Flexible flight response to challenging wind conditions in a commuting Antarctic seabird: do you catch the drift?
Flight is intrinsically an energetically costly way of moving and birds have developed morphological, physiological and behavioural adaptations to minimize these costs. Central-place foraging seabirds commute regularly between nesting and foraging areas, providing us with opportunities to investigat...
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| Published in | Animal behaviour Vol. 113; pp. 99 - 112 |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Elsevier Ltd
01.03.2016
Harcourt Brace Jovanovich Ltd Elsevier |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Flight is intrinsically an energetically costly way of moving and birds have developed morphological, physiological and behavioural adaptations to minimize these costs. Central-place foraging seabirds commute regularly between nesting and foraging areas, providing us with opportunities to investigate their behavioural response to environmental conditions that may affect flight, such as wind. Here we tested hypotheses on how wind conditions influence flight behaviour in situations devoid of the confounding effect that, for instance, active foraging behaviour can have on movement patterns. We studied the Antarctic petrel, Thalassoica antarctica, a seabird breeding far inland in Antarctica and commuting through vast ice-covered areas characterized by steady and strong winds as well as a strict absence of foraging opportunities. We combined the three-dimensional location data from 79 GPS tracks with atmospheric wind data over three consecutive breeding seasons (2011–2013) in order to assess individual flight responses to wind conditions. Antarctic petrels encountered generally unfavourable winds, particularly during return flights. Despite their capacity to adjust their speed and heading in order to maintain constant track direction (compensation) in the strongest winds, they generally drifted as wind strengthened. Strong winds induced low-altitude flight. Birds tended to otherwise fly relatively high, but at altitudes with more favourable winds than what they would have encountered if flying higher. Our results show that commuting Antarctic petrels: (1) can tolerate a certain amount of drift according to wind conditions and (2) might be more limited by their ability to assess drift, rather than compensate for it, at least during returning flights.
•We examine flying tactics of Antarctic petrels during commuting in harsh winds.•In favourable winds, high-altitude flight is preferred.•Strong unfavourable winds (head or cross winds) induce near-ground level flight.•Birds drift more in strong winds during outbound and return flights.•Our results suggest that birds may have difficulty assessing drift in strong winds. |
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| AbstractList | Flight is intrinsically an energetically costly way of moving and birds have developed morphological,physiological and behavioural adaptations to minimize these costs. Central-place foraging seabirdscommute regularly between nesting and foraging areas, providing us with opportunities to investigatetheir behavioural response to environmental conditions that may affect flight, such as wind. Here wetested hypotheses on how wind conditions influence flight behaviour in situations devoid of the confoundingeffect that, for instance, active foraging behaviour can have on movement patterns. We studiedthe Antarctic petrel, Thalassoica antarctica, a seabird breeding far inland in Antarctica and commutingthrough vast ice-covered areas characterized by steady and strong winds as well as a strict absence offoraging opportunities. We combined the three-dimensional location data from 79 GPS tracks with atmosphericwind data over three consecutive breeding seasons (2011e2013) in order to assess individualflight responses to wind conditions. Antarctic petrels encountered generally unfavourable winds,particularly during return flights. Despite their capacity to adjust their speed and heading in order tomaintain constant track direction (compensation) in the strongest winds, they generally drifted as windstrengthened. Strong winds induced low-altitude flight. Birds tended to otherwise fly relatively high, butat altitudes with more favourable winds than what they would have encountered if flying higher. Ourresults show that commuting Antarctic petrels: (1) can tolerate a certain amount of drift according towind conditions and (2) might be more limited by their ability to assess drift, rather than compensate forit, at least during returning flights. Flight is intrinsically an energetically costly way of moving and birds have developed morphological, physiological and behavioural adaptations to minimize these costs. Central-place foraging seabirds commute regularly between nesting and foraging areas, providing us with opportunities to investigate their behavioural response to environmental conditions that may affect flight, such as wind. Here we tested hypotheses on how wind conditions influence flight behaviour in situations devoid of the confounding effect that, for instance, active foraging behaviour can have on movement patterns. We studied the Antarctic petrel, Thalassoica antarctica, a seabird breeding far inland in Antarctica and commuting through vast ice-covered areas characterized by steady and strong winds as well as a strict absence of foraging opportunities. We combined the three-dimensional location data from 79 GPS tracks with atmospheric wind data over three consecutive breeding seasons (2011-2013) in order to assess individual flight responses to wind conditions. Antarctic petrels encountered generally unfavourable winds, particularly during return flights. Despite their capacity to adjust their speed and heading in order to maintain constant track direction (compensation) in the strongest winds, they generally drifted as wind strengthened. Strong winds induced low-altitude flight. Birds tended to otherwise fly relatively high, but at altitudes with more favourable winds than what they would have encountered if flying higher. Our results show that commuting Antarctic petrels: (1) can tolerate a certain amount of drift according to wind conditions and (2) might be more limited by their ability to assess drift, rather than compensate for it, at least during returning flights. Flight is intrinsically an energetically costly way of moving and birds have developed morphological, physiological and behavioural adaptations to minimize these costs. Central-place foraging seabirds commute regularly between nesting and foraging areas, providing us with opportunities to investigate their behavioural response to environmental conditions that may affect flight, such as wind. Here we tested hypotheses on how wind conditions influence flight behaviour in situations devoid of the confounding effect that, for instance, active foraging behaviour can have on movement patterns. We studied the Antarctic petrel, Thalassoica antarctica, a seabird breeding far inland in Antarctica and commuting through vast ice-covered areas characterized by steady and strong winds as well as a strict absence of foraging opportunities. We combined the three-dimensional location data from 79 GPS tracks with atmospheric wind data over three consecutive breeding seasons (2011–2013) in order to assess individual flight responses to wind conditions. Antarctic petrels encountered generally unfavourable winds, particularly during return flights. Despite their capacity to adjust their speed and heading in order to maintain constant track direction (compensation) in the strongest winds, they generally drifted as wind strengthened. Strong winds induced low-altitude flight. Birds tended to otherwise fly relatively high, but at altitudes with more favourable winds than what they would have encountered if flying higher. Our results show that commuting Antarctic petrels: (1) can tolerate a certain amount of drift according to wind conditions and (2) might be more limited by their ability to assess drift, rather than compensate for it, at least during returning flights. •We examine flying tactics of Antarctic petrels during commuting in harsh winds.•In favourable winds, high-altitude flight is preferred.•Strong unfavourable winds (head or cross winds) induce near-ground level flight.•Birds drift more in strong winds during outbound and return flights.•Our results suggest that birds may have difficulty assessing drift in strong winds. |
| Author | Yoccoz, Nigel G. Bromwich, David H. Kato, Akiko Ropert-Coudert, Yan Varpe, Øystein Descamps, Sébastien Tarroux, Arnaud Wang, Sheng-Hung Weimerskirch, Henri Cherel, Yves |
| Author_xml | – sequence: 1 givenname: Arnaud orcidid: 0000-0001-8306-6694 surname: Tarroux fullname: Tarroux, Arnaud email: arnaud.tarroux@npolar.no organization: Norwegian Polar Institute, Fram Centre, Tromsø, Norway – sequence: 2 givenname: Henri surname: Weimerskirch fullname: Weimerskirch, Henri organization: Centre d'Etudes Biologiques de Chizé (CEBC), UMR 7372 CNRS-Université de La Rochelle, La Rochelle, France – sequence: 3 givenname: Sheng-Hung orcidid: 0000-0002-8057-835X surname: Wang fullname: Wang, Sheng-Hung organization: Polar Meteorology Group, Byrd Polar and Climate Research Center, The Ohio State University, Columbus, OH, U.S.A – sequence: 4 givenname: David H. surname: Bromwich fullname: Bromwich, David H. organization: Polar Meteorology Group, Byrd Polar and Climate Research Center, The Ohio State University, Columbus, OH, U.S.A – sequence: 5 givenname: Yves surname: Cherel fullname: Cherel, Yves organization: Centre d'Etudes Biologiques de Chizé (CEBC), UMR 7372 CNRS-Université de La Rochelle, La Rochelle, France – sequence: 6 givenname: Akiko surname: Kato fullname: Kato, Akiko organization: UMR7178-CNRS, Strasbourg, France – sequence: 7 givenname: Yan surname: Ropert-Coudert fullname: Ropert-Coudert, Yan organization: UMR7178-CNRS, Strasbourg, France – sequence: 8 givenname: Øystein surname: Varpe fullname: Varpe, Øystein organization: University Centre in Svalbard, Longyearbyen, Norway – sequence: 9 givenname: Nigel G. surname: Yoccoz fullname: Yoccoz, Nigel G. organization: Department of Arctic and Marine Biology, University of Tromsø - The Arctic University of Norway, Tromsø, Norway – sequence: 10 givenname: Sébastien surname: Descamps fullname: Descamps, Sébastien organization: Norwegian Polar Institute, Fram Centre, Tromsø, Norway |
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| Copyright | 2015 The Association for the Study of Animal Behaviour Copyright Harcourt Brace Jovanovich Ltd. Mar 2016 Distributed under a Creative Commons Attribution 4.0 International License |
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| Keywords | flight height flying tactics orientation central-place foraging Procellariiformes airspeed drift |
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| SubjectTerms | airspeed altitude Animal behavior Antarctic region Antarctica Aquatic birds Birds breeding breeding season Breeding seasons central-place foraging Commuting drift Environmental conditions Environmental Sciences flight Flight behavior flight height flying tactics foraging Foraging behavior global positioning systems Hypothesis testing Nesting orientation Procellariidae Procellariiformes seabirds Thalassoica antarctica Wind wind speed |
| Title | Flexible flight response to challenging wind conditions in a commuting Antarctic seabird: do you catch the drift? |
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