Project description
New multisensor devices to track migratory birds
Avian migration is remarkable. Migratory birds fly hundreds and thousands of kilometres to feed, breed and raise their young. Tracking technology developed during the last decade shows that migratory birds have the capacity to fly longer and faster than previously thought possible. However, it is still not clear how birds perform these seemingly impossible travels. The ERC-funded MigPerform project will explore the constraints and the behavioural and physiological adaptations that have evolved to overcome them making the extreme performances of migratory birds possible. It will use novel tracking devices, multisensor data loggers that can record spatiotemporal patterns and behaviour, including flight altitudes, temperature and detailed timing of flights and stopovers during the entire migration cycle.
Objective
Advances in tracking technology during the last decade have shown that migratory birds have the capacity to fly longer and faster than we previously thought was possible. Yet, we do not know how birds perform these seemingly impossible travels as it previously only was possible to record spatiotemporal patterns.
The overall aim of this project is to reveal constraints and the behavioural and physiological adaptations that has evolved to overcome them, thus making the extreme performances of migratory birds possible. This goal will be met by using novel tracking devices, multisensor data loggers, that in addition to spatiotemporal patterns also record behaviour, including flight altitudes, temperature and detailed timing of flights and stopovers during the entire migration cycle. The few multisensor tracking studies carried out to date have provided hints of stunning new insights, and seriously challenged previously assumed limits on peak flight altitudes, in-flight changes of altitudes, and duration of individual flights. In particular, I have together with colleagues discovered a totally unexpected altitudinal behaviour: some bird species change their flight altitude between night and day, and fly at extremely high altitudes during the day (up to 6000-8000 m). But what makes a migratory bird fly as high as Mount Everest, even when there are no mountains to cross?
By launching an extensive multisensor data logging programme, combined with wind tunnel experiments and field studies, the proposed project will change our understanding of the possibilities and limitations of bird migration. This will be done by disentangling the causes and consequences of bird’s altitudinal behaviour, the flexibility, timing and duration of migratory flights (if birds only use diurnal or nocturnal flights, if they prolong flights to last both day and night or even fly nonstop between wintering and breeding grounds), and the costs and consequences of these seemingly extreme behaviours.
Fields of science
CORDIS classifies projects with EuroSciVoc, a multilingual taxonomy of fields of science, through a semi-automatic process based on NLP techniques.
CORDIS classifies projects with EuroSciVoc, a multilingual taxonomy of fields of science, through a semi-automatic process based on NLP techniques.
Programme(s)
- HORIZON.1.1 - European Research Council (ERC) Main Programme
Topic(s)
Funding Scheme
ERC - Support for frontier research (ERC)Host institution
22100 Lund
Sweden