Annual 10-Month Aerial Life Phase in the Common Swift Apus apus

The common swift (Apus apus) is adapted to an aerial lifestyle, where food and nest material are captured in the air. Observations have prompted scientists to hypothesize that swifts stay airborne for their entire non-breeding period [1, 2], including migration into sub-Saharan Africa [3–5]. It is m...

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Bibliographic Details
Published in:Current Biology
Main Authors: Hedenström, Anders, Norevik, Gabriel, Warfvinge, Kajsa, Andersson, Arne, Bäckman, Johan, Åkesson, Susanne
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2016
Subjects:
Evolutionary Biology
Zoology
accelerometry
aerial life
Apus apus
common swift
dusk ascent
endurance flight
flight activity
geolocation
roost
sleep
Online Access:https://lup.lub.lu.se/record/223d24a5-e6c8-4ee1-b7ae-2d449e8d25ab
https://doi.org/10.1016/j.cub.2016.09.014
Description
Summary:The common swift (Apus apus) is adapted to an aerial lifestyle, where food and nest material are captured in the air. Observations have prompted scientists to hypothesize that swifts stay airborne for their entire non-breeding period [1, 2], including migration into sub-Saharan Africa [3–5]. It is mainly juvenile common swifts that occasionally roost in trees or buildings before autumn migration when weather is bad [1, 6]. In contrast, the North American chimney swift (Chaetura pelagica) and Vaux's swift (C. vauxi) regularly settle to roost in places like chimneys and buildings during migration and winter [7, 8]. Observations of common swifts during the winter months are scarce, and roost sites have never been found in sub-Saharan Africa. In the breeding season, non-breeding individuals usually spend the night airborne [9], whereas adult nesting birds roost in the nest [1]. We equipped common swifts with a micro data logger with an accelerometer to record flight activity (years 1–2) and with a light-level sensor for geolocation (year 2). Our data show that swifts are airborne for >99% of the time during their 10-month non-breeding period; some individuals never settled, but occasional events of flight inactivity occurred in most individuals. Apparent flight activity was lower during the daytime than during the nighttime, most likely due to prolonged gliding episodes during the daytime when soaring in thermals. Our data also revealed that twilight ascents, previously observed during the summer [10], occur throughout the year. The results have important implications for understanding physiological adaptations to endure prolonged periods of flight, including the need to sleep while airborne.

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