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Migrating towards better health

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Migrating towards better health

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March 29, 2011

It's a common assumption that animal migration, like human travel across the globe, can transport pathogens long distances, in some cases increasing disease risks to humans. West Nile Virus, for example, spread rapidly along the East coast of the U.S., most likely due to the movements of migratory birds. But in a paper just published in the journal Science, researchers in the University of Georgia Odum School of Ecology report that in some cases, animal migrations could actually help reduce the spread and prevalence of disease and may even promote the evolution of less-virulent disease strains.
Every year, billions of animals migrate, some taking months to travel thousands of miles across the globe. Along the way, they can encounter a broad range of pathogens while using different habitats and resources. Stopover points, where animals rest and refuel, are often shared by multiple species in large aggregations, allowing diseases to spread among them.

But, according to Odum School associate professor Sonia Altizer and her co-authors, Odum School postdoctoral associates Rebecca Bartel and Barbara Han, migration can also help limit the spread of some pathogens.

Some kinds of parasites have transmission stages that can build up in the environment where host animals live, and migration allows the hosts to periodically escape these parasite-laden habitats. While hosts are gone, parasite numbers become greatly reduced so that the migrating animals find a largely disease-free habitat when they return. Long migratory journeys can also weed infected animals from the population: imagine running a marathon with the flu. This not only prevents those individuals from spreading disease to others, it also helps to eliminate some of the most virulent strains of pathogens.

"By placing disease in an ecological context," said Odum School dean John Gittleman, "you not only see counterintuitive patterns but also understand advantages to disease transmission. This is a classic example of disease ecology at its best."

Altizer's long-term research on monarch butterflies and a protozoan parasite that infects them provides an excellent demonstration of migration's effects on the spread of infectious disease. Monarchs in eastern North America migrate long distances, from as far north as Canada, to central Mexico, where they spend the winter. Monarchs in other parts of the world migrate shorter distances. In locations with mild year-round climates, such as southern Florida and Hawaii, monarchs do not migrate at all. Work by Altizer and others in her lab showed that parasite prevalence is lowest in the eastern North American population, which migrates the farthest distance, and highest in non-migratory populations. "Taken together, these findings tell us that migration is important for keeping monarch populations healthy-a result that could apply to many other migratory animal species," said Altizer.

The research is supported by the National Science Foundation, National Institutes of Health and the National Center for Ecological Analysis and Synthesis.