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  • Bahri, B., O. Kaltz, M. Leconte, C. de Vallavieille-Pope, and J. Enjalbert. 2009a. Tracking costs of virulence in natural populations of the wheat pathogen, Puccinia striiformis f.sp. tritici. BMC Evolutionary Biology9:112.
  • Bahri, B., M. Leconte, A. Ouffroukh, C. de Vallavieille-Pope, and J. Enjalbert. 2009b. Geographic limits of a clonal population of wheat yellow rust in the Mediterranean region. Molecular Ecology18:41654179.
  • Barrett, L. G., P. H. Thrall, J. J. Burdon, and C. C. Linde. 2008. Life history determines genetic structure and evolutionary potential of host–parasite interactions. Trends in Ecology & Evolution23:678685.
  • Bayles, R. A., K. Flath, M. S. Hovmøller, and C. deVallavieille-Pope. 2000. Breakdown of the Yr17 resistance to yellow rust of wheat in northern Europe. Agronomie20:805811.
  • Bonman, J. M., G. S. Khush, and R. J. Nelson. 1992. Breeding rice for resistance to pests. Annual Review of Phytopathology30:507528.
  • Boshoff, W. H. P., Z. A. Pretorius, and B. D. Van Niekerk. 2002. Establishment, distribution, and pathogenicity of Puccinia striiformis f.sp. tritici in South Africa. Plant Disease86:485492.
  • Brown, J. K. M., and M. S. Hovmøller. 2002. Aerial dispersal of pathogens on the global and continental scales and its impact on plant disease. Science297:537541.
  • Brown, J. K. M.2006. Being more costly under conditions that are suboptimal for the fungus, as shown for B. graminis and M. graminicola. 13th Conference of the Spanish Society for Phytopathology, Murcia: 15.
  • Burdon, J. J., and P. H. Thrall. 2008. Pathogen evolution across the agro-ecological interface: implications for disease management. Evolutionary Applications1:5765.
  • Chen, X. M.2005. Epidemiology and control of stripe rust Puccinia striiformis f. sp. tritici on wheat. Canadian Journal of Plant Pathology27:314337.
  • Claus, S., P. Wernecke, U. Pigla, and G. Dubsky. 1995. A dynamic model describing leaf temperature and transpiration of wheat plants. Ecological Modelling81:3140.
  • Dybdahl, M. F., and A. Storfer. 2003. Parasite local adaptation: red queen versus suicide king. Trends in Ecology and Evolution18:523530.
  • Elahinia, S. A.2000. Assessment of urediniospore germination of Puccinia striiformis at various temperatures on agar and detached leaves of wheat. Journal of Agricultural Science and Technology1:4147.
  • Enjalbert, J., X. Duan, M. Leconte, M. S. Hovmøller, and C. de Vallavieille-Pope. 2005. Genetic evidence of local adaptation of wheat yellow rust (Puccinia striiformis f. sp. tritici) within France. Molecular Ecology14:20652073.
  • Gandon, S.2002. Local adaptation and the geometry of host-parasite coevolution. Ecology Letters5:246256.
  • Gandon, S., and S. L. Nuismer. 2009. Interactions between genetic drift, gene flow, and selection mosaics drive parasite local adaptation. The American Naturalist173:212224.
  • Gandon, S., and P. A. Van Zandt. 1998. Local adaptation and host-parasite interactions. Trends in Ecology & Evolution13:214216.
  • Garrett, K. A., S. P. Dendy, E. E. Frank, M. N. Rouse, and S. E. Travers. 2006. Climate change effects on plant disease: genomes to ecosystems. Annual Review of Phytopathology44:489509.
  • Gladders, P., S. D. Langton, I. A. Barrie, N. V. Hardwick, M. C. Taylor, and N. D. Paveley. 2007. The importance of weather and agronomic factors for the overwinter survival of yellow rust (Puccinia striiformis) and subsequent disease risk in commercial wheat crops in England. Annals of Applied Biology150:371382.
  • Gomulkiewicz, R., D. M. Drown, M. F. Dybdahl, W. Godsoe, S. L. Nuismer, K. M. Pepin, B. J. Ridenhour et al.2007. Dos and don’ts of testing the geographic mosaic theory of coevolution. Heredity98:249258.
  • Hall, S. R., A. J. Tessier, M. A. Duffy, M. Huebner, and C. E. Caceres. 2006. Warmer does not have to mean sicker: temperature and predators can jointly drive timing of epidemics. Ecology87:16841695.
  • Harvell, C. D., C. E. Mitchell, J. R. Ward, S. Altizer, A. P. Dobson, R. S. Ostfeld, and M. D. Samuel. 2002. Climate warming and disease risks for terrestrial and marine biota. Science296:21582162.
  • Hau, B., and C. de Vallavieille-Pope. 2006. Wind-dispersed diseases. In B. M. Cooke, D. Gareth Jones, and B. Kaye, eds. The Epidemiology of Plant Diseases, 2nd edn, pp. 387416. Springer, Dordrecht.
  • Hedrick, P. W.1986. Genetic polymorphism in heterogeneous environments: a decade later. Annual Review of Ecology and Systematics17:535566.
  • Hochberg, M. E., and M. van Baalen. 1998. Antagonistic coevolution over productivity gradients. The American Naturalist152:620634.
  • Hovmøller, M. S.2001. Disease severity and pathotype dynamics of Puccinia striiformis f.sp tritici in Denmark. Plant Pathology50:181189.
  • Hovmøller, M. S., and A. F. Justesen. 2007. Rates of evolution of avirulence phenotypes and DNA markers in a northwest European population of Puccinia striiformis f. sp. tritici. Molecular Ecology16:46374647.
  • Hovmøller, M. S., A. H. Yahyaoui, E. A. Milus, and A. F. Justesen. 2008. Rapid global spread of two aggressive strains of a wheat rust fungus. Molecular Ecology17:38183826.
  • Kaltz, O., and J. A. Shykoff. 1998. Local adaptation in host-parasite systems. Heredity81:361370.
  • Kawecki, T. J., and D. Ebert. 2004. Conceptual issues in local adaptation. Ecology Letters7:12251241.
  • Lafferty, K. D.2009. The ecology of climate change and infectious diseases. Ecology90:888900.
  • Laine, A. L.2008. Temperature-mediated patterns of local adaptation in a natural plant-pathogen metapopulation. Ecological Letters11:327337.
  • Levins, R.1968. Evolution in Changing Environments. Princeton University Press, Princeton, NJ.
  • Lopez-Pascua, L. C., and A. Buckling. 2008. Increasing productivity accelerates host-parasite coevolution. Journal of Evolutionary Biology21:853860.
  • McDonald, B. A., and C. Linde. 2002. The population genetics of plant pathogens and breeding strategies for durable resistance. Euphytica124:163180.
  • Milus, E. A., and R. F. Line. 1986. Gene action for inheritance of durable, high-temperature, adult-plant resistance to stripe rust in wheat. Phytopathology76:435441.
  • Milus, E. A., E. Seyran, and R. McNew. 2006. Aggressiveness of Puccinia striiformis f. sp tritici isolates in the South-Central United States. Plant Disease90:847852.
  • Milus, E. A., K. Kristensen, and M. S. Hovmøller. 2009. Evidence for increased aggressiveness in a recent widespread strain of Puccinia striiformis f. sp tritici causing stripe rust of wheat. Phytopathology99:8994.
  • Niks, R. E., and D. Rubiales. 2002. Potentially durable resistance mechanisms in plants to specialised fungal pathogens. Euphytica124:201216.
  • Nordskog, B., D. M. Gadoury, R. C. Seem, and A. Hermansen. 2007. Impact of diurnal periodicity, temperature, and light on sporulation of Bremia lactucae. Phytopathology97:979986.
  • Nuismer, S. L., and S. Gandon. 2008. Moving beyond common-garden and transplant designs: insight into the causes of local adaptation in species interactions. The American Naturalist171:658668.
  • Papastamati, K., and F. van den Bosch. 2007. The sensitivity of the epidemic growth rate to weather variables, with an application to yellow rust on wheat. Phytopathology97:202210.
  • Pfister, S. E., S. Halik, and D. R. Bergdahl. 2004. Effect of temperature on Thekopsora minima urediniospores and uredinia. Plant Disease88:359362.
  • Qayoum, A., and R. F. Line. 1985. High-temperature, adult-plant resistance to stripe rust of wheat. Phytopathology75:11211125.
  • Quance, M. A., and M. Travisano. 2009. Effects of temperature on the fitness cost of resistance to bacteriophage T4 in Escherichia coli. Evolution63:14061416.
  • Rapilly, F.1979. Yellow rust epidemiology. Annual Review of Phytopathology17:5973.
  • Ravigné, V., U. Dieckmann, and I. Olivieri. 2009. Live where you thrive: joint evolution of habitat choice and local adaptation facilitates specialization and promotes diversity. The American Naturalist174:E141E169.
  • SAS Institute Inc. 2009. SAS® 9.2 Macro Language: Reference. SAS Institute Inc, Cary, NC.
  • Thomas, M. B., and S. Blanford. 2003. Thermal biology in insect-parasite interactions. Trends in Ecology and Evolution18:344350.
  • Thompson, J. N.2006. The Geographic Mosaic of Coevolution. University of Chicago Press, Chicago, IL.
  • Thrall, P. H., and J. J. Burdon. 2003. Evolution of virulence in a plant host-pathogen metapopulation. Science299:17351737.
  • Thrall, P. H., J. G. Oakeshott, G. Fitt, S. Southerton, J. J. Burdon, A. Sheppard, R. J. Russell et al.2011. Evolution in agriculture: the application of evolutionary approaches to the management of biotic interactions in agroecosystems. Evolutionary Applications4:200215.
  • Uauy, C., J. C. Brevis, X. M. Chen, I. Khan, L. Jackson, O. Chicaiza, A. Distelfeld et al.2005. High-temperature adult-plant (HTAP) stripe rust resistance gene Yr36 from Triticum turgidum ssp dicoccoides is closely linked to the grain protein content locus Gpc-B1. Theoretical and Applied Genetics112:97105.
  • Vale, P. F., and T. J. Little. 2009. Measuring parasite fitness under genetic and thermal variation. Heredity103:102109.
  • Vale, P. F., O. Kaltz, L. Salvaudon, and S. Fellous. 2008. The role of the environment in the evolutionary ecology of host parasite interactions. Meeting report. Paris, 5th December 2007. Infection, Genetics and Evolution8:302305.
  • de Vallavieille-Pope, C., H. Picard-Formery, S. Radulovic, and R. Johnson. 1990. Specific resistance factors to yellow rust in seedlings of some French wheat varieties and races of Puccinia striiformis Westend in France. Agronomie (Paris)10:103113.
  • de Vallavieille-Pope, C., L. Huber, M. Leconte, and H. Goyeau. 1995. Comparative effects of temperature and interrupted wet periods on germination, penetration, and infection of Puccinia recondita f.sp. tritici and P. striiformis on wheat seedlings. Phytopathology85:409415.
  • de Vallavieille-Pope, C., S. Giosue, L. Munk, A. C. Newton, R. E. Niks, H. Ostergard, J. Pons-Kuhnemann et al.2000. Assessment of epidemiological parameters and their use in epidemiological and forecasting models of cereal airborne diseases. Agronomie20:715727.
  • de Vallavieille-Pope, C., S. Ali, M. Leconte, J. Enjalbert, M. Delos, and J. Rouzet. 2011. Virulence dynamics and regional structuring of Puccinia striiformis f. sp. tritici in France between 1984 and 2009. Plant Disease96:131140.
  • Van der Plank, J. E.1968. Disease Resistance in Plants, pp. 206. Academic Press, New York, NY and London.
  • Wan, A., Z. Zhao, X. M. Chen, Z. He, S. Jin, Q. Jia, G. Yao et al.2004. Wheat stripe rust epidemic and virulence of Puccinia striiformis f. sp. tritici in China in 2002. Plant Disease88:896904.
  • Wellings, C. R., and R. A. McIntosh. 1990. Puccinia striiformis f.sp. tritici in Australia: pathogenic changes during the first 10 years. Plant Pathology39:316325.
  • Wellings, C. R., D. G. Wright, F. Keiper, and R. Loughman. 2003. First detection of wheat stripe rust in Western Australia: evidence for a foreign incursion. Australasian Plant Pathology32:321322.
  • Wolfe, M. S., and J. M. McDermott. 1994. Population-genetics of plant pathogen interactions – the example of Erysiphe-graminis hordeum-vulgare pathosystem. Annual Review of Phytopathology32:89113.
  • Wolinska, J., and K. King. 2009. Environment can alter selection in host-parasite interactions. Trends in Parasitology25:236244.
  • Yahyaoui, A. H., M. S. Hovmøller, B. Ezzahiri, A. Jahoor, M. H. Maatougui, and A. Wolday. 2004. Survey of barley and wheat diseases in the central highlands of Eritrea. Phytopathologia Mediterranea43:3943.