Migratory Monarchs Wintering in California Experience Low Infection Risk Compared to Monarchs Breeding Year-Round on Non-Native Milkweed

Long-distance migration can lower infection risk for animal populations by removing infected individuals during strenuous journeys, spatially separating susceptible age classes, or allowing migrants to periodically escape from contaminated habitats. Many seasonal migrations are changing due to human...

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Bibliographic Details
Published in:Integrative and comparative biology 2016-08, Vol.56 (2), p.343-352
Main Authors: Satterfield, Dara A., Villablanca, Francis X., Maerz, John C., Altizer, Sonia
Format: Article
Language:English
Subjects:
Animal Migration
Animals
Apicomplexa - physiology
Are Migratory Animals Superspeaders of Infection?
Asclepias - growth & development
Butterflies - parasitology
Butterflies - physiology
California
Ecosystem
Host-Parasite Interactions
Introduced Species
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Summary:Long-distance migration can lower infection risk for animal populations by removing infected individuals during strenuous journeys, spatially separating susceptible age classes, or allowing migrants to periodically escape from contaminated habitats. Many seasonal migrations are changing due to human activities including climate change and habitat alteration. Moreover, for some migratory populations, sedentary behaviors are becoming more common as migrants abandon or shorten their journeys in response to supplemental feeding or warming temperatures. Exploring the consequences of reduced movement for host–parasite interactions is needed to predict future responses of animal pathogens to anthropogenic change. Monarch butterflies (Danaus plexippus) and their specialist protozoan parasite Ophryocystis elektroscirrha (OE) provide a model system for examining how long-distance migration affects infectious disease processes in a rapidly changing world. Annual monarch migration from eastern North America to Mexico is known to reduce protozoan infection prevalence, and more recent work suggests that monarchs that forego migration to breed year-round on non-native milkweeds in the southeastern and south central Unites States face extremely high risk of infection. Here, we examined the prevalence of OE infection from 2013 to 2016 in western North America, and compared monarchs exhibiting migratory behavior (overwintering annually along the California coast) with those that exhibit year-round breeding. Data from field collections and a joint citizen science program of Monarch Health and Monarch Alert showed that infection frequency was over nine times higher for monarchs sampled in gardens with year-round milkweed as compared to migratory monarchs sampled at overwintering sites. Results here underscore the importance of animal migrations for lowering infection risk and motivate future studies of pathogen transmission in migratory species affected by environmental change.
ISSN:1540-7063
1557-7023
DOI:10.1093/icb/icw030