The role of immigration and in-situ radiation in explaining blood parasite assemblages in an island bird clade

Parasite communities on islands are assembled through multiple immigrations and/or in‐situ diversification. In this study, we used a phylogenetic approach to investigate the role of such processes in shaping current patterns of diversity in Leucocytozoon, a group of haemosporidian blood parasites in...

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Veröffentlicht in:Molecular ecology 2012-03, Vol.21 (6), p.1438-1452
Hauptverfasser: CORNUAULT, JOSSELIN, BATAILLARD, ANAÏS, WARREN, BEN H., LOOTVOET, AMÉLIE, MIRLEAU, PASCAL, DUVAL, THOMAS, MILÁ, BORJA, THÉBAUD, CHRISTOPHE, HEEB, PHILIPP
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container_end_page 1452
container_issue 6
container_start_page 1438
container_title Molecular ecology
container_volume 21
creator CORNUAULT, JOSSELIN
BATAILLARD, ANAÏS
WARREN, BEN H.
LOOTVOET, AMÉLIE
MIRLEAU, PASCAL
DUVAL, THOMAS
MILÁ, BORJA
THÉBAUD, CHRISTOPHE
HEEB, PHILIPP
description Parasite communities on islands are assembled through multiple immigrations and/or in‐situ diversification. In this study, we used a phylogenetic approach to investigate the role of such processes in shaping current patterns of diversity in Leucocytozoon, a group of haemosporidian blood parasites infecting whites eyes (Zosterops) endemic to the Mascarene archipelago (south‐western Indian Ocean). We found that this parasite community arose through a combination of multiple immigrations and in‐situ diversification, highlighting the importance of both processes in explaining island diversity. Specifically, two highly diverse parasite clades appear to have been present in the Mascarenes for most of their evolutionary history and have diversified within the archipelago, while another lineage apparently immigrated more recently, probably with human‐introduced birds. Interestingly, the evolutionary histories of one clade of parasites and Indian Ocean Zosterops seem tightly associated with a significant signal for phylogenetic congruence, suggesting that host–parasite co‐divergence may have occurred in this system.
doi_str_mv 10.1111/j.1365-294X.2012.05483.x
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In this study, we used a phylogenetic approach to investigate the role of such processes in shaping current patterns of diversity in Leucocytozoon, a group of haemosporidian blood parasites infecting whites eyes (Zosterops) endemic to the Mascarene archipelago (south‐western Indian Ocean). We found that this parasite community arose through a combination of multiple immigrations and in‐situ diversification, highlighting the importance of both processes in explaining island diversity. Specifically, two highly diverse parasite clades appear to have been present in the Mascarenes for most of their evolutionary history and have diversified within the archipelago, while another lineage apparently immigrated more recently, probably with human‐introduced birds. 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subjects Animal Migration
Animals
Aves
avian malaria
Biodiversity and Ecology
Bird Diseases - parasitology
Birds
Blood - parasitology
DNA, Protozoan - analysis
DNA, Protozoan - isolation & purification
Ecosystem
Environmental Sciences
Evolution, Molecular
Genetic diversity
Geography
Haemosporida - classification
Haemosporida - genetics
Haemosporida - physiology
Host-Parasite Interactions - genetics
Humans
in-situ diversification
Indian Ocean
Islands
Leucocytozoon
Mascarene Zosterops
multiple colonization
parasite communities
Parasites
Passeriformes - classification
Passeriformes - genetics
Passeriformes - parasitology
Phylogenetics
Phylogeny
Protozoan Infections, Animal - parasitology
Sequence Analysis, DNA
Zosterops
title The role of immigration and in-situ radiation in explaining blood parasite assemblages in an island bird clade
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