COMPETITION, COOPERATION AMONG KIN, AND VIRULENCE IN MULTIPLE INFECTIONS

Critical determinants of the optimum level of virulence in pathogens include the presence of competitors (i.e., multiple infections), their relatedness, and the effect of competitors on pathogen growth and disease development. Empirical data regarding the existence of competitive interactions and th...

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Published in	Evolution Vol. 65; no. 5; pp. 1357 - 1366
Main Authors	López-Villavicencio, Manuela, Courjol, Flavie, Gibson, Amanda K., Hood, Michael E., Jonot, Odile, Shykoff, Jacqui A., Giraud, Tatiana
Format	Journal Article
Language	English
Published	Malden, USA Blackwell Publishing Inc 01.05.2011 Wiley Subscription Services, Inc Oxford University Press Wiley
Subjects	Basidiomycota - genetics Basidiomycota - pathogenicity Basidiomycota - physiology Biodiversity Biological Evolution Competition Empirical analysis Evolution Evolution of virulence Flowers & plants Fungal spores Fungi Genetic Variation Genotypes Host-Parasite Interactions Infections kin selection kinship Life Sciences microbial evolution Microbotryum Microbotryum violaceum multiple genotypes Parasite hosts Parasites pathogen competition Pathogens Plant diseases Plant Diseases - genetics Plant Diseases - microbiology Plant populations Plants Population Dynamics Populations and Evolution Reproductive sterilization Silene - microbiology social evolution Sterilization Virulence
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Abstract	Critical determinants of the optimum level of virulence in pathogens include the presence of competitors (i.e., multiple infections), their relatedness, and the effect of competitors on pathogen growth and disease development. Empirical data regarding the existence of competitive interactions and their impact on virulence remain very limited compared to theoretical studies. Here, we followed an experimental population of the model fungal pathogen Microbotryum lychnidis-dioicae on its caryophyllaceous host Silene latifolia. Our analysis revealed conditional responses by the pathogen to the presence of competitors, which was dependent upon the relatedness of pathogens within hosts. Overall, virulence was increased in cases of multiple infections as compared to single infections: both spore production and degree of plant sterilization were higher under multiple infections. The pathogen indeed increased its growth and reproductive rate when competitors were present within the same plant. Microbotryum also appeared able to interfere with competitors, reducing their ability to colonize the host, and this effect was smaller between closer relatives. Our results thus help to elucidate the myriad of theoretical considerations on the evolution of virulence by providing experimental results with a well-studied disease of wild plant populations.
AbstractList	Critical determinants of the optimum level of virulence in pathogens include the presence of competitors (i.e., multiple infections), their relatedness, and the effect of competitors on pathogen growth and disease development. Empirical data regarding the existence of competitive interactions and their impact on virulence remain very limited compared to theoretical studies. Here, we followed an experimental population of the model fungal pathogen Microbotryum lychnidis-dioicae on its caryophyllaceous host Silene latifolia. Our analysis revealed conditional responses by the pathogen to the presence of competitors, which was dependent upon the relatedness of pathogens within hosts. Overall, virulence was increased in cases of multiple infections as compared to single infections: both spore production and degree of plant sterilization were higher under multiple infections. The pathogen indeed increased its growth and reproductive rate when competitors were present within the same plant. Microbotryum also appeared able to interfere with competitors, reducing their ability to colonize the host, and this effect was smaller between closer relatives. Our results thus help to elucidate the myriad of theoretical considerations on the evolution of virulence by providing experimental results with a well-studied disease of wild plant populations. [PUBLICATION ABSTRACT] Critical determinants of the optimum level of virulence in pathogens include the presence of competitors (i.e., multiple infections), their relatedness, and the effect of competitors on pathogen growth and disease development. Empirical data regarding the existence of competitive interactions and their impact on virulence remain very limited compared to theoretical studies. Here, we followed an experimental population of the model fungal pathogen Microbotryum lychnidis‐dioicae on its caryophyllaceous host Silene latifolia. Our analysis revealed conditional responses by the pathogen to the presence of competitors, which was dependent upon the relatedness of pathogens within hosts. Overall, virulence was increased in cases of multiple infections as compared to single infections: both spore production and degree of plant sterilization were higher under multiple infections. The pathogen indeed increased its growth and reproductive rate when competitors were present within the same plant. Microbotryum also appeared able to interfere with competitors, reducing their ability to colonize the host, and this effect was smaller between closer relatives. Our results thus help to elucidate the myriad of theoretical considerations on the evolution of virulence by providing experimental results with a well‐studied disease of wild plant populations.
Author	Jonot, Odile Giraud, Tatiana Courjol, Flavie Gibson, Amanda K. López-Villavicencio, Manuela Shykoff, Jacqui A. Hood, Michael E.
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Snippet	Critical determinants of the optimum level of virulence in pathogens include the presence of competitors (i.e., multiple infections), their relatedness, and...
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SubjectTerms	Basidiomycota - genetics Basidiomycota - pathogenicity Basidiomycota - physiology Biodiversity Biological Evolution Competition Empirical analysis Evolution Evolution of virulence Flowers & plants Fungal spores Fungi Genetic Variation Genotypes Host-Parasite Interactions Infections kin selection kinship Life Sciences microbial evolution Microbotryum Microbotryum violaceum multiple genotypes Parasite hosts Parasites pathogen competition Pathogens Plant diseases Plant Diseases - genetics Plant Diseases - microbiology Plant populations Plants Population Dynamics Populations and Evolution Reproductive sterilization Silene - microbiology social evolution Sterilization Virulence
Title	COMPETITION, COOPERATION AMONG KIN, AND VIRULENCE IN MULTIPLE INFECTIONS
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