Global Ecology and Biogeography, volume 34, issue 2

Global Marine Flyways Identified for Long‐Distance Migrating Seabirds From Tracking Data

J M Morten 1
Ana P B Carneiro 1
Martin Beal 2
Anne Sophie Bonnet Lebrun 3
Maria P Dias 2
Marie Morgane Rouyer 4
Autumn-Lynn Harrison 5
Jacob González-Solís 6, 7
Victoria R Jones 1
Virginia A. Garcia Alonso 1
Michelle Antolos 8
Javier A Arata 9
Christophe Barbraud 3
ELIZABETH BELL 10
Mike Bell 11
Samhita Bose 12
Sharyn Broni 12
Michael de L Brooke 13
Stuart H.M Butchart 1, 13
Nicholas Carlile 14
P. Catry 15
Teresa Catry 16
Matt Charteris 17
Y. Cherel 3
Bethany L Clark 1
Thomas A Clay 8, 18
Nik C Cole 19, 20
Melinda G Conners 21
Igor Debski 12
Karine Delord 3
Carsten Egevang 22
Graeme Elliot 12
Jan Esefeld 23
Colin Facer 12
Annette L. Fayet 24, 25
Ruben Christiaan Fijn 26, 27
Johannes H Fischer 12
Kirsty Franklin 28, 29
Olivier Gilg 30, 31
Jennifer Gill 28
José Pedro Granadeiro 32
Tim Guilford 25
Jonathan J. Handley 1
Sveinn Are Hanssen 33
L. A. Hawkes 34
April Hedd 35
Audrey Jaeger 36
Carl G Jones 19, 20
Christopher W. Jones 37
Matthias Kopp 23
Johannes Krietsch 23, 38
Todd J Landers 39, 40
Johannes Lang 31, 41
Matthieu Le Corre 42
Mark A. Mallory 43
Juan F Masello 44, 45
Sara M Maxwell 46
Fernando Medrano 47
Teresa Militão 6, 7
Craig D. Millar 48
Børge Moe 24
William A Montevecchi 49
Leia Navarro Herrero 6, 7
Verónica C Neves 50, 51
David G. Nicholls 52
Malcolm A.C Nicoll 29
Ken Norris 53
Terence O’Dwyer 54
Graham C Parker 55
Hans-Ulrich Peter 23
Richard A. Phillips 56
Petra Quillfeldt 57
J. Ramos 58
Raül Ramos 6, 7
Peter J Rayner 40, 59
Kalinka Rexer Huber 55
R A Ronconi 60
Kevin Ruhomaun 61
Peter G Ryan 37
PM Sagar 62
Sarah Saldanha 6
Niels Martin Schmidt 63, 64
Hendrik Schultz 12, 40
Scott A. Shaffer 65
Iain J. Stenhouse 66
Akinori Takahashi 67
Vikash Tatayah 20, 68
Graeme A Taylor 12
David R Thompson 69
Theo Thompson 70
Rob S. A. van Bemmelen 26
Diego Vicente‐Sastre 6, 7
Freydis Vigfusdottir 71
Kath J Walker 12
Jim Watts 12
Henri Weimerskirch 3
Takashi Yamamoto 72
Tammy Davies 1
Show full list: 98 authors
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Birdlife International Cambridge UK
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cE3c–Centre for Ecology, Evolution and Environmental Changes & CHANGE–Global Change and Sustainability Institute, Department of Animal Biology Faculty of Sciences University of Lisbon Campo Grande Lisboa Portugal
3
 
Centre d'Etudes Biologiques de Chizé (CEBC) UMR7372 du CNRS‐La Rochelle Université Villiers‐en‐Bois France
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Centre for Functional and Evolutionary Ecology University of Montpellier‐CNRS‐EPHE‐IRD Montpellier France
5
 
Migratory Bird Center Smithsonian's National Zoo and Conservation Biology Institute Washington DC USA
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ARK Toronto Canada
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Wildlife Management International Ltd. Blenheim New Zealand
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Toroa Consulting Chatham Islands New Zealand
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Department of Conservation/Te Papa Atawhai Wellington New Zealand
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Department of Climate Change Energy, the Environment and Water Sydney New South Wales Australia
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MARE–Marine and Environmental Sciences Centre/ARNET–Aquatic Research Network Ispa–Instituto Universitário Lisboa Portugal
16
 
Centro de Estudos do Ambiente e do Mar (CESAM), Departamento de Biologia Animal, Faculdade de Ciências Universidade de Lisboa Lisboa Portugal
17
 
Waybacks Charleston New Zealand
18
 
Environmental Defense Fund Monterey California USA
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Durrell Wildlife Conservation Trust Les Augrès Manor Trinity Jersey, Channel Islands UK
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Mauritian Wildlife Foundation Vacoas Mauritius
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Waardenburg Ecology Culemborg The Netherlands
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UMR 6249 Chrono‐Environnement, CNRS Université de Franche‐Comté Besançon France
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Groupe de Recherche en Ecologie Arctique Francheville France
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CESAM, Departamento de Biologia Animal, Faculdade de Ciênciaas Universidade de Lisboa Lisboa Portugal
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Biosciences, Faculty of Health and Life Sciences University of Exeter, Hatherly Laboratories Exeter UK
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Wildlife Research Division, Science and Technology Branch Environment and Climate Change Canada Mount Pearl Canada
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UMR ENTROPIE Université de La Réunion Saint Denis France
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Auckland Council Auckland New Zealand
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School of Biological Sciences University of Auckland/Te Kura Mātauranga Koiora Auckland New Zealand
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Working Group Wildlife Research at the Clinic for Birds, Reptiles, Amphibians and Fish Justus Liebig University Giessen Giessen Germany
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UMR ENTROPIE (Université de La Réunion, IRD, CNRS, IFREMER, UNC) Saint‐Denis France
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Acadia University Wolfville Nova Scotia Canada
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Department of Biological Sciences University of Venda Thohoyandou Republic of South Africa
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Universitat de Barcelona Isla Negra Chile
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Institute of Marine Sciences–OKEANOS University of the Azores Horta Portugal
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IMAR Instituto do Mar, Universidade dos Açores Horta Portugal
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Chisholm Institute Dandenong Victoria Australia
53
 
Natural History Museum London UK
54
 
Gadfly Ecological Services Brisbane Queensland Australia
55
 
Parker Conservation Dunedin New Zealand
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Department of Life Sciences, MARE–Marine and Environmental Sciences Centre, ARNET–Aquatic Research Network University of Coimbra Coimbra Portugal
59
 
Tāmaki Paenga Hira Auckland Museum Auckland New Zealand
60
 
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National Parks and Conservation Service (Government of Mauritius) Reduit Mauritius
62
 
NIWA Christchurch New Zealand
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San Jose University San Jose California USA
66
 
Biodiversity Research Institute Portland Maine USA
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Publication typeJournal Article
Publication date2025-02-17
scimago Q1
SJR2.744
CiteScore12.1
Impact factor6.3
ISSN1466822X, 14668238
Abstract
ABSTRACT
Aim

To identify the broad‐scale oceanic migration routes (‘marine flyways’) used by multiple pelagic, long‐distance migratory seabirds based on a global compilation of tracking data.

Location

Global.

Time Period

1989–2023.

Major Taxa Studied

Seabirds (Families: Phaethontidae, Hydrobatidae, Diomedeidae, Procellariidae, Laridae and Stercorariidae).

Methods

We collated a comprehensive global tracking dataset that included the migratory routes of 48 pelagic and long‐distance migrating seabird species across the Atlantic, Indian, Pacific and Southern Oceans. We grouped individuals that followed similar routes, independent of species or timings of migration, using a dynamic time warping clustering approach. We visualised the routes of each cluster using a line density analysis and used knowledge of seabird spatial ecology to combine the clusters to identify the broad‐scale flyways followed by most pelagic migratory seabirds tracked to‐date at an ocean‐basin scale.

Results

Six marine flyways were identified across the world's oceans: the Atlantic Ocean Flyway, North Indian Ocean Flyway, East Indian Ocean Flyway, West Pacific Ocean Flyway, Pacific Ocean Flyway and Southern Ocean Flyway. Generally, the flyways were used bidirectionally, and individuals either followed sections of a flyway, a complete flyway, or their movements linked two or more flyways. Transhemispheric figure‐of‐eight routes in the Atlantic and Pacific oceans, and a circumnavigation flyway in the Southern Ocean correspond with major winddriven ocean currents.

Main Conclusions

The marine flyways identified demonstrate that pelagic seabirds have similar and repeatable migration routes across ocean‐basin scales. Our study highlights the need to account for connectivity in seabird conservation and provides a framework for international cooperation.

Found 
Found 

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Global Ecology and Conservation
Global Ecology and Conservation, 1, 100%
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Elsevier
Elsevier, 1, 100%
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