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Airflow modelling predicts seabird breeding habitat across islands
Ecography, Volume: 2022, Issue: 1
Swansea University Authors: Luca Borger , Emily Shepard
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© 2021 The Authors. This is an open access article under the terms of the Creative Commons Attribution License
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DOI (Published version): 10.1111/ecog.05733
Abstract
Wind is fundamentally related to shelter and flight performance: two factors that are critical for birds at their nest sites. Despite this, airflows have never been fully integrated into models of breeding habitat selection, even for well-studied seabirds. Here we use computational fluid dynamics to...
Published in: | Ecography |
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ISSN: | 0906-7590 1600-0587 |
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Wiley
2022
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URI: | https://cronfa.swan.ac.uk/Record/cronfa58173 |
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2022-10-26T13:55:44.1315017 v2 58173 2021-10-02 Airflow modelling predicts seabird breeding habitat across islands 8416d0ffc3cccdad6e6d67a455e7c4a2 0000-0001-8763-5997 Luca Borger Luca Borger true false 54729295145aa1ea56d176818d51ed6a 0000-0001-7325-6398 Emily Shepard Emily Shepard true false 2021-10-02 SBI Wind is fundamentally related to shelter and flight performance: two factors that are critical for birds at their nest sites. Despite this, airflows have never been fully integrated into models of breeding habitat selection, even for well-studied seabirds. Here we use computational fluid dynamics to provide the first assessment of whether flow characteristics (including wind speed and turbulence) predict the distribution of seabird colonies, taking common guillemots (Uria aalge) breeding on Skomer island as our study system. This demonstrates that occupancy is driven by the need to shelter from both wind and rain/ wave action, rather than airflow characteristics alone. Models of airflows and cliff orientation both performed well in predicting high quality habitat in our study site, identifying 80% of colonies and 93% of avoided sites, as well as 73% of the largest colonies on a neighbouring island. This suggests generality in the mechanisms driving breeding distributions, and provides an approach for identifying habitat for seabird reintroductions considering current and projected wind speeds and directions. Journal Article Ecography 2022 1 Wiley 0906-7590 1600-0587 climate change; computational fluid dynamics; distribution; flight; habitat use; seabird; wind 1 1 2022 2022-01-01 10.1111/ecog.05733 COLLEGE NANME Biosciences COLLEGE CODE SBI Swansea University External research funder(s) paid the OA fee (includes OA grants disbursed by the Library) European Research Council under the European Union’s Horizon 2020 research and innovation program Grant 715874 (to ELCS). 2022-10-26T13:55:44.1315017 2021-10-02T12:35:40.6532793 Faculty of Science and Engineering School of Biosciences, Geography and Physics - Biosciences Emmanouil Lempidakis 1 Andrew N. Ross 2 Luca Borger 0000-0001-8763-5997 3 Emily Shepard 0000-0001-7325-6398 4 58173__21882__cb3285cb62bb4f839fbfa655b9f5e4be.pdf 58173.pdf 2021-12-14T14:07:01.7688239 Output 1961570 application/pdf Version of Record true © 2021 The Authors. This is an open access article under the terms of the Creative Commons Attribution License true eng http://creativecommons.org/licenses/by/3.0/ |
title |
Airflow modelling predicts seabird breeding habitat across islands |
spellingShingle |
Airflow modelling predicts seabird breeding habitat across islands Luca Borger Emily Shepard |
title_short |
Airflow modelling predicts seabird breeding habitat across islands |
title_full |
Airflow modelling predicts seabird breeding habitat across islands |
title_fullStr |
Airflow modelling predicts seabird breeding habitat across islands |
title_full_unstemmed |
Airflow modelling predicts seabird breeding habitat across islands |
title_sort |
Airflow modelling predicts seabird breeding habitat across islands |
author_id_str_mv |
8416d0ffc3cccdad6e6d67a455e7c4a2 54729295145aa1ea56d176818d51ed6a |
author_id_fullname_str_mv |
8416d0ffc3cccdad6e6d67a455e7c4a2_***_Luca Borger 54729295145aa1ea56d176818d51ed6a_***_Emily Shepard |
author |
Luca Borger Emily Shepard |
author2 |
Emmanouil Lempidakis Andrew N. Ross Luca Borger Emily Shepard |
format |
Journal article |
container_title |
Ecography |
container_volume |
2022 |
container_issue |
1 |
publishDate |
2022 |
institution |
Swansea University |
issn |
0906-7590 1600-0587 |
doi_str_mv |
10.1111/ecog.05733 |
publisher |
Wiley |
college_str |
Faculty of Science and Engineering |
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facultyofscienceandengineering |
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Faculty of Science and Engineering |
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facultyofscienceandengineering |
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Faculty of Science and Engineering |
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School of Biosciences, Geography and Physics - Biosciences{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Biosciences, Geography and Physics - Biosciences |
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description |
Wind is fundamentally related to shelter and flight performance: two factors that are critical for birds at their nest sites. Despite this, airflows have never been fully integrated into models of breeding habitat selection, even for well-studied seabirds. Here we use computational fluid dynamics to provide the first assessment of whether flow characteristics (including wind speed and turbulence) predict the distribution of seabird colonies, taking common guillemots (Uria aalge) breeding on Skomer island as our study system. This demonstrates that occupancy is driven by the need to shelter from both wind and rain/ wave action, rather than airflow characteristics alone. Models of airflows and cliff orientation both performed well in predicting high quality habitat in our study site, identifying 80% of colonies and 93% of avoided sites, as well as 73% of the largest colonies on a neighbouring island. This suggests generality in the mechanisms driving breeding distributions, and provides an approach for identifying habitat for seabird reintroductions considering current and projected wind speeds and directions. |
published_date |
2022-01-01T04:14:29Z |
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1763753978330349568 |
score |
11.029921 |