Diversification and host switching in avian malaria parasites

The switching of parasitic organisms to novel hosts, in which they may cause the emergence of new diseases, is of great concern to human health and the management of wild and domesticated populations of animals. We used a phylogenetic approach to develop a better statistical assessment of host switc...

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Veröffentlicht in:	Proceedings of the Royal Society. B, Biological sciences Biological sciences, 2002-05, Vol.269 (1494), p.885-892
Hauptverfasser:	Ricklefs, R. E., Fallon, S. M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Base Sequence Birds Cospeciation Cytochrome b Group - genetics Cytochromes DNA, Complementary Emerging Disease Evolution Evolution, Molecular Geographic regions Haemoproteus Phylogeny Haemosporida - classification Haemosporida - genetics Malaria Malaria, Avian - genetics Malaria, Avian - parasitology Molecular Sequence Data Parasite hosts Parasites Phylogenetics Phylogeny Plasmodium Plasmodium - classification Plasmodium - genetics Songbirds - genetics Taxa
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container_end_page	892
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container_title	Proceedings of the Royal Society. B, Biological sciences
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creator	Ricklefs, R. E. Fallon, S. M.
description	The switching of parasitic organisms to novel hosts, in which they may cause the emergence of new diseases, is of great concern to human health and the management of wild and domesticated populations of animals. We used a phylogenetic approach to develop a better statistical assessment of host switching in a large sample of vector-borne malaria parasites of birds (Plasmodium and Haemoproteus) over their history of parasite-host relations. Even with sparse sampling, the number of parasite lineages was almost equal to the number of avian hosts. We found that strongly supported sister lineages of parasites, averaging 1.2% sequence divergence, exhibited highly significant host and geographical fidelity. Event-based matching of host and parasite phylogenetic trees revealed significant cospeciation. However, the accumulated effects of host switching and long distance dispersal cause these signals to disappear before 4% sequence divergence is achieved. Mitochondrial DNA nucleotide substitution appears to occur about three times faster in hosts than in parasites, contrary to findings on other parasite-host systems. Using this mutual calibration, the phylogenies of the parasites and their hosts appear to be similar in age, suggesting that avian malaria parasites diversified along with their modern avian hosts. Although host switching has been a prominent feature over the evolutionary history of avian malaria parasites, it is infrequent and unpredictable on time scales germane to public health and wildlife management.
doi_str_mv	10.1098/rspb.2001.1940
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E.</creatorcontrib><creatorcontrib>Fallon, S. M.</creatorcontrib><title>Diversification and host switching in avian malaria parasites</title><title>Proceedings of the Royal Society. B, Biological sciences</title><addtitle>Proc Biol Sci</addtitle><description>The switching of parasitic organisms to novel hosts, in which they may cause the emergence of new diseases, is of great concern to human health and the management of wild and domesticated populations of animals. We used a phylogenetic approach to develop a better statistical assessment of host switching in a large sample of vector-borne malaria parasites of birds (Plasmodium and Haemoproteus) over their history of parasite-host relations. Even with sparse sampling, the number of parasite lineages was almost equal to the number of avian hosts. We found that strongly supported sister lineages of parasites, averaging 1.2% sequence divergence, exhibited highly significant host and geographical fidelity. Event-based matching of host and parasite phylogenetic trees revealed significant cospeciation. However, the accumulated effects of host switching and long distance dispersal cause these signals to disappear before 4% sequence divergence is achieved. Mitochondrial DNA nucleotide substitution appears to occur about three times faster in hosts than in parasites, contrary to findings on other parasite-host systems. Using this mutual calibration, the phylogenies of the parasites and their hosts appear to be similar in age, suggesting that avian malaria parasites diversified along with their modern avian hosts. 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subjects	Animals Base Sequence Birds Cospeciation Cytochrome b Group - genetics Cytochromes DNA, Complementary Emerging Disease Evolution Evolution, Molecular Geographic regions Haemoproteus Phylogeny Haemosporida - classification Haemosporida - genetics Malaria Malaria, Avian - genetics Malaria, Avian - parasitology Molecular Sequence Data Parasite hosts Parasites Phylogenetics Phylogeny Plasmodium Plasmodium - classification Plasmodium - genetics Songbirds - genetics Taxa
title	Diversification and host switching in avian malaria parasites
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