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Dynamics of the energy seascape can explain intra-specific variations in sea-crossing behaviour of soaring birds

Elham Nourani, Wouter M. G. Vansteelant, Patrik Byholm, Kamran Safi

2020Biology Letters37 citationsDOIOpen Access PDF

Abstract

Abstract Thermal soaring birds extract energy from the atmosphere to achieve energetically low-cost movement. When encountering regions that are energetically costly to fly over, such as open seas, they should attempt to adjust the spatio-temporal pattern of their passage to maximize energy extraction from the atmosphere over these ecological barriers. We applied the concept of energy landscapes to investigate the spatio-temporal dynamics of energy availability over the open sea for soaring flight. We specifically investigated how the ‘energy seascape' may shape age-specific sea-crossing behaviour of European honey buzzards, Pernis apivorus, over the Mediterranean Sea in autumn. We found uplift potential over the sea to be the main determinant of sea-crossing distance, rather than wind conditions. Considering this variable as a proxy for available energy over the sea, we constructed the energy seascape for the autumn migration season using 40 years of temperature data. Our results indicate that early-migrating adult buzzards are likely to encounter adverse energy subsidence over the Mediterranean, whereas late-migrating juveniles face less adverse flight conditions, and even conditions conducive to soaring flight. Our study provides evidence that the dynamics of the energy landscape can explain intra-specific variation in migratory behaviour also at sea.

Topics & Concepts

SeascapeBiologyMediterranean seaEcologyForagingMediterranean climateHabitatOceanographyGeologyAvian ecology and behaviorAnimal Behavior and ReproductionClimate variability and models
Dynamics of the energy seascape can explain intra-specific variations in sea-crossing behaviour of soaring birds | Litcius