Phylogeny, ecological fitting and lung flukes: helping solve the problem of emerging infectious diseases
Traditional wisdom, based on assumptions of species-specific coevolutionary interactions between hosts and parasites, suggests that pathogens with multi-host life cycles are unlikely to move with their definitive hosts because their transmission requirements are so specialized. Ecological fitting provides a theory of diffuse coevolution, which allows introduced pathogens with complex life cycles to become established and spread rapidly into native hosts if the resource required at each stage of the life cycle is both phylogenetically conservative (distributed among numerous species) and geographically widespread. The external appearance of life cycle complexity does not, therefore, on its own, predict the potential for an organism to become an emerging infectious disease. We apply this concept to explain a potential enigma, the presence of a lung fluke, Haematoloechus floedae, endemic to North American bullfrogs, in Costa Rican leopard frogs, even though there are no bullfrogs extant in the country today, and none ever occurred where the parasite has been discovered. We then discuss how the integration of ecological and life history information within a phylogenetic framework can help biologists move from attempts to manage emerging infectious disease outbreaks to the ability to predict and thus circumvent the outbreak in the first place.
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Instituto de Biología
2006
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oai:scielo:S1870-345320060002000092010-05-14Phylogeny, ecological fitting and lung flukes: helping solve the problem of emerging infectious diseasesBrooks,Daniel R.McLennan,Deborah A.León-Règagnon,VirginiaHoberg,Eric ecological fitting emerging infectious diseases pathogen pollution introduced species leopard frogs bullfrogs Haematoloechus floedae Traditional wisdom, based on assumptions of species-specific coevolutionary interactions between hosts and parasites, suggests that pathogens with multi-host life cycles are unlikely to move with their definitive hosts because their transmission requirements are so specialized. Ecological fitting provides a theory of diffuse coevolution, which allows introduced pathogens with complex life cycles to become established and spread rapidly into native hosts if the resource required at each stage of the life cycle is both phylogenetically conservative (distributed among numerous species) and geographically widespread. The external appearance of life cycle complexity does not, therefore, on its own, predict the potential for an organism to become an emerging infectious disease. We apply this concept to explain a potential enigma, the presence of a lung fluke, Haematoloechus floedae, endemic to North American bullfrogs, in Costa Rican leopard frogs, even though there are no bullfrogs extant in the country today, and none ever occurred where the parasite has been discovered. We then discuss how the integration of ecological and life history information within a phylogenetic framework can help biologists move from attempts to manage emerging infectious disease outbreaks to the ability to predict and thus circumvent the outbreak in the first place.info:eu-repo/semantics/openAccessInstituto de BiologíaRevista mexicana de biodiversidad v.77 n.2 20062006-12-01info:eu-repo/semantics/articletext/htmlhttp://www.scielo.org.mx/scielo.php?script=sci_arttext&pid=S1870-34532006000200009en |
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Brooks,Daniel R. McLennan,Deborah A. León-Règagnon,Virginia Hoberg,Eric |
| spellingShingle |
Brooks,Daniel R. McLennan,Deborah A. León-Règagnon,Virginia Hoberg,Eric Phylogeny, ecological fitting and lung flukes: helping solve the problem of emerging infectious diseases |
| author_facet |
Brooks,Daniel R. McLennan,Deborah A. León-Règagnon,Virginia Hoberg,Eric |
| author_sort |
Brooks,Daniel R. |
| title |
Phylogeny, ecological fitting and lung flukes: helping solve the problem of emerging infectious diseases |
| title_short |
Phylogeny, ecological fitting and lung flukes: helping solve the problem of emerging infectious diseases |
| title_full |
Phylogeny, ecological fitting and lung flukes: helping solve the problem of emerging infectious diseases |
| title_fullStr |
Phylogeny, ecological fitting and lung flukes: helping solve the problem of emerging infectious diseases |
| title_full_unstemmed |
Phylogeny, ecological fitting and lung flukes: helping solve the problem of emerging infectious diseases |
| title_sort |
phylogeny, ecological fitting and lung flukes: helping solve the problem of emerging infectious diseases |
| description |
Traditional wisdom, based on assumptions of species-specific coevolutionary interactions between hosts and parasites, suggests that pathogens with multi-host life cycles are unlikely to move with their definitive hosts because their transmission requirements are so specialized. Ecological fitting provides a theory of diffuse coevolution, which allows introduced pathogens with complex life cycles to become established and spread rapidly into native hosts if the resource required at each stage of the life cycle is both phylogenetically conservative (distributed among numerous species) and geographically widespread. The external appearance of life cycle complexity does not, therefore, on its own, predict the potential for an organism to become an emerging infectious disease. We apply this concept to explain a potential enigma, the presence of a lung fluke, Haematoloechus floedae, endemic to North American bullfrogs, in Costa Rican leopard frogs, even though there are no bullfrogs extant in the country today, and none ever occurred where the parasite has been discovered. We then discuss how the integration of ecological and life history information within a phylogenetic framework can help biologists move from attempts to manage emerging infectious disease outbreaks to the ability to predict and thus circumvent the outbreak in the first place. |
| publisher |
Instituto de Biología |
| publishDate |
2006 |
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http://www.scielo.org.mx/scielo.php?script=sci_arttext&pid=S1870-34532006000200009 |
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