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Migratory movements of bats are shaped by barrier effects, sex-biased timing and the adaptive use of winds
Lagerveld, S.; de Vries, P.; Harris, J.; Parsons, S.; Debusschere, E.; Hüppop, O.; Brust, V.; Schmaljohann, H. (2024). Migratory movements of bats are shaped by barrier effects, sex-biased timing and the adaptive use of winds. Movement Ecology 12(1): 81. https://dx.doi.org/10.1186/s40462-024-00520-7
In: Movement Ecology. BioMed Central: London. e-ISSN 2051-3933, meer
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Trefwoorden |
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Author keywords |
Bat migration, Nathusius’ pipistrelle, Wind farms, Flight elevation, Migration speed, Wind selectivity, MOTUS wildlife tracking system |
Auteurs | | Top |
- Lagerveld, S.
- de Vries, P.
- Harris, J.
- Parsons, S.
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- Debusschere, E., meer
- Hüppop, O.
- Brust, V.
- Schmaljohann, H.
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Abstract |
BackgroundMigratory bats perform seasonal movements between their summer and winter areas. When crossing ecological barriers, like the open sea, they are exposed to an increased mortality risk due to energetically demanding long-distance flights and unexpected inclement weather events. How such barriers affect bat migratory movements is still poorly known.MethodsTo study bat migration patterns in response to an ecological barrier, we tagged 44 Nathusius’ pipistrelles Pipistrellus nathusii with radio-transmitters on the East coast of the United Kingdom (UK) in spring 2021 and 2022. Subsequently, we assessed their movements to continental Europe using the MOTUS Wildlife Tracking System. We investigated route selection, timing of migration, overall migration speed and the influence of wind on airspeed, groundspeed and flight altitude during migratory overseas flights.ResultsBarrier effects cause migratory movements along the coast, and crossings over sea are shortened by deviating from the general migration direction. Males depart from the UK later in the season compared to females. The overall migration speed of females was 61 km/day and 88 km/day after their last detection in the UK. Our estimated airspeeds during oversea flights correspond well with airspeeds measured in a wind tunnel. Bats use wind adaptively to reduce airspeed when flying under tailwind and increase airspeed when flying under crosswind conditions. Departures over sea coincidence with tailwinds, enabling bats to more than double their airspeed, reaching ground speeds of up to 16.8 m/s (60.5 km/h). Our analysis suggests that bats select altitudes with favourable wind conditions and that they seek altitudes of several hundred meters, possibly extending up to 2,500 m. Low-altitude migration occurs when wind conditions are less favourable.ConclusionsOur study demonstrates that bat migratory movements are highly influenced by barrier effects, sex-biased timing of migration and the adaptive use of winds. The results of our study contribute to a more comprehensive understanding of the decision-making process and adaptations bats employ during their migration. Elucidating bat migration patterns will enable us to develop effective conservation measures, for example in relation to the development and operation of coastal and offshore wind farms.
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