An island paradigm on the mainland: host population fragmentation impairs the community of avian pathogens

Emergent infectious diseases represent a major threat for biodiversity in fragmented habitat networks, but their dynamics in host metapopulations remain largely unexplored. We studied a large community of pathogens (including 26 haematozoans, bacteria and viruses as determined through polymerase cha...

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Veröffentlicht in:	Proceedings of the Royal Society. B, Biological sciences Biological sciences, 2011-09, Vol.278 (1718), p.2668-2676
Hauptverfasser:	Vögeli, Matthias, Lemus, Jesús A., Serrano, David, Blanco, Guillermo, Tella, José L.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Bacteria - classification Bacteria - genetics Bacteria - growth & development Bacteria - isolation & purification Bacterial Infections - epidemiology Bacterial Infections - microbiology Bird Diseases - epidemiology Bird Diseases - microbiology Bird Diseases - parasitology Bird Diseases - virology Chersophilus duponti Communicable Diseases, Emerging - epidemiology Communicable Diseases, Emerging - etiology Communicable Diseases, Emerging - veterinary Disease transmission Dupont's Lark Ecosystem Emerging Infectious Diseases Habitat Fragmentation Habitat loss Host Population Size Host-Pathogen Interactions - physiology Host–pathogen Metapopulation Models Infectious diseases Metapopulation ecology Parasite hosts Parasites Parasites - classification Parasites - genetics Parasites - isolation & purification Parasites - physiology Parasitic Diseases, Animal - epidemiology Parasitic Diseases, Animal - parasitology Passeriformes - physiology Pathogens Polymerase Chain Reaction - methods Population Density Population size Prevalence Sample size Species Specificity Virus Diseases - epidemiology Virus Diseases - virology Viruses - classification Viruses - genetics Viruses - growth & development Viruses - isolation & purification
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creator	Vögeli, Matthias Lemus, Jesús A. Serrano, David Blanco, Guillermo Tella, José L.
description	Emergent infectious diseases represent a major threat for biodiversity in fragmented habitat networks, but their dynamics in host metapopulations remain largely unexplored. We studied a large community of pathogens (including 26 haematozoans, bacteria and viruses as determined through polymerase chain reaction assays) in a highly fragmented mainland bird metapopulation. Contrary to recent studies, which have established that the prevalence of pathogens increase with habitat fragmentation owing to crowding and habitat-edge effects, the analysed pathogen parameters were neither dependent on host densities nor related to the spatial structure of the metapopulation. We provide, to our knowledge, the first empirical evidence for a positive effect of host population size on pathogen prevalence, richness and diversity. These new insights into the interplay between habitat fragmentation and pathogens reveal properties of a host–pathogen system resembling island environments, suggesting that severe habitat loss and fragmentation could lower pathogen pressure in small populations.
doi_str_mv	10.1098/rspb.2010.1227
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subjects	Animals Bacteria - classification Bacteria - genetics Bacteria - growth & development Bacteria - isolation & purification Bacterial Infections - epidemiology Bacterial Infections - microbiology Bird Diseases - epidemiology Bird Diseases - microbiology Bird Diseases - parasitology Bird Diseases - virology Chersophilus duponti Communicable Diseases, Emerging - epidemiology Communicable Diseases, Emerging - etiology Communicable Diseases, Emerging - veterinary Disease transmission Dupont's Lark Ecosystem Emerging Infectious Diseases Habitat Fragmentation Habitat loss Host Population Size Host-Pathogen Interactions - physiology Host–pathogen Metapopulation Models Infectious diseases Metapopulation ecology Parasite hosts Parasites Parasites - classification Parasites - genetics Parasites - isolation & purification Parasites - physiology Parasitic Diseases, Animal - epidemiology Parasitic Diseases, Animal - parasitology Passeriformes - physiology Pathogens Polymerase Chain Reaction - methods Population Density Population size Prevalence Sample size Species Specificity Virus Diseases - epidemiology Virus Diseases - virology Viruses - classification Viruses - genetics Viruses - growth & development Viruses - isolation & purification
title	An island paradigm on the mainland: host population fragmentation impairs the community of avian pathogens
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