© Tamara Emmenegger
Migratory birds can host a large variety of parasites. Understanding the mechanisms of host-parasite-interactions is complex and the transient nature of migrants makes it difficult to follow them throughout the annual cycle, monitoring their infection status, physiological state or behaviour.
We aim at closing gaps in our current knowledge about the manifold consequences of parasites on their migrating avian hosts by specifically addressing the following questions:
The specific time-scales, at which these consequences appear, can be categorized as follows:
We employ a suite of empirical, experimental, lab-based and theoretical methods, of which the most important ones are measurements of metabolic rates, experimental medication, geolocation as well as activity tags, state-dependent optimal migration models and network models.
Our research will elucidate mechanisms that mediate the spread of diseases, which has implications for both human health and nature conservation. Infectious diseases pose an ongoing threat to global health security and identifying their consequences and mechanisms form the basis for the development of successful prevention strategies.
Migratory animals can importantly influence communities and ecosystems by a variety of transport and trophic effects, most of which are yet to be fully understood. One of these transport effects is the suggested role of migratory animals in the long-distance dispersal of parasites, which can both be facilitated and hampered by the migration process.
We currently investigate the prevalence of avian malaria parasites in different migratory birds and combine this with migration behaviour and daily activity. Furthermore, we measure the physiological capacity of infected and non-infected birds to quantify the short-term consequences of parasitemia.
Staffan Bensch (Department of Ecology, Animal Ecology, Lund University),
Bill Buttemer (Centre for Integrative Ecology, Deakin University, Australia),
Pavel Zehtindjiev (Institute of Biodiversity and Ecosystem Research, Bulgarian Academy of Sciences, Sofia, Bulgaria)
Financial support: Swiss National Science Foundation, Projekt 31003A_160265