Baleen whale navigation in astronomically referenced magnetic coordinates

How animals navigate during long-distance migration remains a mystery. Many theories have been proposed1 (Keeton, 1979), with the Earth’s magnetic field emerging as a clear potential source of orientational information for navigational decision-making across diverse taxa2 (Putman, 2022). Yet, the me...

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Bibliographic Details
Main Authors: Horton, Travis, Hauser, Nan Daeschler, Zerbini, Alexandre, Palacios, Daniel, Rikardsen, Audun, Lydersen, Christian, Kovacs, Kit, Silva, Mónica, Prieto, Rui, Constantine, Rochelle, Riekkola, Leena, Garrigue, Claire, Derville, Solène, Heide-jørgensen, Mads Peter, Double, Michael C., Andrews-goff, Virginia, Gales, Nick, Ivashchenko, Yulia, Clapham, Phillip, Mate, Bruce
Format: Article in Journal/Newspaper
Language:English
Published: Research Square Platform LLC 2024
Subjects:
Biological sciences/Ecology/Behavioural ecology
Earth and environmental sciences/Ocean sciences/Marine biology
Physical sciences/Physics/Biological physics
Scientific community and society/Scientific community/Research data/Databases
Biological sciences/Ecology/Animal migration
Balaena mysticetus
Balaenoptera musculus
Balaenoptera physalus
baleen whale
baleen whales
Megaptera novaeangliae
Online Access:https://archimer.ifremer.fr/doc/00898/100969/111489.pdf
https://archimer.ifremer.fr/doc/00898/100969/111490.xlsx
https://archimer.ifremer.fr/doc/00898/100969/111491.xlsx
https://doi.org/10.21203/rs.3.rs-4613940/v1
https://archimer.ifremer.fr/doc/00898/100969/
Description
Summary:How animals navigate during long-distance migration remains a mystery. Many theories have been proposed1 (Keeton, 1979), with the Earth’s magnetic field emerging as a clear potential source of orientational information for navigational decision-making across diverse taxa2 (Putman, 2022). Yet, the mechanics involved in magnetic navigation remain unknown3 (Schneider et al., 2023). Globally distributed records available from historic whaling4-5 (AOWLD, 2023; Yablokov et al., 1998) in combination with modern satellite-tracking datasets6 (Horton et al., 2022) for baleen whales create a unique opportunity to illuminate the mechanics of cetacean navigation. Here, we show that baleen whale migratory destinations over the last >200 years are systematically distributed in horizontal plane magnetic coordinates. Specifically, blue (Balaenoptera musculus), bowhead (Balaena mysticetus), fin (Balaenoptera physalus), gray (Eschrichtius robustus), humpback (Megaptera novaeangliae), and right (Eubalaena spp.) whales non-randomly inhabit areas where magnetic declination (MD) closely approximates integer and half-integer multiples of the Earth’s 23.44° axial tilt. Our findings, which are highly reproducible through both space and time, demonstrate that baleen whale navigation between seasonal habitats occurs via the integration of magnetic and astronomic orientation cues3. By referencing MD values to the rise and set azimuths of the Sun, baleen whale movements define mechanistic horizontal plane heliomagnetic coordinate trajectories across all ocean basins.

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