 .
[169] K. El-Zik. Integrated control of Verticillium wilt of cotton. , 1985 .
[170] M. Wolfe. The Current Status and Prospects of Multiline Cultivars and Variety Mixtures for Disease Resistance , 1985 .
[171] H. Hohl,et al. Strains of Phytophthora infestans from Switzerland with A2 mating type behaviour , 1984 .
[172] I. Watson,et al. Long distance transport of spores of Puccinia graminis tritici in the southern hemisphere , 1983 .
[173] A. Roelfs. Effects of Barberry Eradication on Stem Rust in the United States , 1982 .
[174] L. T. Evans,et al. Wheat and its rust parasites in Australia. , 1981 .
[175] A. Dinoor. Sources of Oat crown rust resistance in hexaploid and tetraploid wild Oats in Israel. , 1970 .
[176] H. H. Flor. The Complementary Genic Systems in Flax and Flax Rust , 1956 .
[177] Hh Flor,et al. Host-parasite interaction in flax rust–its genetics and other implications , 1955 .
[178] S. Wright,et al. Evolution in Mendelian Populations. , 1931, Genetics.