Litcius/Paper detail

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

Joanne M. Morten, Ana P. B. Carneiro, Martin Beal, Anne‐Sophie Bonnet‐Lebrun, Maria P. Dias, Marie‐Morgane Rouyer, Autumn‐Lynn Harrison, Jacob González‐Solís, Victoria R. Jones, Virginia A. Garcia Alonso, Michelle Antolos, Javier A. Arata, Christophe Barbraud, Elizabeth Bell, Mike Bell, Samhita Bose, Sharyn Broni, M. de L. Brooke, Stuart H. M. Butchart, Nicholas Carlile, Paulo Catry, Teresa Catry, Matt Charteris, Yves Cherel, Bethany L. Clark, Thomas A. Clay, Nik C. Cole, Melinda G. Conners, Igor Debski, Karine Delord, Carsten Egevang, Graeme Elliot, Jan Esefeld, Colin Facer, Annette L. Fayet, Ruben Fijn, Johannes H. Fischer, Kirsty A. Franklin, Olivier Gilg, Jennifer A. Gill, José P. Granadeiro, Tim Guilford, Jonathan Handley, Sveinn Are Hanssen, Lucy A. Hawkes, April Hedd, Audrey Jaeger, Carl G. Jones, Christopher W. Jones, Matthias Kopp, Johannes Krietsch, Todd J. Landers, Johannes Lang, Matthieu Le Corre, Mark L. Mallory, Juan F. Masello, Sara M. Maxwell, Fernando Medrano, Teresa Militão, Craig D. Millar, Børge Moe, William A. Montevecchi, Leia Navarro‐Herrero, Verónica C. Neves, David G. Nicholls, Malcolm A. C. Nicoll, Ken Norris, Terence W. O’Dwyer, Graham C. Parker, Hans‐Ulrich Peter, Richard A. Phillips, Petra Quillfeldt, Jaime A. Ramos, Raül Ramos, Matt J. Rayner, Kalinka Rexer‐Huber, Robert A. Ronconi, Kevin Ruhomaun, Peter G. Ryan, Paul M. Sagar, Sarah Saldanha, Niels Martin Schmidt, Hendrik Schultz, Scott A. Shaffer, Iain J. Stenhouse, Akinori Takahashi, Vikash Tatayah, Graeme A. Taylor, David R. Thompson, Theo Thompson, R.S.A. van Bemmelen, Diego Vicente‐Sastre, Freydís Vigfúsdóttir, Kath J. Walker, J Watts, Henri Weimerskirch, Takashi Yamamoto, Tammy E. Davies

2025Global Ecology and Biogeography15 citationsDOIOpen Access PDF

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 wind ‐ driven 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.

Topics & Concepts

EcologySatellite trackingGeographyTracking (education)BiologySatelliteAerospace engineeringEngineeringPsychologyPedagogyMarine animal studies overviewAvian ecology and behaviorUAV Applications and Optimization