Parasite airlines: mapping the distribution and transmission of avian blood parasites in migratory birds

[Display omitted] •European Acrocephalidae show greater prevalence and variety of blood parasites compared with Emberiza schoeniclus.•Migrating birds exhibit variations in blood parasite prevalence and biodiversity depending on their migration routes.•Long-distance migrants of the genus Locustella d...

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Veröffentlicht in:	International journal for parasitology 2024-10, Vol.54 (12), p.635-648
Hauptverfasser:	Musa, Sandrine, Altenburger, Celine, Vázquez, Regina Magaña, Woog, Friederike, Mackenstedt, Ute
Format:	Artikel
Sprache:	eng
Schlagworte:	Acrocephalus Africa arthropods blood conservation areas Emberiza schoeniclus genus Germany Haemosporida juveniles Locustella migratory behavior Migratory birds Nematoda parasites parasitology species Transmission area Trypanosoma
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container_issue	12
container_start_page	635
container_title	International journal for parasitology
container_volume	54
creator	Musa, Sandrine Altenburger, Celine Vázquez, Regina Magaña Woog, Friederike Mackenstedt, Ute
description	[Display omitted] •European Acrocephalidae show greater prevalence and variety of blood parasites compared with Emberiza schoeniclus.•Migrating birds exhibit variations in blood parasite prevalence and biodiversity depending on their migration routes.•Long-distance migrants of the genus Locustella displayed no infection by either blood parasite, indicating resistance.•The age of migratory birds serves as a key factor in delineating parasite transmission areas effectively.•Transmission areas were either limited to Europe or Africa, or transmission occurred in both regions. During their journeys, migratory birds encounter a wider range of parasites than residents, transporting them over vast distances. While some parasites are widely distributed, transmission is not inevitable and depends on the presence of competent arthropod vectors as well as parasite compatibility with native bird species. Distinguishing between parasite distribution and transmission areas is crucial for monitoring and assessing risks to native bird species, as distribution areas, with the appropriate conditions, could become potential transmission areas. In this study, blood samples from 455 reed-living birds of the genera Acrocephalus, Locustella, and Emberiza, collected in the nature reserve “Die Reit” in Hamburg, Germany were screened, targeting haemosporidian parasites, trypanosomes, and filarioid nematodes. Determination of migratory bird age was employed to ascertain the transmission area of the detected parasites. Transmission areas were determined, based on information provided by resident and juvenile birds as well as findings in competent vectors. Long-distance migratory birds of the genus Acrocephalus showed a higher prevalence and diversity of blood parasites compared with partially migratory birds such as Emberiza schoeniclus. Notably, an age-dependent difference in parasite prevalence was observed in Acrocephalus spp., but not in E. schoeniclus. Nematodes were absent in all examined bird species. Proposed transmission areas were identified for nine haemosporidian lineages, showing three different types of transmission area, either with limited transmission in Europe or Africa, or active transmission in both regions.
doi_str_mv	10.1016/j.ijpara.2024.06.004
format	Article
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During their journeys, migratory birds encounter a wider range of parasites than residents, transporting them over vast distances. While some parasites are widely distributed, transmission is not inevitable and depends on the presence of competent arthropod vectors as well as parasite compatibility with native bird species. Distinguishing between parasite distribution and transmission areas is crucial for monitoring and assessing risks to native bird species, as distribution areas, with the appropriate conditions, could become potential transmission areas. In this study, blood samples from 455 reed-living birds of the genera Acrocephalus, Locustella, and Emberiza, collected in the nature reserve “Die Reit” in Hamburg, Germany were screened, targeting haemosporidian parasites, trypanosomes, and filarioid nematodes. Determination of migratory bird age was employed to ascertain the transmission area of the detected parasites. Transmission areas were determined, based on information provided by resident and juvenile birds as well as findings in competent vectors. Long-distance migratory birds of the genus Acrocephalus showed a higher prevalence and diversity of blood parasites compared with partially migratory birds such as Emberiza schoeniclus. Notably, an age-dependent difference in parasite prevalence was observed in Acrocephalus spp., but not in E. schoeniclus. Nematodes were absent in all examined bird species. 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During their journeys, migratory birds encounter a wider range of parasites than residents, transporting them over vast distances. While some parasites are widely distributed, transmission is not inevitable and depends on the presence of competent arthropod vectors as well as parasite compatibility with native bird species. Distinguishing between parasite distribution and transmission areas is crucial for monitoring and assessing risks to native bird species, as distribution areas, with the appropriate conditions, could become potential transmission areas. In this study, blood samples from 455 reed-living birds of the genera Acrocephalus, Locustella, and Emberiza, collected in the nature reserve “Die Reit” in Hamburg, Germany were screened, targeting haemosporidian parasites, trypanosomes, and filarioid nematodes. Determination of migratory bird age was employed to ascertain the transmission area of the detected parasites. Transmission areas were determined, based on information provided by resident and juvenile birds as well as findings in competent vectors. Long-distance migratory birds of the genus Acrocephalus showed a higher prevalence and diversity of blood parasites compared with partially migratory birds such as Emberiza schoeniclus. Notably, an age-dependent difference in parasite prevalence was observed in Acrocephalus spp., but not in E. schoeniclus. Nematodes were absent in all examined bird species. 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During their journeys, migratory birds encounter a wider range of parasites than residents, transporting them over vast distances. While some parasites are widely distributed, transmission is not inevitable and depends on the presence of competent arthropod vectors as well as parasite compatibility with native bird species. Distinguishing between parasite distribution and transmission areas is crucial for monitoring and assessing risks to native bird species, as distribution areas, with the appropriate conditions, could become potential transmission areas. In this study, blood samples from 455 reed-living birds of the genera Acrocephalus, Locustella, and Emberiza, collected in the nature reserve “Die Reit” in Hamburg, Germany were screened, targeting haemosporidian parasites, trypanosomes, and filarioid nematodes. Determination of migratory bird age was employed to ascertain the transmission area of the detected parasites. 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subjects	Acrocephalus Africa arthropods blood conservation areas Emberiza schoeniclus genus Germany Haemosporida juveniles Locustella migratory behavior Migratory birds Nematoda parasites parasitology species Transmission area Trypanosoma
title	Parasite airlines: mapping the distribution and transmission of avian blood parasites in migratory birds
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