Determinants of haemosporidian single- and co-infection risks in western palearctic birds

Understanding the drivers of infection risk helps us to detect the most at-risk species in a community and identify species whose intrinsic characteristics could act as potential reservoirs of pathogens. This knowledge is crucial if we are to predict the emergence and evolution of infectious disease...

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Published in:	International journal for parasitology Vol. 52; no. 9; pp. 617 - 627
Main Authors:	Pigeault, Romain, Chevalier, Mathieu, Cozzarolo, Camille-Sophie, Baur, Molly, Arlettaz, Mathilde, Cibois, Alice, Keiser, André, Guisan, Antoine, Christe, Philippe, Glaizot, Olivier
Format:	Journal Article
Language:	English
Published:	Elsevier 01-08-2022
Subjects:	Animal biology Animals Bayes Theorem Biodiversity Bird Diseases Birds Coinfection Communicable Diseases Haemosporida Life Sciences Microbiology and Parasitology Parasites Parasitology Phylogeny Plasmodium Prevalence Protozoan Infections, Animal Systematics, Phylogenetics and taxonomy Veterinary medicine and animal Health Plasmodium Co-infection Phylogenetic signal Geographic range Climatic niche Bayesian inference Haemoproteus Leucocytozoon
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Abstract	Understanding the drivers of infection risk helps us to detect the most at-risk species in a community and identify species whose intrinsic characteristics could act as potential reservoirs of pathogens. This knowledge is crucial if we are to predict the emergence and evolution of infectious diseases. To date, most studies have only focused on infections caused by a single parasite, leaving out co-infections. Yet, co-infections are of paramount importance in understanding the ecology and evolution of host-parasite interactions due to the wide range of effects they can have on host fitness and on the evolutionary trajectories of parasites. Here, we used a multinomial Bayesian phylogenetic modelling framework to explore the extent to which bird ecology and phylogeny impact the probability of being infected by one genus (hereafter single infection) or by multiple genera (hereafter co-infection) of haemosporidian parasites. We show that while nesting and migration behaviours influenced both the probability of being single- and co-infected, species position along the slow-fast life-history continuum and geographic range size were only pertinent in explaining variation in co-infection risk. We also found evidence for a phylogenetic conservatism regarding both single- and co-infections, indicating that phylogenetically related bird species tend to have similar infection patterns. This phylogenetic signal was four times stronger for co-infections than for single infections, suggesting that co-infections may act as a stronger selective pressure than single infections. Overall, our study underscores the combined influence of hosts' evolutionary history and attributes in determining infection risk in avian host communities. These results also suggest that co-infection risk might be under stronger deterministic control than single infection risk, potentially paving the way toward a better understanding of the emergence and evolution of infectious diseases.
AbstractList	Understanding the drivers of infection risk helps us to detect the most at-risk species in a community and identify species whose intrinsic characteristics could act as potential reservoirs of pathogens. This knowledge is crucial if we are to predict the emergence and evolution of infectious diseases. To date, most studies have only focused on infections caused by a single parasite, leaving out co-infections. Yet, co-infections are of paramount importance in understanding the ecology and evolution of host-parasite interactions due to the wide range of effects they can have on host fitness and on the evolutionary trajectories of parasites. Here, we used a multinomial Bayesian phylogenetic modelling framework to explore the extent to which bird ecology and phylogeny impact the probability of being infected by one genus (hereafter single infection) or by multiple genera (hereafter co-infection) of haemosporidian parasites. We show that while nesting and migration behaviours influenced both the probability of being single- and co-infected, species position along the slow-fast life-history continuum and geographic range size were only pertinent in explaining variation in co-infection risk. We also found evidence for a phylogenetic conservatism regarding both single- and co-infections, indicating that phylogenetically related bird species tend to have similar infection patterns. This phylogenetic signal was four times stronger for co-infections than for single infections, suggesting that co-infections may act as a stronger selective pressure than single infections. Overall, our study underscores the combined influence of hosts' evolutionary history and attributes in determining infection risk in avian host communities. These results also suggest that co-infection risk might be under stronger deterministic control than single infection risk, potentially paving the way toward a better understanding of the emergence and evolution of infectious diseases.
Author	Pigeault, Romain Baur, Molly Glaizot, Olivier Chevalier, Mathieu Arlettaz, Mathilde Cibois, Alice Keiser, André Cozzarolo, Camille-Sophie Guisan, Antoine Christe, Philippe
Author_xml	– sequence: 1 givenname: Romain surname: Pigeault fullname: Pigeault, Romain – sequence: 2 givenname: Mathieu surname: Chevalier fullname: Chevalier, Mathieu – sequence: 3 givenname: Camille-Sophie surname: Cozzarolo fullname: Cozzarolo, Camille-Sophie – sequence: 4 givenname: Molly surname: Baur fullname: Baur, Molly – sequence: 5 givenname: Mathilde surname: Arlettaz fullname: Arlettaz, Mathilde – sequence: 6 givenname: Alice surname: Cibois fullname: Cibois, Alice – sequence: 7 givenname: André surname: Keiser fullname: Keiser, André – sequence: 8 givenname: Antoine surname: Guisan fullname: Guisan, Antoine – sequence: 9 givenname: Philippe surname: Christe fullname: Christe, Philippe – sequence: 10 givenname: Olivier surname: Glaizot fullname: Glaizot, Olivier
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Snippet	Understanding the drivers of infection risk helps us to detect the most at-risk species in a community and identify species whose intrinsic characteristics...
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SubjectTerms	Animal biology Animals Bayes Theorem Biodiversity Bird Diseases Birds Coinfection Communicable Diseases Haemosporida Life Sciences Microbiology and Parasitology Parasites Parasitology Phylogeny Plasmodium Prevalence Protozoan Infections, Animal Systematics, Phylogenetics and taxonomy Veterinary medicine and animal Health
Title	Determinants of haemosporidian single- and co-infection risks in western palearctic birds
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